https://www.jyi.org/2017-january daily 0.75 2017-04-19 https://www.jyi.org/2017-january/2017/2/13/response-of-acacia-tortilis-to-elephant-browsing-in-tarangire-national-park-tanzania-possible-above-ground-compensation monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487008144066-1BVE7IAUEVSWKPNNXNYV/Figure+1.+Annual+Growth+by+Site 2017, January - Response of Acacia tortilis to Elephant Browsing in Tarangire National Park, Tanzania: Possible Above-Ground Compensation? Figure 1. Annual Growth by Site. Variations in growth is represented by mean (+SE) shoot elongation in A. tortilis, measured using a terminal bud scar scale, at three mesic sites (A, B & C) in the northern woodlands of Tarangire National Park. Measurements were taken for years 2013, 2012, 2011 & 2010. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487008269464-SANM8R7DKGYQ6CRNT9X5/image-asset.png 2017, January - Response of Acacia tortilis to Elephant Browsing in Tarangire National Park, Tanzania: Possible Above-Ground Compensation? Table 1. Repeated Measures ANOVA. The Summary table shows the effect of mesic site and year on annual growth (shoot elongation) in A. tortilis. Significant relationships were found (p-value < 0.05 indicated by * symbol) between above ground growth and mesic site, as well for the interaction of site and growth year on growth. Model R2 (adj.) = 0.46 which indicates relatively high model performance. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487008299109-MGIK8X8VGSXHC56LPLMO/image-asset.jpeg 2017, January - Response of Acacia tortilis to Elephant Browsing in Tarangire National Park, Tanzania: Possible Above-Ground Compensation? Figure 2. Effects of elephant browsing on A. tortilis growth by year. Best fit regression models (linear or quadratic) represent the relationship between above ground growth (included as square root transformed shoot elongation) and elephant browsing (measured as percent of canopy damaged by increments of 10) of A. tortilis over four years (2010, 2011, 2012 & 2013). Each point is the mean growth measurement taken from four to five shoots from one tree. https://www.jyi.org/2017-january/2017/2/13/lessons-from-the-lab-bench monthly 0.5 2017-09-10 https://www.jyi.org/2017-january/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-january/category/Research monthly 0.5 https://www.jyi.org/2016-december daily 0.75 2017-02-14 https://www.jyi.org/2016-december/2017/2/13/neurogenesis-unchanged-by-mthfr-deficiency-in-three-week-old-mice monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487032351765-HTN7L3VLCAXV76RU4UIM/image-asset.png 2016, December - Neurogenesis Unchanged by MTHFR Deficiency in Three-Week-Old Mice Figure 1. Partial diagram of the methionine/homocysteine and folate cycle outlining key contributing molecules to this research. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487032438577-Y6LQ05BRYE9LP32FAJU3/image-asset.jpeg 2016, December - Neurogenesis Unchanged by MTHFR Deficiency in Three-Week-Old Mice Figure 2. Combined images of the co-localization of PH3 and DAPI immunofluorescence staining in the dentate gyrus of a (A) wild-type MTHFR mouse (+/+) and (B) homozygous knockout MTHFR mouse (-/-). 200X magnification. Scale bar 50µm. Mean co-localization count in the dentate gyrus of MTHFR knockout mice and controls (C). No statistically significant differences were viewed (F(2,8) = 0.03, p = 0.974). Standard deviations are represented by the standard deviation bars attached to each column. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487032548118-GSBSTO67A1273GOD3S9W/image-asset.jpeg 2016, December - Neurogenesis Unchanged by MTHFR Deficiency in Three-Week-Old Mice Figure 3. Combined images of the co-localization of PH3 and DAPI immunofluorescence staining in the cerebellum of (A) a wild-type MTHFR mouse (+/+) and (B) a homozygous knockout MTHFR mouse (-/-). 200X magnification. Scale bar 50µm. Mean co-localization count in the cerebellum of MTHFR knockout mice and controls (C). No statistically significant differences were viewed (F(2,13) = 1.29, p = 0.309). Standard deviations are represented in the figure by the standard deviation bars attached to each column. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487032616789-N2DV61QZOX9OH114MARF/image-asset.jpeg 2016, December - Neurogenesis Unchanged by MTHFR Deficiency in Three-Week-Old Mice Figure 4. Combined images of the co-localization of PH3 and DAPI immunofluorescence staining in the cortex of (A) a wild-type MTHFR mouse (+/+) and (B) a homozygous knockout MTHFR mouse (-/-). 200X magnification. Scale bar 50µm. Mean co-localization count in the cortex of MTHFR knockout mice and controls (C). No statistically significant differences were viewed (F(2,10) = 0.26, p = .773). Standard deviations are represented in the figure by the standard deviation bars attached to each column. https://www.jyi.org/2016-december/2017/2/13/structural-dynamics-of-amyloid-aggregation-in-alzheimers-disease-computational-and-experimental-approaches monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487013201645-BTP56C859D5P0R5442YY/image-asset.jpeg 2016, December - Structural Dynamics of Amyloid-β Aggregation in Alzheimer’s Disease: Computational and Experimental Approaches Figure 1. Aβ can aggregate into diverse structural polymorphs. (A) Microscopically, Aβ peptides arrange into β-structures by hydrogen bonds, and the aggregates form surfaces for more Aβ peptides to attach. (B) Structural polymorphs of Aβ40 solved by solid-state NMR. (i) 2-fold striated-ribbon Aβ9-40 prepared in vitro. (ii) 3-fold twisted Aβ9-40 prepared in vitro. (iii) AD patient-derived Aβ1-40 fibrils taken from brain tissue. We display different possible arrangements of the cross-β structures and flexible tails (i-iii), and the common 2- to 3-fold symmetry (i-ii). The accession codes for the relevant Protein Data Bank (PDB) structures used were noted. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487013302848-MV32HIDW8DXPWDUFZM4X/image-asset.jpeg 2016, December - Structural Dynamics of Amyloid-β Aggregation in Alzheimer’s Disease: Computational and Experimental Approaches Figure 2. Conventional and steered molecular dynamics (MD) simulations address different questions. (A) Conventional MD simulation involves calculation of energy, both bonded and non-bonded, under parameterization defined by force-fields as exemplified. Coupling with, for example, site-directed mutagenesis, it is geared to study biochemical properties of the aggregates along the time-scale at atomistic resolution. (B) Alternatively, steered MD simulations, coupled with umbrella sampling could be used to address the aggregative process, e.g., by considering free energy changes (ΔG) throughout the process. PDB entry 2BEG was illustrated here. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487013421370-M4WI0SAIT6CAJ94PTKRA/image-asset.jpeg 2016, December - Structural Dynamics of Amyloid-β Aggregation in Alzheimer’s Disease: Computational and Experimental Approaches Figure 3. Different spectroscopy and spectrometry techniques vary in the principles employed to capture intrinsic changes within molecules. (A) Both Infrared and Raman spectroscopy involve excitation of the molecule to a higher energy state. The former detects the absorption of infrared radiation when the molecule is excited to a higher vibrational energy state. The latter detects the inelastic scattering of electromagnetic radiation when the molecule returns from a higher virtual energy state while retaining some photon energy. This inelastic scattering is a very rare occurrence detected only through filtering out the elastic scatterings simultaneously. (B) For HDX-MS, when the peptides (blue and red) are still monomers, HDX (deuterium as green dots) occurs rapidly along the peptide backbone. As incubation progresses, peptides start to aggregate, and the core is protected from rapid HDX. MS analysis at these two time-points numerates differences. m/z, mass-charge ratio. (C) In AFM-SMSF, the cantilever beam tip serves as a probe to gauge the topography and to apply force to measure mechanical stability/elasticity of peptide aggregates. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487013519063-QP1RPJEYERY8K3879Q3G/image-asset.jpeg 2016, December - Structural Dynamics of Amyloid-β Aggregation in Alzheimer’s Disease: Computational and Experimental Approaches Figure 4. Computational and experimental approaches propose an intergrative model of amyloid aggregation dynamics. The dynamic process of amyloid aggregation is summarized from research utilizing techniques of ssNMR, MD simulation, EM, Fourier transform infrared spectroscopy, kinetic assays, radio-labelling and cell viability experiments. (i-iii) Aβ monomers grow by opportunistic reversible adhesion to each other into different sizes of oligomers. (iv) Weak oligomers might undergo structural rearrangement into more stabilized oligomeric aggregates or (v) commit to extendible fibril nucleation. (vi) Short monolayer protofibrils elongate and (vii) fragment upon instability. (viii) Repeated growth and fragmentation generate short regular fragments which enable fibril thickening into varying layers and morphology, e.g., two-layer striated-ribbons or three-layer twisted morphology as illustrated, depending on physiological conditions. (ix) These structures continue to elongate with minor unit detachment, and branch out by secondary nucleation. (x) Sustained growth gives massive fibril meshes. https://www.jyi.org/2016-december/a-word-from-the-laureates monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487011969045-QKWVKDPUL15WO63LX5SF/image-asset.png 2016, December - A Word From the Laureates Figure 1. Aside from the usual phases, matter also assumes plasma at high temperatures and forms a condensate at low temperatures. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487012092065-T6UR2JMFLZPPRANL3TGB/image-asset.png 2016, December - A Word From the Laureates Fig. 2. In thin layers of cold material, vortex pairs form as topological defects in the film. At the temperature of the phase transition, these vortices drift away from each other in a topological phase transition, denoting a structurally different material. Due to these effects, two-dimensional materials could exhibit unexpected phenomena. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487012191007-2GDBG9JQXX5IQGQSJEL8/image-asset.png 2016, December - A Word From the Laureates Figure 3. Thors Hans Hansson of the Nobel Committee explains the intuition and importance of the honored discoveries using pastries. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487012236308-7BD8NNZ3UMX7M4EYUW8Y/image-asset.png 2016, December - A Word From the Laureates Figure 4. Topology is a branch of mathematics studying properties of structures that are preserved through deformations and stretching. Thouless used topological principles that describe step-wise changes to show why electrical conductivity in thin layers change the integer steps. https://www.jyi.org/2016-december/when-emotions-run-high-how-stereotypes-influence-affective-forecasting monthly 0.5 2017-05-19 https://www.jyi.org/2016-december/nanoscopic-designs-win-macroscopic-prize-chemistry-nobel-prize-2016 monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487010260922-D1NID9JPXRTBR44F3TCY/image-asset.png 2016, December - Nanoscopic Designs Win Macroscopic Prize: Chemistry Nobel Prize 2016 Figure 1. Rotaxane and multirotaxane molecular shuttles. https://www.jyi.org/2016-december/category/Features monthly 0.5 https://www.jyi.org/2016-december/category/Science+News monthly 0.5 https://www.jyi.org/2016-december/category/Research monthly 0.5 https://www.jyi.org/2016-november daily 0.75 2017-02-19 https://www.jyi.org/2016-november/2017/2/18/pulley-optimization-for-a-walking-engine-actuated-active-ankle-foot-orthosis monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487474046857-IKHDY6R67XCD416CIOM6/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 1: Passive vs. Active Ankle-Foot Orthosis. This figure shows a comparison of a passive (A) and active (B) AFO. Passive AFOs simply immobilize the ankle and foot while active AFOs assist the ankle and foot in replicating human gait (Blackwell, Lucas, & Clarke, 2014). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487474098496-KILB7RA5AV3M4C5ADU05/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 2: Walking-Engine-Actuated Active Ankle-Foot Orthosis. A conceptual schematic of a Walking Engine AAFO is presented. The AAFO is powered by an internal-combustion engine using two opposing (antagonistic), asymmetric, piston actuators to provide the required power for locomotion. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487474160138-V6NW7QBT9N4KT3WWU8CX/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 3: Walking Engine. This figure shows a CAD model of the modified Bosch pneumatic actuator used to power the AAFO. By adding a fuel line (needle valve) and ignition source (spark plug), an off-the-self pneumatic actuator was turned into a small IC engine. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487474142021-64473L590GWZIC4Y0ZKB/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 4: Dual-Combustion Engine Cycle. This figure shows the theoretical thermodynamic engine cycle (dual-combustion cycle) used to model the AAFO’s internal-combustion engine. A dual-combustion engine cycle is a combination of both the Otto and the Diesel engine cycle (Heywood, 1988). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487475843075-3SI28UTO308S3FTVP60O/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487475854153-N7OWYGNZ8ZJCFPSM17DI/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487475864181-TI5GN3QC1VVGHW28L603/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487476166852-B2C361IBI800OTVXN7SZ/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 5: AAFO Pulley System. The AAFO pulley system is represented. The primary actuator is responsible for the plantarflexion phase of the gait cycle, while the secondary actuator (pneumatic exhaust recovery system) is responsible for the dorsiflexion phase of the gait cycle. This dual pulley design allows for the pulley radii of both phases of the gait cycle to be fully optimized. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487476295627-5NFA25OX2F51U58NRPKE/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 6: Walking Engine Gas Power Cycle. This figure shows the calculated dual-combustion pressure-volume diagram used to model the AAFO’s IC engine. The work output of the engine was calculated to be ~30 joules of energy. This P-V diagram will be validated with experimental combustion testing data and altered to match actual engine performance if necessary. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487476332268-RVAVZBEXDQHAH7KI118Y/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Table 1. Walking Engine Gas Power Cycle. This table shows the volume, pressure, temperature, and number of moles at key points during the thermodynamic engine cycle of the “Walking Engine.” https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487476378396-YCXHVV5EG9U350L33NZ3/pully+optimization+fig+7.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 7: Ankle Moment. This figure shows the exact moment experience at the ankle during normal gait, obtained from David Winter’s Biomechanics and Motor Control of Human Movement, and the optimal moment experienced at the ankle during normal gait (Winter, 2009). The optimal moment is obtained by eliminating the sudden jumps and removing the negative moment values in the exact moment data. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487476408549-3RKO3SJ7OK31UZ1QCW8C/image-asset.png 2016, November - Pulley Optimization for a Walking-Engine-Actuated Active Ankle-Foot Orthosis Figure 8: Optimal Pulley Geometry. This figure shows the optimal pulley geometry as a function of time for the primary actuator of the AAFO. https://www.jyi.org/2016-november/2017/2/13/opportunity-for-pharmaceutical-intervention-in-lung-cancer-selective-inhibition-of-jak12-to-eliminate-emt-derived-mesenchymal-cells monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036441616-P1MPGLQJIWP5TE3I8E2V/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 1. EMT as a facilitator of the metastatic process. The progression from normal epithelium to invasive carcinoma occurs through several phases. As tumorigenesis transpires, epithelial cells rapidly begin to proliferate, forming a primary carcinoma in situ, which consists of epithelial cancer cells. As EMT occurs, these epithelial cancer cells shed their cell polarity and detach from the basement membrane, while transitioning into an invasive/migratory mesenchymal phenotype. EMT is complete upon the degradation of the basement membrane. Once EMT is complete, the mesenchymal cells migrate away from the primary tumor body and into the blood stream, allowing them to disseminate throughout the body and invade distant organ sites. Upon reaching a secondary site, the mesenchymal cells undergo MET, the reverse process of EMT, and revert to their original epithelial phenotype. Consequently, metastasis ensues and a second epithelial tumor is established (created by student researcher; adapted from Kalluri & Weinberg, 2009). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036509775-CMVFM97DKU3E3APJKJO6/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 2. Potential therapeutic strategies for targeting EMT-induced metastasis. These strategies consist of: (A) Inhibiting EMT-inducing signals from the tumor microenvironment, such as growth factors. (B) Blocking signal transduction pathways, such as MAPK, that relay EMT-initiating signals to the nucleus. (C) Targeting cells while in the mesenchymal state to prevent cell dissemination. (D) Blocking MET to prevent colonization at a distant tumor site (created by student researcher; adapted from Davis, Stewart, Thompson, & Monteith, 2014). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036611476-0ZBJ4C22OQOJIUQRLUZ0/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 3. Survival pathways in the mesenchymal state. Pathway identification was completed using a bioinformatics analysis of RNA sequence data. Complete pathway mapping was completed using information from the Kegg Pathway databases. Up-regulated proteins in the mesenchymal state are color-coded red. Down-regulated proteins in the mesenchymal state are color-coded green. Proteins which maintained stable expression are color-coded yellow. Cellular effects of the illustrated pathways are color-coded purple. Included in the map are the JAK-STAT pathway, on the top, the PI3K-AKT pathway, in the middle, and the MAPK pathway, on the bottom. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036696393-S328IMJ9RSMNN07EUGA0/Lung+Cancer+Fig+4.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 4. Nikon TS100 light microscopy of in vitro cell models. (A) TGFß- A549 cells (B) TGFß- HCC827 cells (C) TGFß- HCC4006 cells (D) TGFß+ A549 cells (E) TGFß+ HCC827 cells (F) TGFß+ HCC4006 cells. Based on a qualitative analysis of cell characteristics, it was determined that TGFß- cells in groups A, B, and C did not undergo EMT and remained in the epithelial state. Meanwhile, it was determined that TGFß+ cells in groups D, E, and F underwent EMT and are mesenchymal in nature. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036791374-52JILETHPYEK6OIGXZB9/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 5. Zeiss Immunofluorescent staining of TGFß- cells. (A) TGFß- A549 cells at 630x (B) TGFß- A549 cells at 200x (C) TGFß+ A549 cells at 200x. All cells were stained with E-cadherin antibody (red) and DAPI (blue). The expression of E-cadherin in images A and B demonstrate TGFß- cells are in the epithelial state. The lack of Vimentin expression in image C demonstrate TGFß+ cells are in the mesenchymal state. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036834849-SE7UU1MIVO5NHHUNTI8Y/Lung+Cancer+Fig+6.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 6. Zeiss Immunofluorescent staining of TGFß+ cells. (A) TGFß+ A549 cells at 630x (B) TGFß+ A549 cells at 200x (C) TGFß- A549 cells at 200x. All cells were stained with Vimentin antibody (red) and DAPI (blue). The expression of Vimentin in images A and B demonstrate that the TGFß+ cells are in the mesenchymal state. The lack of E-cadherin expression in image C demonstrate that the TGFß- cells are in the epithelial state. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487036802766-E4DJLTA9I3R404R65KNZ/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 7. Western Blotting of TGFß+ and TGFß- cells. Anti E-cadherin was used to determine the expression levels of E-cadherin. The TGFß- cells express a greater level of E-cadherin than the TGFß+ cells, demonstrating that the TGFß- cells are in the epithelial state, while the TGFß+ cells are in the mesenchymal state. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487037039508-EPFGSJ3LBDXX6V27CF9N/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 8. A549 Assay. (A) Inhibition activity of BAY 87-2243 (HIF1A) (B) Inhibition Activity of MK-2206 (AKT 1/2/3) (C) Inhibition activity of AZD1480 (Jak 1/2) (D) Inhibition activity of GDC-0994 (Erk 1/2). Each experiment was performed in triplicate (5x103 cells per well) over a 48-hour inhibition period. After 48 hours, cell death was quantified using MTT; absorbance was read at 590nm. Because the greatest percent decrease occurred between the DMSO mesenchymal population and the 5µM mesenchymal population, AZD1480 (Jak 1/2) was most effective in this trial. *: p<0.05, **: p<0.01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487037084036-80GA4C8R5UN7Y18V013M/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 9. HCC4006 Assay. (A) Inhibition activity of BAY 87-2243 (HIF1A) (B) Inhibition Activity of MK-2206 (AKT 1/2/3) (C) Inhibition activity of AZD1480 (Jak 1/2) (D) Inhibition activity of GDC-0994 (Erk 1/2). Each experiment was performed in triplicate (5x103 cells per well) over a 48-hour inhibition period. After 48 hours, cell death was quantified using MTT; absorbance was read at 590nm. Because it shows the greatest percent decrease between the DMSO mesenchymal population and the 5µM mesenchymal population, AZD1480 (Jak 1/2) was most effective in this trial. *: p<0.05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487037116611-0LBLEUDZPKJ8N65CSM2S/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 10. HCC827 Assay. (A) Inhibition activity of BAY 87-2243 (HIF1A) (B) Inhibition Activity of MK-2206 (AKT 1/2/3) (C) Inhibition activity of AZD1480 (Jak 1/2) (D) Inhibition activity of GDC-0994 (Erk 1/2). Each data set was performed in triplicate (5x103 cells per well) over a 48-hour inhibition period. After 48 hours, cell death was quantified using MTT; absorbance was read at 590nm. Because it shows the greatest percent decrease between the DMSO mesenchymal population and the 5µM mesenchymal population, AZD1480 (Jak 1/2) was most effective in this trial. *: p<0.05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487037189584-1FIYUQC4WLIRB0U8BA1M/image-asset.png 2016, November - Opportunity for Pharmaceutical Intervention in Lung Cancer: Selective Inhibition of JAK1/2 to Eliminate EMT-Derived Mesenchymal Cells Figure 11. Hypothesized Mechanism of AZD1480 Action in Eliminating EMT-Derived Mesenchymal Cells. By preventing the phosphorylation of STAT3, AZD1480 blocks the activation of EMT-initiating transcription factors which are necessary for cell survival. https://www.jyi.org/2016-november/2017/2/13/effects-of-high-fructoseglucose-on-nlrp3il1-inflammatory-pathway monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487035320905-GP3LA2OVIRFI1K1760W5/High-Fructose+Fig+1.png 2016, November - Effects of High Fructose/Glucose on Nlrp3/Il1β Inflammatory Pathway Figure 1. Diagram summarizing the NLRP3 inflammasome activation and IL-1β secretion. Signal 1 is the priming step, where inactive precursor, pro- IL-1β, is accumulated. Signal 2 involves the assembly of an inflammasome complex consisting of NLRP3, ASC and Caspase-1, which is responsible for cleavage of pro-IL-1β into the active form IL-1β, for further secretion by the cells. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487035333052-N6HB1YMG6X48Y9SMYUJR/image-asset.png 2016, November - Effects of High Fructose/Glucose on Nlrp3/Il1β Inflammatory Pathway Figure 2. Mitochondria-derived ROS. J774A1 cells were treated with increased concentrations, 25mM, 50mM and 100mM, of fructose or glucose for 24h, and then incubated for ten minutes with MitoSOX red. Images (Figure 2a) were taken using Olympus BX53 fluorescence microscope. Amount of mitochondrial ROS was indicated by intensity of red fluorescence. The numbers on the top right of each panel indicate the fluorescence intensity (arbitrary units) analyzed by ImageJ image analysis software. The bar chart below (Figure 2b) depicts the fluorescence intensities as shown in the panels. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487035341636-NLIVDFTVX078RJHSGI82/image-asset.png 2016, November - Effects of High Fructose/Glucose on Nlrp3/Il1β Inflammatory Pathway Figure 3: Mitochondrial permeability. J774A1 cells were treated with increased concentrations, 25mM, 50mM and 100mM, of fructose or glucose for 24h, and then incubated with JC-1 dye for 15 minutes. The pictures (Figure 3a) of live cells were taken using the Olympus BX53 fluorescence microscope at 540/570 nm (red) for healthy cells and 485/535 nm (green) for unhealthy cells. An increase in red/green fluorescence intensity indicates healthy or hyperpolarized mitochondria, illustrated on the graph on the bottom (Figure 3b). The red/green ratio was calculated using integrated intensity of red and green channels measured by ImageJ software. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487035352151-032E6NUO2I4EQ9HIRGH8/image-asset.png 2016, November - Effects of High Fructose/Glucose on Nlrp3/Il1β Inflammatory Pathway Figure 4: Antioxidant enzymes. J774A1 cells were treated with fructose or glucose at 25mM, 50mM and 100mM for 24h after which they were lysed using lysis buffer. Total amount of antioxidant enzymes, catalase (60KDa), peroxiredoxin 1 (PRX1, 23KDa), the oxidized from of peroxiredoxins (PRXSO3) ranging from 27-20KDa and superoxide dismutase 1 (SOD1, 14KDa), were analyzed by western blotting. β-actin (50KDa) was used as loading control for total protein content. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487035359097-IQOXWM45MGNX92DKB3LP/image-asset.png 2016, November - Effects of High Fructose/Glucose on Nlrp3/Il1β Inflammatory Pathway Figure 5: NLRP3 inflammasome complex proteins. J774A1 cells were treated with fructose or glucose at 25mM, 50mM and 100mM for 24h after which they were lysed using lysis buffer. Total amount of intracellular components of the NLRP3 inflammasome complex proteins, NLRP3 (115KDa), caspase 1 (50KDa) and pro-1L-1β (37KDa) were detected by western blotting. β- actin (50KDa) was used as loading control for total protein content. https://www.jyi.org/2016-november/2017/2/13/communicating-discoveries-the-career-of-science-journalism monthly 0.5 2017-06-01 https://www.jyi.org/2016-november/2017/2/13/interview-with-dr-nancy-galambos-a-developmental-psychologist monthly 0.5 2017-05-25 https://www.jyi.org/2016-november/2017/2/13/n137gmzzvg164e9h9fekumj1l5wa52 monthly 0.5 2017-06-01 https://www.jyi.org/2016-november/2017/2/13/mitochondrial-mishaps-linked-to-parkinsons monthly 0.5 2017-06-01 https://www.jyi.org/2016-november/2017/2/13/zmapp-trial-gives-hope-for-ebola-treatment-and-emergency-response monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487033751181-ZKUO8B8RAF8K4W7SL2WN/Ebola+Science+News+Fig+1.png 2016, November - ZMapp Trial Gives Hope for Ebola Treatment and Emergency Response A model of the Ebola Virus with the embedded glycoproteins that are targeted by ZMapp https://www.jyi.org/2016-november/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-november/category/Features monthly 0.5 https://www.jyi.org/2016-november/category/Science+News monthly 0.5 https://www.jyi.org/2016-november/category/Research monthly 0.5 https://www.jyi.org/2016-november/category/Interview monthly 0.5 https://www.jyi.org/2016-october daily 0.75 2017-02-17 https://www.jyi.org/2016-october/2017/2/17/total-electron-content-tec-variations-and-correlation-with-seismic-activity-over-japan monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487374200754-J9GXI1RRX82IARDLRNV8/image-asset.png 2016, October - Total Electron Content (TEC) Variations and Correlation with Seismic Activity over Japan https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487374210459-3Z3IB00YMLUWUB0WN60U/image-asset.png 2016, October - Total Electron Content (TEC) Variations and Correlation with Seismic Activity over Japan https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487374218557-NI61FSS6N4YJNSDN4JTO/image-asset.jpeg 2016, October - Total Electron Content (TEC) Variations and Correlation with Seismic Activity over Japan Figure 1. Images of heat maps of TEC over the 100 closest receivers to the epicenter of the earthquake on the day of the earthquake (March 11, 2011) for four different time points. These times show enhanced TEC (A), a sudden depletion (B), and the large fluctuations following (C and D) The X- and Y-axes represents the longitude and latitude, respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487374468293-Q3OC2J5EKN5DS68W6DJB/image-asset.jpeg 2016, October - Total Electron Content (TEC) Variations and Correlation with Seismic Activity over Japan Figure 2. Images of simulations of TEC over the 100 closest receivers to the epicenter of the earthquake a month before the earthquake (February 11, 2011) for four different time points. These points are from the same times of day as the enhancement (A), depletion (B), and fluctuations (C and D). The X- and Y-axes represents the longitude and latitude, respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487374505049-FFFSXJ6X82C9FAUPQQLV/image-asset.jpeg 2016, October - Total Electron Content (TEC) Variations and Correlation with Seismic Activity over Japan Figure 3. Histograms of potential confounding parameters of TEC. A) Sunspot, B) 10.7 cm solar flux and C) kp, analyzed over a one-month period (March 2 – April 1, 2011) around the earthquake. Yellow highlight indicates the day of the earthquake. https://www.jyi.org/2016-october/2017/2/17/chemical-reduction-and-deposition-of-nanostructured-ptau-alloy monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487371854855-OY3HPET34YUO0KB2HXKA/chemical+reduction+fig+1.png 2016, October - Chemical Reduction and Deposition of Nanostructured Pt–Au Alloy Figure 1. SEM images of Pt–Au NMA products in varying ratios. (a) 1:1 (b) 1:2 and (c) 1:3. SE2 represents the signal making up of secondary electrons generated from backscattered electrons. EHT (extra high tension) voltage; WD and Mag; working distance and magnification respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487371862645-UK26LXLBM586CF4QGXC1/image-asset.jpeg 2016, October - Chemical Reduction and Deposition of Nanostructured Pt–Au Alloy Figure 2. XPS spectra of NMA of various Pt:Au mass loading ratios. The spectra is plotted with the signal intensity in arbitrary units (A.U.) and binding energy in eV. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487371963588-SG0AAC1BIDKYIBNJ7EEB/image-asset.jpeg 2016, October - Chemical Reduction and Deposition of Nanostructured Pt–Au Alloy Figure 3. 15th cyclic voltammogram of (a) control Pt and Pt–Au NMA products with ratios (b) 1:1, (c) 1:2 and (d) 1:3. The voltage is measured against the saturated calomel electrode (SCE). The positions of If and Ib peaks are indicated. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487372189412-YGPWEHO4QJK1MVCMHBY4/image-asset.png 2016, October - Chemical Reduction and Deposition of Nanostructured Pt–Au Alloy Table 1. If/Ib ratios for control Pt and NMA of various Pt:Au mass loading ratios. https://www.jyi.org/2016-october/2017/2/17/probability-current-and-a-simulation-of-particle-separation monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367478676-5I3DN29N7JF1CFTZZCT3/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487366740496-EHVQUWDOVQ088NJZI0VG/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487366750669-0I1XHBK67FLRVX5I35PI/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367486936-IDVY00AB32Y35G0N46Y0/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487366756774-96ZS6B7Z5PK5UD4CDHQ4/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367494571-NLUVWXZGDSYLGVAS2957/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487366764622-AYPAAO1PQU9BUC5FZKBM/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367503008-SLCU1ZK5HGP62LI1TO6L/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487366770448-XH2BHUTMQ6VO6HJ5CJKN/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367132591-MEXW0TNVNUTSV1935C0P/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367510805-NAVM8NM5J7CVW1WNDDA6/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367330910-QWMRGPZY3HEZ3P2IW4SL/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367518860-HVOO3GU076Z4N8BVTS0S/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487367139214-3IB4WKOXM06K7LLA71ND/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369277465-2G6HNGVYQIF434D5ZBKI/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369175754-HBW5O5RB58JEPVMKANLY/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 1. Nodal lines and probability current for [Eq. (9)]. Nodal lines and a part of the probability current for the state in [Eq. (9)]. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369182812-AYCS7OPBP409Y7HLVSCN/probability+current+fig+2.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 2. Nodal surfaces and probability current for [Eq. (9)]. (A) Nodal surfaces for the state in [Eq. (9)] with Neumann boundary condition are shown. The horizontal plane is for the real part and the vertical are for the imaginary. (B-D) Probability current viewed from three different directions where the x-, y-, and z-axes show the special dimensions of the box. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369361624-3BPKUQE6JX3SXMJXGBWF/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369189664-4VVC5QFJ3BORKBNQCG6H/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 3. Nodal surfaces and probability current for [Eq. (10)]. (A) Nodal surfaces for the state in [Eq. (10)] with Dirichlet boundary condition. (B-D) Obtained probability current is viewed from three different directions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369511828-MULW3B9PKU4KTG9PL65B/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369590620-B01XUCHROBV8L8BPTEMD/probability+current+fig+4.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 4. Nodal surfaces and probability current for [Eq. (11)]. (A) Nodal surfaces for the state in [Eq. (11)] with Dirichlet boundary condition are displayed. (B-D) Obtained probability current is viewed from three different directions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369517403-EOQBOU8UPQMDLUKI1Z2P/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369549369-7U6TZ6AKEH3ST7QZOMBD/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487369556709-6A7A3W7YMQ0DQN7DCRWK/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487370061434-UCBAI8CYCR7YZTXL01AI/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 5. Different examples of nodal surfaces. Nodal surfaces for the states in (A) Equation (12), (B) Equation (13) and (C) Equation (14) are shown. For this simple case with only two terms in the Fourier series, the higher excitation in a direction is observed as more sheets in that direction. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487370100244-MEDN7TYO1O7FHXAWQ0VQ/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487370270127-DPBEI28XDKII0JXCYZE0/probability+current+fig+6.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 6. Simulated and 3D printed complex nodal surfaces. Nodal surfaces for the state in [Eq. (15)] are shown. (A) is the real part and (B) is the imaginary part. (C-D) 3D-printed versions of the same surfaces are displayed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487370107979-L61JSY2R7YKP51DE3GJ1/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487370401656-KWXDO55YFY6E5GUAB9PL/image-asset.png 2016, October - Probability Current and a Simulation of Particle Separation Figure 7. Simulation of particle sorting. (A) Current used in the simulation of particle separation is shown. This current corresponds to the state in [Eq. (16)]. (B) Simulation of particles with mass ratio 1:10 demonstrates that particles begin at the same point but end up at different points. https://www.jyi.org/2016-october/2017/2/17/interview-with-a-developmental-biologist-dr-jean-lon-matre monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487366171624-WC0R4I6PYNDC28DRIDQK/image-asset.jpeg 2016, October - Interview with a Developmental Biologist: Dr Jean-Léon Maître Figure 1: Credits to Uriel Chantraine/Institut Curie. https://www.jyi.org/2016-october/2017/2/17/the-quest-for-smarter-dust monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487365841777-3ZGI5D1P3Y2ZJGUNNAAO/image-asset.jpeg 2016, October - The Quest for Smarter Dust Fig. 1. Design of the BrainGate Interface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487365847608-I4UYPU2OLMD1HZN8ISPS/Smarter+Dust+Fig+2.jpg 2016, October - The Quest for Smarter Dust Fig. 2. Diagram showing the design and placement of the system. The interrogator is implanted immediately below the dura mater with the neural dust scattered through the cortex. An external transceiver is used to charge and operate the system. https://www.jyi.org/2016-october/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-october/category/Science+News monthly 0.5 https://www.jyi.org/2016-october/category/Research monthly 0.5 https://www.jyi.org/2016-october/category/Interview monthly 0.5 https://www.jyi.org/2016-september daily 0.75 2017-12-26 https://www.jyi.org/2016-september/2016/9/1/aire-deficiency-exposes-inefficiencies-of-peripheral-tolerance-leading-to-variable-apeced-phenotypes monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1514302948088-MHHO6OBOH0YTWDWW5HOJ/image-asset.png 2016, September - AIRE Deficiency Exposes Inefficiencies of Peripheral Tolerance Leading to Variable APECED Phenotypes Figure 1. The relationship between central and peripheral tolerance determines the profile of autoreactive T cells in the periphery. Positive selection expands T cell clones that garner a signal from MHC/self-peptide complexes. Negative selection filters out autoreactive T cell clones that bind with high affinity to MHC/tissue-specific antigen complexes. Inability to perform negative selection permits autoreactive T cell clones into the periphery. Peripheral tolerance suppresses a limited number of autoreactive T cell responses and, in cases of APECED, dictates the specific autoimmune symptoms of the patient. https://www.jyi.org/2016-september/2017/2/18/exploring-carry-over-effects-to-elucidate-attention-bias-modifications-mixed-results monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487469913617-C2IIVFBN6JXVYJH5O7UL/image-asset.png 2016, September - Exploring Carry-Over Effects to Elucidate Attention Bias Modification’s Mixed Results Fig. 1 ABM training and assessment images. An illustration of the ABM procedures, demonstrating an example of a threat to positive (incongruent) trial sequence (two trials) starting with screen 1 and ending with screen 6. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487469921661-9FH9K4GFRZZX3AVNP0GR/image-asset.png 2016, September - Exploring Carry-Over Effects to Elucidate Attention Bias Modification’s Mixed Results Table 1. Group Demographics. Mean demographics and standard deviations (in parentheses) at the baseline assessment time point. A score of >38 on the SIAS and >55 on the LSAS indicate clinically significant SAD. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487469928333-UGOWIR7RRMSBKU9L5D0C/image-asset.png 2016, September - Exploring Carry-Over Effects to Elucidate Attention Bias Modification’s Mixed Results Table 2. ABM Attention Bias Scores. Pre- and Post- ABM attention bias scores and standard deviations (in parentheses) for all groups and conditions are shown. Mean biases are in milliseconds and a negative bias indicates a bias towards threat. https://www.jyi.org/2016-september/2017/2/18/mutational-analysis-of-transcriptional-initiation-in-bacteria monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487468941790-Y4BEGSH0MT9XN80LGAOX/image-asset.jpeg 2016, September - Mutational Analysis of Transcriptional Initiation in Bacteria Figure 1. Initiation of bacterial transcription. The promoter shown is Ptac. The arrow indicates mutation of each of the six bases (shown as Ns) in the Ptac -35 region, producing a library of 4,096 sequence variants. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487468856325-8Y1KYVC4PFLPT7BQBFXC/image-asset.jpeg 2016, September - Mutational Analysis of Transcriptional Initiation in Bacteria Figure 2. Cloning mutant promoters with pClone Red. Mutant promoters in the form ofannealed promoter oligonucleotides can be cloned into pClone Red with Golden Gate Assembly (GGA) using BsaI and DNA ligase.In the resulting GGA products, the strength of the mutant promoters canbe measured by RFP production. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487468774945-KAQL9NNA7HQZMI9MMU5N/image-asset.jpeg 2016, September - Mutational Analysis of Transcriptional Initiation in Bacteria Figure 3. Library of mutant promoters. The -35 region of the Ptac promoter (TTGACA) was replaced with the sequence NNNNNN(N=A,T,C,G) to produce a library of 4,096 mutant promoters in pClone Red. Green colonies indicate failed GGA. Non-green colonies have variable RFP levels as determined by promoter strength. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487469289959-Q40KYKWWQQK2024Y2QNE/mutation+fig+4.jpg 2016, September - Mutational Analysis of Transcriptional Initiation in Bacteria Figure 4. Collection of 81 mutant promoters. Eighty-one mutant promoter clones were selected from the pClone Red library. For each mutant promoter clone, the sequence of the -35 region is listed, along with its strength, expressed as the ratio of RFP expression compared toPtac. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487468572757-RRBO9NXPHI9UJJ2OXN5D/image-asset.jpeg 2016, September - Mutational Analysis of Transcriptional Initiation in Bacteria Figure 5. Consensus sequences of the -35 region. (A) Published -35 consensus based on 263 naturally occurring E. coli promoters (Harley & Reynolds, 1987); (B) Preliminary pClone -35 consensus was determined from the the top 12 mutant promoters with >50% efficiency compared to Ptac; (C) pClone -35 consensus was determined from sequences found in all 81 selected promoters. using a weighted consensus method. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487469216718-IWQSFR4L2O4KN697BKK9/mutation+fig+6.jpg 2016, September - Mutational Analysis of Transcriptional Initiation in Bacteria Figure 6. Promoter strengths of pClone -35 consensus variants in three sequence contexts. The pClone Red clones shown are the original Ptac -35 region sequence (TTGACA) plus four variants of the pClone -35 Consensus (G A AA) in the three contexts of Ptac, Psimp1, and Psimp2. The pictures were taken on a UV box to shown RFP expression. The numbers below each picture are the promoter strengths, expressed as the ratio of RFP expression compared to Ptac. https://www.jyi.org/2016-september/2017/2/18/interview-with-a-lab-manager-micah-simmons-uab-school-of-medicine monthly 0.5 2017-06-01 https://www.jyi.org/2016-september/2017/2/17/dieticians-and-nutrition-are-you-what-you-eat monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487467523505-XF8K9FZUIPSNYUMDU5KO/image-asset.jpeg 2016, September - Dieticians and Nutrition: Are you what you eat? Photo courtesy of Flickr Creative Commons https://www.jyi.org/2016-september/2017/2/17/organs-without-a-home-the-fascinating-world-of-3-d-bioprinting monthly 0.5 2017-06-01 https://www.jyi.org/2016-september/2017/2/17/how-prenatal-exposure-to-marijuana-affects-executive-functioning-in-young-adults monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487375612511-OQGKVAUPD6DQ4JSUA2Z8/image-asset.jpeg 2016, September - How Prenatal Exposure to Marijuana Affects Executive Functioning in Young Adults https://www.jyi.org/2016-september/2017/2/17/if-you-give-a-mouse-a-movie monthly 0.5 2017-06-01 https://www.jyi.org/2016-september/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-september/category/Features monthly 0.5 https://www.jyi.org/2016-september/category/Science+News monthly 0.5 https://www.jyi.org/2016-september/category/Research monthly 0.5 https://www.jyi.org/2016-september/category/Interview monthly 0.5 https://www.jyi.org/2016-august daily 0.75 2017-02-19 https://www.jyi.org/2016-august/2017/2/18/mystery-of-the-kelmans-seymour-conjecture-solved-after-40-years monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487480016870-KYEVKPI9K4WMIP6OU39E/image-asset.png 2016, August - Mystery of the Kelmans-Seymour Conjecture Solved After 40 Years https://www.jyi.org/2016-august/2017/2/18/feeding-your-gut-bacteria-may-be-the-next-step-to-curbing-your-appetite monthly 0.5 2017-06-01 https://www.jyi.org/2016-august/2017/2/18/cognitive-behavioral-therapy-to-the-rescue monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487477639606-HUPZVBS6Y6537VVJPJKR/image-asset.png 2016, August - Cognitive Behavioral Therapy to the Rescue! https://www.jyi.org/2016-august/2017/2/18/can-your-values-motivate-you monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1487477425943-0WRB4B683IM3LLVLF3C5/image-asset.png 2016, August - Can Your Values Motivate You? https://www.jyi.org/2016-august/category/Science+News monthly 0.5 https://www.jyi.org/2016-july daily 0.75 2017-02-27 https://www.jyi.org/2016-july/2017/2/26/a-career-in-counselling-psychology monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488156814152-9X02J7PW92M46423QSNH/image-asset.png 2016, July - A Career in Counselling Psychology https://www.jyi.org/2016-july/2017/2/26/novel-genetic-mechanism-for-parkinsons-disease-discovered monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488155653363-4Q646O4JBSKVSX8BGYRL/image-asset.png 2016, July - Novel Genetic Mechanism for Parkinson's Disease Discovered Parkinson’s disease is characterized by neuron death. (Photo courtesy of Taylor Maley through Flickr Creative Commons) https://www.jyi.org/2016-july/2017/2/26/a-web-of-a-response-spiders-toxins-used-to-elucidate-pain monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488155133590-5UYMY2R9T3MD4WCG1CDI/image-asset.png 2016, July - A Web of a Response: Spiders toxins used to elucidate pain Figure 1: H. maculata, the toxin-bearing tarantula https://www.jyi.org/2016-july/category/Science+News monthly 0.5 https://www.jyi.org/2016-july/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-june daily 0.75 2017-02-27 https://www.jyi.org/2016-june/2017/2/26/a-meta-analysis-of-the-effectiveness-of-trauma-focused-cognitive-behavioral-therapy-and-play-therapy-for-child-victims-of-abuse monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488166143710-VP80ZMUCXJ60IF41Z1I2/image-asset.png 2016, June - A Meta-Analysis of the Effectiveness of Trauma-Focused Cognitive-Behavioral Therapy and Play Therapy for Child Victims of Abuse Table 1: Articles Used in Meta-Analyses and Study. PT is coded as 0 and TF-CBT is coded as 1. All articles that met inclusion criteria were included in the meta-analysis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488166149705-A1X8OEKKS5TN205ESULA/image-asset.png 2016, June - A Meta-Analysis of the Effectiveness of Trauma-Focused Cognitive-Behavioral Therapy and Play Therapy for Child Victims of Abuse Table 2: Effect Sizes Included in this Meta-Analysis. Internalizing measures gain insight into what was going on internally with the clients. External measures give insight into external behaviors. Sexual measures give insight into any sexual dysfunction or sexual activities that are age inappropriate. Parent reports are measures given to parents to understand what they are seeing with their child. Average effect size was found through meta-analytic techniques. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488166155125-095WSX2N6SSIGDDB5D7L/image-asset.png 2016, June - A Meta-Analysis of the Effectiveness of Trauma-Focused Cognitive-Behavioral Therapy and Play Therapy for Child Victims of Abuse Table 3: Mean Effect Sizes of the Impact of Cognitive Behavioral Therapy (CBT) and Play Therapy (PT). Effect sizes that are statistically significant (p < .05) are in bold. All of the statistically significant effect sizes indicate positive results for those measures. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488166597182-F3IUXC1A7PIY2RGWW1ZU/image-asset.png 2016, June - A Meta-Analysis of the Effectiveness of Trauma-Focused Cognitive-Behavioral Therapy and Play Therapy for Child Victims of Abuse Figure 1. Effect sizes and 95% CI’s for play therapy, all outcomes. All of the effect sizes are homogeneous indicating that the effect sizes were statistically comparable. Horizontal line represents mean effect size (d = 0.095). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488166603394-ALWRZ8PXNPA13XSQYU9T/image-asset.png 2016, June - A Meta-Analysis of the Effectiveness of Trauma-Focused Cognitive-Behavioral Therapy and Play Therapy for Child Victims of Abuse Figure 2. Effect sizes and 95% CI’s for trauma focused cognitive-behavior therapy, all outcomes. All of the effect sizes are homogeneous indicating that the effect sizes were statistically comparable. Horizontal line represents mean effect size (d = 0.212). https://www.jyi.org/2016-june/2017/2/26/neural-implant-restores-motor-function-in-quadriplegia monthly 0.5 2017-06-01 https://www.jyi.org/2016-june/2017/2/26/making-makeup-a-career-in-cosmetic-chemistry monthly 0.5 2017-07-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488165863704-H1BQ5ZYK7OHO380YP4WT/image-asset.png 2016, June - Making Makeup: A career in cosmetic chemistry https://www.jyi.org/2016-june/2017/2/26/molecular-self-assembly-of-tellurazole-oxides monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488164662997-2AQZGRZ8R1G28FC2BJ54/image-asset.png 2016, June - Molecular Self-Assembly of Tellurazole Oxides A micrograph of the crystal of a tellurazole oxide developed at McMaster University. Credit: Vargas Laboratory, McMaster University https://www.jyi.org/2016-june/2017/2/26/is-regeneration-a-future-reality-signaling-molecules-in-mexican-salamanders-may-hold-the-key monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488163522604-HQ1N7POASNSR4SPOBT1U/image-asset.png 2016, June - Is Regeneration a Future Reality? Signaling molecules in Mexican Salamanders may hold the key An Axolotl with its characteristic infant-like appearance https://www.jyi.org/2016-june/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-june/category/Features monthly 0.5 https://www.jyi.org/2016-june/category/Science+News monthly 0.5 https://www.jyi.org/2016-june/category/Research monthly 0.5 https://www.jyi.org/2016-may daily 0.75 2017-03-13 https://www.jyi.org/2016-may/2017/2/27/bohr-revisited-model-and-spectral-lines-of-helium monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488250820669-XFYM25YKNQ9KNKYM25K1/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488250905566-O52UYEVT2OAEA0UC7HOT/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251021429-X67VICTNCKIZI69JBTI0/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251029450-YTKLYY11CTXHO60JXDJ7/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251246672-ISD6M464YFLLH8J1LYWN/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251411239-6L4SHG96H3ZQBO690TGO/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251416370-8XS2HJ38G497OQA2ULGD/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251816348-JQ3DQX9FJHG2OVQD6XL4/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251871006-4MHRIZDSW9YV94C5CC75/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488251941658-CYSE4DF5JXYQ1Z2MWMF7/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488252048408-81WBIETM3ZRL6D9QHEPQ/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488252305164-L5TF38QQOK39NFGSP1A2/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488252274264-PY8JRXQ864B00JI689R0/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488252611079-YAYGQZJ2JB5TVBMVADZT/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488252963501-77KQ7YINKH6DZQPC939I/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488253098469-Y2TW5D9W3F1KKO1DVBFQ/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488253158040-BH7CT5XNIG97XHCEXWCW/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488253417825-ROS8JTV534RE30GN1RH3/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488253502361-JVJMBN9AEN4M62NE2LF9/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488253554806-BUCZHNF13BSQW63EULTD/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341050467-D3FOVNXAV7ERC00MCCI9/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341153336-1M0720M5EZI8NZXSSYM8/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341248843-12SU1CFTJT4D3BQS5IBE/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341677316-4OA4B60TIJBAW1QU7S2E/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341765759-VB6BDYKZCWSYIYIW6HFV/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341872366-GS7EKGO88ACBVSDSGNSM/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488341915805-N5EBZ6T2YJUQKM1J73GT/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488342216920-U7T38VIGOZEW41PIGU6C/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488342513486-MMAOVMRZ4KO8MAF0DD6T/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium Table 1: Spectral Series of Visible Light. [Eq. (10)] is used to calculate a series of spectral lines in the visible spectrum that ends on the orbital n1=5 with percent errors calculated respectively (Richard & Peter, 2000). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488342520541-NUSXLVHOEYTOC7AQ6B15/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium Figure 1: Experimental Constant Adjustment. The adjusted Rydberg-like constant is calculated (63849000 m-1) using the least square method and plotted graphically with experimental data (Richard & Peter, 2000). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488342528005-3FDKUIYBZHRZCHJ0BDVA/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium Table 2: Modified Spectral Series in Visible light. Using the adjusted constant, the series is recalculated and compared to the experimental data again (Richard & Peter, 2000). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1488342538552-ZQGE7GR58EZHDS51A5FZ/image-asset.png 2016, May - Bohr Revisited: Model and Spectral Lines of Helium Table 3: Helium Ionization Energies. The predicted values of ionization energies, from [Eq. (11)], [Eq. (3)], and [Eq. (10)] respectively, are compared to the experimental results, yielding percent errors (Charlotte E. M., 1949). https://www.jyi.org/2016-may/2017/2/27/from-graduate-school-to-patent-law monthly 0.5 2017-06-01 https://www.jyi.org/2016-may/2017/2/26/optogenetics-as-a-possible-cancer-treatment-technique monthly 0.5 2017-06-01 https://www.jyi.org/2016-may/2017/2/26/doyiq394cw3xy0s4a4didwyr2b4xjx monthly 0.5 2017-06-01 https://www.jyi.org/2016-may/2017/2/26/a-revised-tree-of-life monthly 0.5 2017-06-01 https://www.jyi.org/2016-may/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-may/category/Features monthly 0.5 https://www.jyi.org/2016-may/category/Science+News monthly 0.5 https://www.jyi.org/2016-may/category/Research monthly 0.5 https://www.jyi.org/2016-april daily 0.75 2017-03-13 https://www.jyi.org/2016-april/2017/3/12/gene-therapy-a-toolkit-for-targeting-cancer monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489377339463-W1R1YDAEAQ47AET61UCC/image-asset.png 2016, April - Gene Therapy: A Toolkit for Targeting Cancer Figure 1. Strategies for delivering therapeutic genes to target areas. Systemic delivery systems include viral vectors, liposomes, and hydrogels, all of which are able to selectively target malignant tissues without harming healthy cells. These delivery systems travel throughout the body and can therefore kill small metastases as well as the primary tumour. Local delivery systems include tissue particle bombardment and electroporation, which may have less severe side effects than systemic delivery systems but cannot target smaller tumours. Cell-based systems confer long-lasting genetic changes which can protect healthy tissues from the harmful effects of chemotherapy and radiotherapy. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489377440180-R8WUOBZZ03HPTTP6USLA/image-asset.png 2016, April - Gene Therapy: A Toolkit for Targeting Cancer Figure 2. Methods of selectively killing cancer cells. Cancer-causing mutations can be broadly grouped into two categories: mutations in oncogenes and mutations in tumour suppressors. Malignant cells with active oncogenes can be targeted by using viral vectors deliver CRISPR/Cas9, TALENs or ZFNs, which then excise or silence the relevant oncogenes. Viral vectors can also be used to deliver tumour suppressor genes such as p53 which are harmless to healthy cells but toxic to cancer cells. Liposomes can deliver toxic genes directly to cancer cells through the use of remote-triggering systems; similarly, hydrogels can provide a controlled release of therapeutic genes once inside malignant tissues. https://www.jyi.org/2016-april/2017/3/12/got-ink-an-analysis-of-personality-traits-between-tattooed-and-non-tattooed-individuals monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489375549524-SB29C4SYUKBLVHXJ0056/image-asset.png 2016, April - Got Ink? An Analysis of Personality Traits between Tattooed and Non-Tattooed Individuals Figure 1. Results for the extraversion, conscientiousness, and neuroticism dimensions of the Big Five personality survey between tattooed and non-tattooed individuals. This figure shows significant results in the extraversion dimension, and no significant results in the conscientiousness and neuroticism dimensions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489375557764-ZR2NWLD7LC14CHERQY4S/image-asset.png 2016, April - Got Ink? An Analysis of Personality Traits between Tattooed and Non-Tattooed Individuals Table 1. Demographic information collected. Participants were current students or alumni from 54 universities of various sizes in both rural and urban locations throughout the United States. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489375710391-7OA2URKJJKNK0CI6MSTJ/image-asset.png 2016, April - Got Ink? An Analysis of Personality Traits between Tattooed and Non-Tattooed Individuals Table 2. Differences between tattooed and non-tattooed participants in the Big Five personality dimensions of extraversion, conscientiousness, and neuroticism. Tested using two-tailed independent sample t-tests, df = 530. *indicates statistical significance. https://www.jyi.org/2016-april/2017/3/12/a-comparative-study-of-herpetofauna-in-a-primary-forest-and-reforested-area-in-coastal-ecuador monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489374470866-85D58UPNP01YENYZBPCV/Herpetofauna+fig+1.png 2016, April - A Comparative Study of Herpetofauna in a Primary Forest and Reforested Area in Coastal Ecuador Figure 1. Three 200 m transects through the Primary forest of Montanita trail in the Jama-Coaque Ecological Reserve. One through the river (#7), one on the southern portion of the trail, (#8) and one on the northern portion of the trail (#9). All transects are illustrated in red, while theriver is illustrated in blue, and the pre-existing Montanita trail in black. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489374477144-9UOE23IRYFRAOX9G488F/image-asset.png 2016, April - A Comparative Study of Herpetofauna in a Primary Forest and Reforested Area in Coastal Ecuador Figure 2. Three parallel 200 m transects through the reforested area near the Jama-Coaque Ecological Reserve. One through the creek (#2), one north of the creek (#3), and one south of the creek (#1).All transects are approximately equidistant from each other and are illustrated in red, while the creek is illustrated in blue, and the plot border in black. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489374586455-6HONKYUBMKX4CEVM9JHS/Herpetofauna+table+1.png 2016, April - A Comparative Study of Herpetofauna in a Primary Forest and Reforested Area in Coastal Ecuador Table 1. The species composition of reptiles and amphibians detected during Visual Encounter surveys for a forested and reforested area in and near the Jama-Coaque Ecological Reserve. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489374858851-NBGVC60EJAV6R7U7HA0F/image-asset.jpeg 2016, April - A Comparative Study of Herpetofauna in a Primary Forest and Reforested Area in Coastal Ecuador Figure 3. The species composition for the reptiles and amphibians detected in a section of primary forest in the Jama-Coaque Ecological Reserve in coastal Ecuador. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489374864027-9PUQHAU596E9RUKXV9EE/image-asset.jpeg 2016, April - A Comparative Study of Herpetofauna in a Primary Forest and Reforested Area in Coastal Ecuador Figure 4. The species composition for the reptiles and amphibians detected in a reforested area near the Jama-Coaque Ecological Reserve in coastal Ecuador. https://www.jyi.org/2016-april/category/Research monthly 0.5 https://www.jyi.org/2016-march daily 0.75 2017-03-13 https://www.jyi.org/2016-march/2017/3/13/interval-estimation-of-glomerulus-filtration-rate-from-iohexol-clearance monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489379373362-SVTXUDGEWNPI2BRR9A0P/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489379389109-0AFFM0ZO1GPJ3CVC9ZSC/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489379402007-SBJSE3JNV6SL1RE8MYEF/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489379431878-J6FT4MNAQNI0SDT7KY0P/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380000688-ZTLGSHY25HIU9KIIB850/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489379983637-I0DPJ1NDI9ZCZVEH98GX/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380086294-TRBVP78Q5D5XPBZTO65D/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380372117-IVV6LHDQ6GWF608SO3EY/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380757841-73PN94PT635O4EEHNUGN/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380787240-EB4MBT7I3QMBD9WSO854/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380801856-681DIDR7J8CTM53GCDQA/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489380846050-W9ZAVI4BVD5U539YQN9U/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381108206-UEZZU28SNG9ZOWMV06I4/interval+estimation+equation+5.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381129032-HJUAB855YOWXJ5SY1A73/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381156426-V69F7EQZRBUOG2JPJYFD/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381303084-BL68ZQVBQZ2B2544T859/image-asset.jpeg 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Figure 1. Observed iohexol log-concentration versus time curve for Dog 18, together with estimated simple linear regression line (solid) and 95% CI (dashed). Using the single compartment model, the estimated AUC=126 (Equation (2)), estimated GFRS=2.15 (Equation (4)), standard error of GFRS=0.11 (Equation (5)), and the 95% CI is (0.51, 0.75) (Equation (10)). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381321172-G6B4ED0FEWBYJVIJI37G/image-asset.jpeg 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Figure 2. Observed iohexol log-concentration versus time curve for Dog 1, together with estimated simple linear regression line (solid) and 95% CI (dashed). The intercept of the fitted line is 0.39, slope=-0.003, and the R2 for the model was 93.3%. Using the single compartment model, the estimated AUC=425 (Equation (2)), estimated GFRS=0.63 (Equation (4)), standard error of GFRS=0.05 (Equation (5)), and the 95% CI is (0.51, 0.75) (Equation (10)). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381347305-KYOXPXBZTMTAWAZZS0KM/image-asset.jpeg 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Figure 3. Observed iohexol concentration versus time curve for Dog 18. Using the non-compartmental compartment model, AUCpre=8.84 (Equation (6)), AUCobs=115 (Equation (5)), the slope of the regression line of tail=-0.009, the R2 for the model is 100%, from a single compartment model of the tail AUCpost=3.93 (Equation (7)), the total AUC=127, estimated GFRN=2.140 (Equation (8)), the standard error of GFRN=0.0008 (Equation (9)), and the 95% CI is (2.13, 2.15) (Equation (10)). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381368485-5RP4CJ1UVWJBFKTREU3Y/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Table 1. Estimated GFR using the single compartment method (GFRS Equation (4), SE(GFRS) Equation (5) and 95% CI Equation (10)). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381408650-0598ZYUDH4F32A9Q293J/interval+estimation+table+2.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Table 2. Estimated GFR using the non-compartmental method (GFRS Equation (8), SE(GFRS) Equation (9) and 95% CI Equation (10)). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381463152-4RDO70I2YO945D0OAT64/image-asset.png 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381532840-LVF2FJNA0L2MD42O6I6A/image-asset.jpeg 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Figure 4. Observed iohexol concentration versus time curve for Dog 1. Using the non-compartmental compartment model, AUCpre=10.01 (Equation (6)), AUCobs=286 (Equation (5)), the slope of the regression line of tail=-0.003, the R2 for the model was 99.1%, from a single compartment model of the tail AUCpost=167.97 (Equation (7)), the total AUC=464, estimated GFRN=0.580 (Equation (8)), the standard error of GFRN=0.0113 (Equation (9)), and the 95% CI is (0.54, 0.62) (Equation (10)). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489381537985-Y3WV2IBKNV2F35E3MP2V/image-asset.jpeg 2016, March - Interval Estimation of Glomerulus Filtration Rate from Iohexol Clearance Figure 5. Estimated GFR by single and non-compartmental methods for all dogs, together with 95% CIs. (GFRSEquation (4) and GFRN Equation (8)) https://www.jyi.org/2016-march/2017/3/13/the-career-paths-of-bioengineering monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489378560351-CO32TPB1NDQCA04X4UFZ/career+paths+biotech.png 2016, March - The Career Paths of Bioengineering https://www.jyi.org/2016-march/2017/3/13/a-career-in-environmental-sciences monthly 0.5 2017-06-01 https://www.jyi.org/2016-march/2017/3/13/neanderthal-dna-got-you-down-our-ancient-ancestor-dna-may-influence-depression monthly 0.5 2017-06-01 https://www.jyi.org/2016-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-march/category/Features monthly 0.5 https://www.jyi.org/2016-march/category/Research monthly 0.5 https://www.jyi.org/2016-february daily 0.75 2017-03-14 https://www.jyi.org/2016-february/2017/3/14/being-an-airplane-and-rocket-ship-builder monthly 0.5 2017-06-01 https://www.jyi.org/2016-february/2017/3/14/differentiating-infections-based-on-gene-signatures monthly 0.5 2017-06-01 https://www.jyi.org/2016-february/2017/3/14/iron-and-parkinsons-disease monthly 0.5 2017-06-01 https://www.jyi.org/2016-february/2017/3/14/the-mysteries-of-the-mind monthly 0.5 2017-06-01 https://www.jyi.org/2016-february/2017/3/13/three-person-mitochondrial-manipulation monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1489463924278-B758H9O6UHUADZ2D09OW/image-asset.png 2016, February - Three Person Mitochondrial Manipulation https://www.jyi.org/2016-february/category/Features monthly 0.5 https://www.jyi.org/2016-february/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-january daily 0.75 2017-03-22 https://www.jyi.org/2016-january/2017/3/21/1hjuuvkbjoymx54h2walg28uswtoc9 monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155272231-PGM7XPHO1K78NGH45VEJ/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155288258-TGN3WQO6E2RVL078BMO1/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155470640-Z2T7DLC0Z9NDOTSN4KU7/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 1. The spin echo occurs at 2τ. Initially a 90° pulse is transmitted and the spins line up in phase. Once the pulse has been delivered, the spins begin to de-phase and this decay is seen as the Free Induction Decay (FID). The transmission of a second 180° pulse causes the spins to flip and they begin to line up in phase until at 2τ there is an echo. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155555404-N34PKQE7BZVTIYOYHSYN/proton+spin+fig+2.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 2. T2 decay as a function of the envelope of the spin echoes. With each spin echo, the signal decreases in strength. The T2 depends on the signal decrease with each subsequent spin echo while T2* depends on the decay of the signal for each individual spin echo. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155536813-WEGMQBZQRKS1T4GVH08B/proton+spin+equation+3.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155545585-DDR8CDX1HBB2EQPIBMXB/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155621315-6DB0NHFWXXTUXAVIUZWF/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155643802-6L5FTU4OTHKLVPCFAYPM/proton+spin+fig+3.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 3. Voltage of a juice sample as a function of time. Peaks in the voltage display the presence of spin echoes that are occurring through time. The voltage decreases with time, indicating the decay in signal strength with each spin echo. The decay in the envelope of the spin echo heights will give the T2 time. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155768849-G3ZFG9UISQNGBEGZYT6A/proton+spin+fig+4.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 4. Envelope of the voltage of the spin echoes as a function of time. A Hilbert transform was used to take the envelope of the spin echo heights from Figure 3. The decay constant of the decrease of the voltage is how T2 is determined. The decay of the envelope of the voltage can be modeled by V(t) = beat where a is the decay constant and is related to T2 time by a = -1/T2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155793236-A362Q7XASQAR4VB11QFY/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 5. Natural logarithm of the envelope of voltage as a function of time. Since the envelope of the voltage is an exponential decay as a function of time, taking the natural logarithm of the voltage envelope straightens the curve. The blue line represents the straightened curve of the voltage envelope. The red line represents the line of best fit. The function for voltage can now be modeled by ln (v(t)) = ln (b) + at , where a is the slope of the line and is related to the T2 value by a = -1/T2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155866385-AF347SWDBF2R65TL6G0J/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 6. Spin-spin relaxation as a function of the time the sample has been in the storage container. For each sample, the spin-spin relaxation time was measured at several time points over the course of several days. The average of the spin-spin relaxation for each time point was plotted as a function of time. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490155874581-NV9SN7H1QJ6IQ7CWPAAN/image-asset.png 2016, January - The Proton Spin-Spin Relaxation of Orange Flesh Over Time Figure 7. Natural logarithm of average spin-spin relaxation as a function of the time the sample has been in the storage container. By taking the natural logarithm of the average spin-spin relaxation of the samples as a function of time they have been contained, the curve is linearized. The red line represents the line of best fit. https://www.jyi.org/2016-january/2017/3/21/the-whys-and-hows-of-biotechnology-startups monthly 0.5 2017-06-01 https://www.jyi.org/2016-january/2017/3/21/teaching-a-machine-to-learn monthly 0.5 2017-06-01 https://www.jyi.org/2016-january/2017/3/21/xfb1naq6i1ztmwq0c8b92mhvyxsc02 monthly 0.5 2017-07-22 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490154358083-TANFY5ITVFDUO67XFEAR/image-asset.png 2016, January - The CRISPR-Cas9 revolution https://upload.wikimedia.org/wikipedia/commons/9/96/Cas9_Anders_DNA_bound_structure.png https://www.jyi.org/2016-january/2017/3/21/misfolded-proteins-maybe-not-so-bad monthly 0.5 2017-06-01 https://www.jyi.org/2016-january/category/Science+Careers monthly 0.5 https://www.jyi.org/2016-january/category/Features monthly 0.5 https://www.jyi.org/2016-january/category/Science+News monthly 0.5 https://www.jyi.org/2016-january/category/Research monthly 0.5 https://www.jyi.org/2015-november daily 0.75 2017-03-23 https://www.jyi.org/2015-november/2017/3/22/new monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490318781675-4DEI2SS9L5OZQNLDCWBM/image-asset.jpeg 2015, November - Delftia spp. Elicit a Pro-inflammatory Response in Monocytes Figure 1. Stimulation of THP-1 monocytes with Delftia sp. Cs1-4 (MOI of 8.0) resulted in significantly increased mortality. Percent mortality was determined by automated trypan blue exclusion. Significance (p < .05) relative to the PBS group is denoted by an asterisk (*). Data is representative of four independent experiments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490318789535-9VOAEB0OTD2BWHZN5KGL/delftia+fig+2.jpg 2015, November - Delftia spp. Elicit a Pro-inflammatory Response in Monocytes Figure 2. THP-1 monocytes treated with the higher MOI of D. acidovorans ATCC 13751 and Delftia sp. Cs1-4 resulted in increased COX-2 protein expression. A: Representative Western blot of COX-2 and GAPDH loading control. B: Protein densitometry of COX-2 normalized to GAPDH with fold-change relative to PBS treatment group. Significance (p < .05) relative to the PBS group is denoted by an asterisk (*). The pound sign (#) indicates a nearly significant value of p = .050. Data is representative of four independent experiments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490318849109-KHPWALP6I5F17S3RA6N4/delftia+fig+3.jpg 2015, November - Delftia spp. Elicit a Pro-inflammatory Response in Monocytes Figure 3. MARCKS protein expression was significantly increased in THP-1 monocytes stimulated with both strains of Delftia spp. A: Representative Western blot of MARCKS and GAPDH loading control. B: Protein densitometry of MARCKS normalized to GAPDH with fold-change relative to PBS treatment group. Significance (p < .05) relative to the PBS group is denoted by an asterisk (*). Data is representative of four independent experiments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490318856866-2TDDSXWF7VQ4XE02IVW5/image-asset.jpeg 2015, November - Delftia spp. Elicit a Pro-inflammatory Response in Monocytes Figure 4. THP-1 monocytes stimulated with both strains of Delftia spp. had significantly increased TNF protein production. TNF protein production (pg/mL) in culture supernatants was measured by ELISA. Significance (p < .05) relative to the PBS group is denoted by an asterisk (*). Data is representative of four independent experiments. https://www.jyi.org/2015-november/2017/3/22/analyzing-anomalies-in-the-ionosphere-above-haiti-surrounding-the-2010-earthquake monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490231522169-CIZ8V61QXJFXAQJ7HROK/image-asset.png 2015, November - Analyzing Anomalies in the Ionosphere Above Haiti Surrounding the 2010 Earthquake Figure 1. Electron density in the ionosphere predicted by PIM and DEMETER data of electron density in the ionosphere plotted as a function of latitude. This is a simulated curve illustrates what we expect to see in the months leading up to the Haiti earthquake. The red curve simulates the electron density predicted by PIM, the blue curve simulates the data obtained from the DEMETER satellite, the green bar at the bottom corresponds to the location of Haiti, and the dotted line pinpoints the epicenter of the earthquake. The oval highlights the variation we expect to see when comparing the two curves. The existence of this kind of variation is the seismic indicator we are looking for. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490318297683-CDWKVPZQ19CGQK8VRUQV/image-asset.png 2015, November - Analyzing Anomalies in the Ionosphere Above Haiti Surrounding the 2010 Earthquake Figure 2. Example MATLAB output of a single orbit of the DEMETER satellite. Data from each “burst” file (top left) is combined with data from each “survey” file (bottom) to make the final data set (top right.) The location of Haiti is indicated in green. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490318408013-I0YZ52H6QR71P7BYTIXK/anomalies+fig+3.png 2015, November - Analyzing Anomalies in the Ionosphere Above Haiti Surrounding the 2010 Earthquake https://www.jyi.org/2015-november/2017/3/22/the-tough-choice-of-a-life-scientist-industry-vs-academia monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490157258804-5FNENP41O5XZHF09MX7T/image-asset.png 2015, November - The Tough Choice of a Life Scientist: Industry vs. Academia https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490157265844-G8W6TMKKYTARNB6UF8EF/image-asset.png 2015, November - The Tough Choice of a Life Scientist: Industry vs. Academia https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490157323103-CZAKW9XZ3HJE3M8WNGTH/image-asset.png 2015, November - The Tough Choice of a Life Scientist: Industry vs. Academia https://www.jyi.org/2015-november/2017/3/22/lewey-body-dementia-diagnosis monthly 0.5 2017-06-01 https://www.jyi.org/2015-november/category/Science+Careers monthly 0.5 https://www.jyi.org/2015-november/category/Features monthly 0.5 https://www.jyi.org/2015-november/category/Research monthly 0.5 https://www.jyi.org/2015-october daily 0.75 2017-03-26 https://www.jyi.org/2015-october/2017/3/23/herbivory-and-arthropod-diversity-within-invaded-and-native-forest-types-on-hawaii-island monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320623964-46PROFUDN42HCWI9OMQA/herbivory+fig+1.png 2015, October - Herbivory and Arthropod Diversity within Invaded and Native Forest Types on Hawai’i Island Figure 1. Abundance across sites was significant with almost twice as many arthropods found at the native site as at the invaded site (p = .010). Pitfall traps showed significant differences in variety, with more Araneae (p = .063) and Amphipods (p = .045) found in the native site, and Diplopoda (p = .003) found only in the invaded site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320630455-7PAKV2PGJHYOE1TSE4BL/image-asset.png 2015, October - Herbivory and Arthropod Diversity within Invaded and Native Forest Types on Hawai’i Island Figure 2. Herbivory by species the native and invaded sites. No significance was found in the observed species save for C. herta, an invasive understory plant (t = 2.15, p = .034). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320637739-C0R7DYLVD13J0FZR70Z2/herbivory+fig+3.png 2015, October - Herbivory and Arthropod Diversity within Invaded and Native Forest Types on Hawai’i Island Figure 3. Average herbivory damage in the native site compared to the invaded site. We observed significantly higher damage area in the native site (p = .036). This may be due to the damaged sustained by C. herta, which endured roughly six times more damage in the native site than in the invaded site. https://www.jyi.org/2015-october/2017/3/23/demographic-and-abuse-severity-indicators-of-participant-progress-in-a-rural-drug-court monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320029233-V4YD5CNTC2T3FS7ELHZN/image-asset.png 2015, October - Demographic and Abuse Severity Indicators of Participant Progress in a Rural Drug Court Table 1. Phase Dynamics and Program Length of Drug Court Participants. Phase Status denotes which phase of the program each participant was in at the time of data collection. Length of Time in Program denotes the length of time between participants’ entry date into Phase 1 of the program up to the time of data collection and adjusted for variance of calendar days. Sample size varies (n = 34 to 39) as some participants had been “phased down” and were required to restart their phase work, yet were allowed to remain in the program. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320068802-3XG44F1EJH0M7WO2DCFT/image-asset.png 2015, October - Demographic and Abuse Severity Indicators of Participant Progress in a Rural Drug Court Table 2. General Demographics of Drug Court Participants. The variables in this table were used as predictor variables during data analysis. The social class variable is loosely based on Thompson & Hickey’s (2005) model of social class. Sample size varies (n = 27 to 39) as some participants omitted reporting data in some categories. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320076059-CURU40BGX0ZHTSVETUYL/image-asset.png 2015, October - Demographic and Abuse Severity Indicators of Participant Progress in a Rural Drug Court Figure 1. Age ranges of initial drug use (n = 36) and alcohol use (n = 38). When initial use of drugs and/or alcohol occurred at the age of 21 or older, more participants tried drugs than alcohol. When initial use occurred between the ages of 9 and 20 years old, more participants tried alcohol for the first time than drugs. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320145773-YM50DEBTI9OEK9MUIK2S/demographic+fig+2.png 2015, October - Demographic and Abuse Severity Indicators of Participant Progress in a Rural Drug Court Figure 2. Average scores of participants’ drug and alcohol abuse severity scores. (A) DAST-20 and (B) MAST are compared based on the age of first use. Participants’ average drug abuse severity scores are higher than their alcohol abuse severity scores, suggesting that they are more severely addicted to drugs than alcohol. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320216697-L6CEQS1NIGMS415KSE82/image-asset.png 2015, October - Demographic and Abuse Severity Indicators of Participant Progress in a Rural Drug Court Figure 3. Average scores of participants’ drug and alcohol abuse severity score. (A) DAST-20 and (B) MAST are represented by their respective slow or average progress. Participants with slow program progress had higher average drug abuse severity scores (A). However, participants progressing at an average rate in the program showed a higher average alcohol abuse severity score (B). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490320329608-24LEDEA2LODIGC92J8Z9/demographic+Table-3.png 2015, October - Demographic and Abuse Severity Indicators of Participant Progress in a Rural Drug Court Table 3. Indicators of Addiction Severity and Progress of Drug Court Participants. DAST and MAST scores are based on specific score interpretation guidelines (Skinner, 1982; Selzer, 1971). Participant progress was coded as Slow = 1, Average = 2, and Fast = 3. Sample size varies (n = 33 to 39) as data for some participants’ scores were not available. https://www.jyi.org/2015-october/2017/3/23/food-and-feeling-is-there-a-link monthly 0.5 2017-06-01 https://www.jyi.org/2015-october/2017/3/23/nobel-prize-in-physiology-or-medicine-2015 monthly 0.5 2017-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490319517338-5C4NDWL5RW9YJE69ARZ2/image-asset.png 2015, October - Nobel Prize in Physiology or Medicine 2015 Picture taken from https://www.sciencenews.org/sites/default/files/main/articles/100515_nobel-med_feat.jpg https://www.jyi.org/2015-october/category/Features monthly 0.5 https://www.jyi.org/2015-october/category/Science+News monthly 0.5 https://www.jyi.org/2015-october/category/Research monthly 0.5 https://www.jyi.org/2015-september daily 0.75 2017-03-26 https://www.jyi.org/2015-september/2017/3/26/emotional-ability-among-college-students-an-exploration-of-gender-differences monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566393391-T6EWE2BWL558GPCHZ6RD/image-asset.png 2015, September - Emotional Ability Among College Students: An Exploration of Gender Differences https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566440578-5G9SRTZ5TCHBLGEAAL13/image-asset.png 2015, September - Emotional Ability Among College Students: An Exploration of Gender Differences https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566450683-REGZPCO14AZIEZSOYCP6/image-asset.png 2015, September - Emotional Ability Among College Students: An Exploration of Gender Differences https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566478019-4Q733ZHEFBL2RQ4XO943/image-asset.png 2015, September - Emotional Ability Among College Students: An Exploration of Gender Differences https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566505118-9KYN4OB858Q5LQA14LIK/image-asset.png 2015, September - Emotional Ability Among College Students: An Exploration of Gender Differences https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566533743-GH7QWZ5DKXZGPMFACSN9/image-asset.png 2015, September - Emotional Ability Among College Students: An Exploration of Gender Differences https://www.jyi.org/2015-september/2017/3/26/early-colony-development-of-an-equatorial-afrotropical-stingless-bee-hypotrigona-sp-in-a-new-habitat monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490563012600-9SKTM8MWTCPS20URUXPS/image-asset.jpeg 2015, September - Early Colony Development of an Equatorial Afrotropical Stingless Bee (Hypotrigona sp.) in a New Habitat Figure 1. Map of Ghana showing the location of Cape Coast in the Central Region. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490563133581-SPNH7EGLUVMUBZNWFKT1/image-asset.jpeg 2015, September - Early Colony Development of an Equatorial Afrotropical Stingless Bee (Hypotrigona sp.) in a New Habitat Figure 2. Individual colony storage products. ‘Total Pots” includes both unfilled and filled storage pots. “Honey Pots” includes honey pots filled and capped. “Pollen Pots” includes pollen pots filled over halfway with pollen. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490563271161-UQ4D3Z6VA3VCLUXP1XS2/image-asset.jpeg 2015, September - Early Colony Development of an Equatorial Afrotropical Stingless Bee (Hypotrigona sp.) in a New Habitat Figure 3. Mean number of returning and departing bees from the four colonies for a two-day period https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490563337630-IGNPE9SUBSFWRCUERX1C/image-asset.jpeg 2015, September - Early Colony Development of an Equatorial Afrotropical Stingless Bee (Hypotrigona sp.) in a New Habitat Figure 4. Forage activity represented by bars and primary axis. Environmental factors (temperature, relative humidity) are represented by lines and secondary axis. Values and standard errors represent an average of the four hives. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490563450700-2SW80XPLSQBOE9HCKQTO/stingless+bees+figure+5.jpg 2015, September - Early Colony Development of an Equatorial Afrotropical Stingless Bee (Hypotrigona sp.) in a New Habitat Figure 5. Comparison of new brood cell arrangements in Hives A (left) and B (right). https://www.jyi.org/2015-september/2017/3/26/violent-video-games-may-kill-your-short-term-focus-violent-video-games-may-negatively-affect-a-players-attention-and-concentration-on-a-short-term-basis-after-brief-exposure monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490562405023-FTLTKMQLOIOJD3N4QSMF/image-asset.png 2015, September - Violent Video Games May Kill Your Short-Term Focus: Violent video games may negatively affect a player’s attention and concentration on a short-term basis after brief exposure Table 1: Participant Demographics https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490562530224-OOSSN245DG8XIAZ300VR/image-asset.png 2015, September - Violent Video Games May Kill Your Short-Term Focus: Violent video games may negatively affect a player’s attention and concentration on a short-term basis after brief exposure Figure 1. Attention and Concentration Scores Before and After 45 Minutes of Violent Video Game Play. Blue = baseline; red = post-exposure. https://www.jyi.org/2015-september/2017/3/26/dog-dust-might-prevent-allergic-asthma-in-infants monthly 0.5 2017-05-25 https://www.jyi.org/2015-september/2017/3/26/sleep-fights-infection monthly 0.5 2017-05-24 https://www.jyi.org/2015-september/category/Features monthly 0.5 https://www.jyi.org/2015-september/category/Research monthly 0.5 https://www.jyi.org/2015-august daily 0.75 2017-03-26 https://www.jyi.org/2015-august/2017/3/26/interspecific-competition-and-social-hierarchies-in-frugivorous-neotropical-birds-of-costa-rica monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490568205224-IHLYI6M2CPTJ6DAWQT7J/tropical+fig+1.png 2015, August - Interspecific Competition and Social Hierarchies in Frugivorous Neotropical Birds of Costa Rica Figure 1. The Wilson Botanical Garden (light green) in Las Cruces Biological Station, Costa Rica. Each circle represents a distance of 25m from the established feeding station (red). The additional feeding stations are denoted in yellow. Brown squares represent buildings and dark green represents primary forest. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490568260911-5RN4WNYN5CQ9A7WJQ24V/tropical+fig+2.png 2015, August - Interspecific Competition and Social Hierarchies in Frugivorous Neotropical Birds of Costa Rica Figure 2. Adjusted dominance scores (dominance score/adjusted dominance score) of 13 neotropical bird species, based on 232 interactions observed at feeding stations located around the Wilson Botanical Garden. Dominance scores were calculated as (# of times species displaced another species) – (# of times species was displaced). We adjusted the dominance scores for each species by the number of times that species was observed, so as not to over weigh common species. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490568460782-L0W99K3J07ZTRELEU3XG/image-asset.png 2015, August - Interspecific Competition and Social Hierarchies in Frugivorous Neotropical Birds of Costa Rica Figure 3. Linear regression of adjusted dominance scores (dominance score/adjusted dominance score) vs. weight (g) of 13 neotropical bird species. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490568539970-SKWGW8VGNOHUKHWH0JIE/image-asset.png 2015, August - Interspecific Competition and Social Hierarchies in Frugivorous Neotropical Birds of Costa Rica Figure 4. Boxplots of time (min) spent on feeding platforms for each of 13 bird species, based on 390min of observation of 13 feeding platforms in the Wilson Botanical Garden, in Las Cruces Biological Station, Costa Rica. https://www.jyi.org/2015-august/category/Research monthly 0.5 https://www.jyi.org/2015-july daily 0.75 2017-03-27 https://www.jyi.org/2015-july/2015/7/1/time-travel-with-weird-and-wacky-organisms-a-peek-into-an-evolutionary-biologists-world monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490575043536-FCXT8MO6AIRXZAOP4RAV/image-asset.jpeg 2015, July - Time Travel with Weird and Wacky Organisms: a Peek into an Evolutionary Biologist’s World “Nothing in biology makes sense except in the light of evolution” - Theodosius Dobzhansky https://www.jyi.org/2015-july/2015/7/1/schizophrenias-specificity-to-humans monthly 0.5 2017-05-24 https://www.jyi.org/2015-july/category/Science+Careers monthly 0.5 https://www.jyi.org/2015-july/category/Interview monthly 0.5 https://www.jyi.org/2015-april daily 0.75 2017-03-27 https://www.jyi.org/2015-april/2015/4/1/interview-with-hydrologist-dr-ana-barros monthly 0.5 2017-05-25 https://www.jyi.org/2015-april/category/Science+Careers monthly 0.5 https://www.jyi.org/2015-april/category/Interview monthly 0.5 https://www.jyi.org/2015-march daily 0.75 2017-03-27 https://www.jyi.org/2015-march/2017/3/26/affordable-modular-and-breathable-upper-limb-prosthetic-sockets-for-use-in-underdeveloped-areas-with-hot-humid-climates monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490579253826-JOKBWT7B7C79T7H6TLTM/image-asset.png 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Table 1. Ideal properties of possible socket interface materials. Spenco, poron, and silicone all have medium coefficients of friction, low compressive stiffness, and limited non-recovered strain. These characteristics are all properties necessary for the purpose of this socket. However, none of the materials have a high moisture vapor transmission rate, which is essential to minimizing skin breakdown. Therefore, a new material must be considered for this socket interface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490579263115-U7F3GNI0RPCS2URI4YNH/image-asset.png 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Table 2. List of metrics to quantify the socket requirements. These metrics were developed to assist in quantifying the seven socket requirements. The level of importance of each metric was ranked on a scale of one to five, with five being the most important. The units for each metric and the socket requirement number(s) are also presented. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490579272083-W3FFGE37OCBTOBVZAQ6V/image-asset.png 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Table 3. The needs-metrics matrix. This chart visually shows the needs that are met by each metric. Two benchmark products are also broken down in the chart using a one to five dot system, where five dots signifies that the product meets the need to the highest standard (Ottobock©, 2013; Jacobsen & Knutti, 1999). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490580237753-R04W2VMJF927XR5S8B7H/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 1. Air pump system removed from a medical walking boot. The air pump system was modified to make the bladders small enough to fit inside of the socket. By incorporating the air pump system into the socket, the amputee will have the ability to adjust the tightness of the socket individually. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490580969303-1JZOGNQM4FVRXORQ6MIE/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 2: Three-dimensional model of a socket with an air pump system and funnel-shaped holes. This socket design has an air pump system, similar to that used in medical walking boots, inside that allows the amputee to adjust the fit of the socket individually. The funnel-shaped holes around the entire wood socket shell allow maximum airflow to the residual limb, minimizing the risk of skin breakdown. A wood socket cap allows the socket to connect to the rest of the prosthetic. A COOLMAX® sock is slid over the residual limb before the socket to create a breathable socket interface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490580975388-DOSHZ5A73ZHNVH0YOZVX/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 3. Three-dimensional model of an open-frame socket with breathable material and VELCRO® straps. In this socket design, VELCRO® straps on the top and bottom of the structure allow the amputee to adjust the socket tightness individually. The VELCRO® straps are connected by four vertical wood stays, which creates an open-frame design that minimizes restriction and maximizes airflow to the residual limb. The socket cap and interface have the same design as those in Figure 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490581047116-NB739PTRV9WF4FAFRS11/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 4. Detailed drawing of a socket with an air pump system and funnel-shaped holes. This detailed drawing illustrates how the socket components are assembled together in order to assist with the manufacturing process. Dimensions, including the diameter of the funnel-shaped holes, the diameter and thickness of the socket shell, and the thickness of the air pump system, can be extracted from this drawing. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490581052672-HO69A3XZGDS5L8PMI0I5/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 5. Detailed drawing of an open-frame socket with breathable material and VELCRO® straps. This detailed drawing supplies information on dimensions and assembly of the socket components. Important measurements for the VELCRO® straps, wood stays, and socket shell are provided. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490581058322-4ZS99G9VV6FLLHUM6ESQ/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 6a. Completed prosthetic socket with air pump system and thin slices of piping to create airflow openings. (a) For the final product, wood dowels and natural sisal were used to weave a socket shell that was then glued into the wooden socket cap. It was quickly realized that drilling funnel-shaped holes into the socket was unrealistic, so thin pieces of piping were glued into the weaving to create airflow openings instead. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490581063318-OH2ZOM70AVL55TJ7TDVR/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 6b. Completed prosthetic socket with air pump system and thin slices of piping to create airflow openings. (b) A modified air pump system was glued into the socket shell to give the amputee the ability to adjust the socket fit independently. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490581069299-E4S89NOJS8PRH5LGNAHO/image-asset.jpeg 2015, March - Affordable, modular, and breathable upper-limb prosthetic sockets for use in underdeveloped areas with hot, humid climates Figure 7. Completed open-frame prosthetic socket with VELCRO® straps. For the final product, wood dowels and natural sisal were used to weave four wooden stays, which were then glued into the wooden socket cap. This created an open-frame design to allow maximum airflow to the residual limb. VELCRO® straps were attached to the top and bottom of the socket to improve the modularity of the socket. https://www.jyi.org/2015-march/2015/3/1/lasers-and-stuff-a-day-in-the-life-of-dr-david-hilton monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490577375480-3FVTYWZCSGUNJ9S6TD7X/image-asset.jpeg 2015, March - Lasers and Stuff: A Day in the Life of Dr. David Hilton https://www.jyi.org/2015-march/2015/3/1/the-unsung-heroes-of-the-lab monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490576992640-DG7AOBMR6TKQB5NSKU6Z/image-asset.jpeg 2015, March - The Unsung Heroes Of The Lab https://www.jyi.org/2015-march/2015/3/1/scientists-search-for-biological-and-cultural-causes-of-binge-eating monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490576645655-U13XVVZQHE6UF5Z1Y4JH/binge+eating.png 2015, March - Scientists Search For Biological and Cultural Causes of Binge Eating https://www.jyi.org/2015-march/2015/3/1/tiny-but-mighty-gene-fragments-and-autism-spectrum-disorder monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490576360350-QG8KVW8WN1K2M3FTXHUA/image-asset.png 2015, March - Tiny But Mighty: Gene Fragments and Autism Spectrum Disorder https://www.jyi.org/2015-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2015-march/category/Features monthly 0.5 https://www.jyi.org/2015-march/category/Science+News monthly 0.5 https://www.jyi.org/2015-march/category/Research monthly 0.5 https://www.jyi.org/2015-march/category/Interview monthly 0.5 https://www.jyi.org/2015-february daily 0.75 2017-03-27 https://www.jyi.org/2015-february/2017/3/26/the-impact-of-treefall-gaps-on-the-species-richness-of-invasive-plants monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490582350276-VNRD8LTSQAR496Y9V9GL/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 1. Topographic map of the 16-hectare CTFS/SIGEO plot at SERC. The plots censused in 2011 are outlined in blue, those studied in 2012 are outlined in purple, and the road that goes through the study area is depicted as a gray line. North of hectares 4 and 8 is a logged forest. A wetland area is present in hectares 1, 5, 6, and 13-16 (Figure created by N. Angeli). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490582418435-Z3B5SP2PVFTIR2Y7R7P8/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Table 1. Canopy cover and derived height class. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490582457753-62QFVLDJZ3UQABI97HGW/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Table 2. The cover class system used to determine road, bare ground, and coarse woody debris estimates for each 2m x 2m subplot. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490582546863-R13W02OBKSGZQ5Y2Q775/treefall+table+3.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Table 3. Frequency of each invasive plant species per 2m x 2m subplot for this study and 1m x 1m quadrants for Parker et al. (2010). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490582608238-MT5SQ2RHGHHG48KQ7FLH/treefall+fig+2.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 2. Example of gap delineation using focal statistics. The left image depicts a 20m x 46m area from hectare 3 with each subplot scored as low canopy (light green) and high canopy (blue). The resulting image on the right, which depicts the median values for each subplot, shows one contiguous gap (light green). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583105827-LDLSVRV7QZFA05NM8ZMH/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 3. Frequency of subplots of each canopy height class. The bars represent the count of 2m x 2m subplots with no canopy cover or a canopy height of 0-2m, 2-5m, 5-10m, or ≥10m. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583113391-1G4LZT7F5ZG2LDN6W0R3/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 4. Number of subplots with each level of each invasive plant species richness. The number of 2m x 2m subplots with an invasive species richness of 0, 1, 2, 3, 4, or 5. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583119019-EWGTAHAZ7GFJWV8O83S8/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 5. Mean invasive plant species richness per subplot stratified by canopy height class. The mean invasive plant species richness for the 2m x 2m subplots within the no canopy cover, 0-2m, 2-5m, 5-10m, and ≥10m canopy cover classes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583124567-LKDBNZMOUDO8ORDIEE1I/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 6. Percentage of gap and non-gap plots within each invasive plant species richness category. The bars represent gap and non-gap plots, respectively, stratified by the percentage of all gap and non-gap 2m x 2m subplots having a species richness of 0, 1, 2, 3, 4, or 5. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583218939-I6KVTN17VXENYT3S49TI/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 7. Number of gaps of each size class. Light gray, dark gray, and black bars represent small, medium, and large gap size classes, respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583357412-L9A0DPQG9CAG19V3QXWB/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 8. Mean invasive plant species richness per subplot stratified by gap size. Error bars show the standard error of richness values for all subplots in each size class. Light, medium, and dark gray bars indicate gaps in the small (<200m2), medium (200-400m2), and large (>400m2) size classes, respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583456496-2LGGJ5PZQ0Q5F1VQHCLY/treefall+fig+9.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 9. GIS image of the nine-hectare study area showing invasive species richness and canopy gaps. The gaps are represented as shaded gray areas while non-gap areas appear in a very light blue. Areas with higher invasives species richness are depicted by darker blue and those with lower invasive species richness are represented by lighter blue. The roads are depicted as black lines. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583443514-U820QRJF55JXJFX7HDWX/image-asset.png 2015, February - The Impact of Treefall Gaps on the Species Richness of Invasive Plants Figure 10. Percentage of subplots with invasive plants species richness, stratified by coarse woody debris cover class. The bars represent the percentage of each 2m x 2m subplot within the 0 to 25 or 26 to 100% cover class of coarse woody debris that had an invasive species richness of 0, 1, or 2 or greater. https://www.jyi.org/2015-february/2015/2/1/a-day-on-the-farm-lisa-satterwhites-research-profile monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490581701537-ZN0XQGU1O7VDJFW1H3NA/image-asset.png 2015, February - A Day on the Farm: Lisa Satterwhite’s Research Profile Lisa with some members of last summer’s research team: (Left to right) Kavitha Prasanna, Jessica Ordax, Lisa Satterwhite, Coulter Knapp https://www.jyi.org/2015-february/category/Science+Careers monthly 0.5 https://www.jyi.org/2015-february/category/Research monthly 0.5 https://www.jyi.org/2015-february/category/Interview monthly 0.5 https://www.jyi.org/2015-january daily 0.75 2017-03-27 https://www.jyi.org/2015-january/2015/1/1/interview-with-a-bioinformatician-dr-ryan-mills-phd monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490585102032-P1ET7F0D1MGVZ1V1145E/bioinformatician.png 2015, January - Interview with a Bioinformatician: Dr. Ryan Mills, Ph.D. https://www.jyi.org/2015-january/2015/1/1/pedagogy-a-science-of-its-own monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490584918729-XD50MBDZF8BJ760Z2FEV/pedagogy.png 2015, January - Pedagogy: A Science of its Own https://www.jyi.org/2015-january/2015/1/1/interview-with-bonnie-kuehl-of-scientific-insights-consulting-group-inc monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490584758644-W4GX0EG9H4GXNLMSS7BF/bonnie.png 2015, January - Interview with Bonnie Kuehl of Scientific Insights Consulting Group Inc. https://www.jyi.org/2015-january/2015/1/1/how-far-have-we-gotten-in-the-battle-against-hiv monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490584571447-EP2NR57FTNDZV79XYQM6/HIV.png 2015, January - How far have we gotten in the battle against HIV? https://www.jyi.org/2015-january/2015/1/1/researchers-identify-epigenetic-roots-of-insulin-resistance monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490584355831-F37HACIBO62IU3P5VDT2/epigenetic.png 2015, January - Researchers Identify Epigenetic Roots of Insulin Resistance Artistic representation of chromatin structure (photo source). https://www.jyi.org/2015-january/2017/3/26/zhcesvzhleyjaoelvzuebe6wsnf5pr monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490584136551-RPCM3Q38O6JRW1XWQ9HO/image-asset.png 2015, January - Vif and APOBEC3: The Battle of Defense Proteins in HIV-1 Replication HIV-1 virus https://www.jyi.org/2015-january/2015/1/1/ditching-the-indeterminate-cat-griffith-scientists-suggest-testability-of-their-many-interacting-worlds-theory monthly 0.5 2017-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490583928676-C7A61UBHAFODSW9PPEML/Cat.png 2015, January - Ditching the Indeterminate Cat: Griffith Scientists Suggest Testability of their Many Interacting Worlds Theory https://www.jyi.org/2015-january/category/Science+News monthly 0.5 https://www.jyi.org/2015-january/category/Feature monthly 0.5 https://www.jyi.org/2015-january/category/Science+Careers monthly 0.5 https://www.jyi.org/2015-january/category/Interview monthly 0.5 https://www.jyi.org/2014-december daily 0.75 2017-03-30 https://www.jyi.org/2014-december/2017/3/29/a-mathematical-model-of-cancer-networks-with-radiation-therapy monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841287546-B5G2DLHIRDRYH60S26VE/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841412390-IQSFYW851WRBG12UKCIX/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841746922-VTQ279IIEMGW5AHHNBHN/Screen-Shot-2014-12-13-at-2.13.15-PM.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841852647-HZKNY0A564V6AO0F5TK0/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841882325-XHC1XFEX3DKID9MLW7D3/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841965848-2PA2T7WGXIGK2AKP12HX/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490841993179-QPMPB1HXV9F3F15CC0C9/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490842477102-1LFP498YFS1OVME6734A/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490843108387-5FMBYVPZWADTZ19IOK05/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490843322167-L6TZZ41R5SAH7J16R5I5/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy Table 1: Numerical values of parameters for each case. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490843353134-Q2OZHPJATKEHX5ASYHQP/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy Table 2: Values of r2 in Figures 6-9. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490843883708-CTRFOSQWJSJIGR7RYGXY/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844012721-TELVRGE8UZIOC0ZT4T9N/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844163277-V6WCV2TD1J280OWOAZCP/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844264157-H6VFX9J4AGXHG5N9GY4I/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844349020-530AQ5AA6WKBHMAFAG67/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844473417-OXA235PRIH4PPLKGNC21/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844624241-WKLR5N54NA8LCQ7TJVCN/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490844717264-BD0WNNFQLD1Y60NJIFRP/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490845106598-F8NO4WORY38J3CH9H0BS/image-asset.png 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490845216113-JM4UGBBS3HYMBTB9XHJC/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490845276460-KGKHES6V0C0IGXN5AWVO/image-asset.jpeg 2014, December - A mathematical model of cancer networks with radiation therapy Figure 11. A plot of the number of cells in each population over time depicting the course of recurrence. After all of the B cells are killed, the tumor is too small to detect, and treatment is stopped at time 30. The A cells are able to quickly regrow the tumor. https://www.jyi.org/2014-december/2017/3/23/endocannabinoids-modulate-mood monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490294061110-HHSS3SAZEWH6K60BMZKB/image-asset.png 2014, December - Endocannabinoids modulate mood https://www.jyi.org/2014-december/2017/3/23/the-dark-side-of-the-moon-paradox-of-light-and-dark-at-the-lunar-surface monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490321519566-LEKR3KG4BZZMSWYGLFBG/image-asset.png 2014, December - The Dark Side of the Moon: Paradox of Light and Dark at the Lunar Surface “The moon is at her full, and riding high, floods the calm fields with light. The airs that hover in the summer sky are all asleep tonight.” William C. Bryant https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490321594547-DE08A0XB91JD7JQ82XED/Screen-Shot-2014-12-14-at-12.25.51-AM.png 2014, December - The Dark Side of the Moon: Paradox of Light and Dark at the Lunar Surface In the vastness of the solar system, our moon stands apart from over a hundred other moons. The NASA Lunar Reconnaissance Orbiter (LRO) mission, led by Paige, seeks to comprehensively map the entire moon. LRO, a complex robotic machine that gathers high-resolution data about the lunar surface and its environment, launched on June 18, 2009 from Kennedy Space Center. Using the stars to guide its journey, LRO is a complex robotic machine that gathers high-resolution data about the lunar surface and its environment. LRO orbits the moon and Earth. https://www.jyi.org/2014-december/category/Features monthly 0.5 https://www.jyi.org/2014-december/category/Research monthly 0.5 https://www.jyi.org/2014-november daily 0.75 2017-03-24 https://www.jyi.org/2014-november/2017/3/23/the-steaks-are-high-in-vitro-meat-moves-from-the-petri-dish-to-the-palate monthly 0.5 2017-05-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490321925611-BNRKIBATCMMJW4USQD1A/image-asset.png 2014, November - The ‘Steaks’ Are High: In Vitro Meat Moves From the Petri Dish to the Palate https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490321981375-2GR5JHJJRDKGTGONKWZ0/image-asset.png 2014, November - The ‘Steaks’ Are High: In Vitro Meat Moves From the Petri Dish to the Palate https://www.jyi.org/2014-november/category/Features monthly 0.5 https://www.jyi.org/2014-october daily 0.75 2017-03-26 https://www.jyi.org/2014-october/2017/3/24/naturopathic-medicine-not-just-for-hippocrates-and-hippies monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490374964671-XD6PRP6X36C3ACU54Y4P/image-asset.png 2014, October - Naturopathic Medicine: Not Just for Hippocrates and Hippies https://www.jyi.org/2014-october/2017/3/24/interview-with-dr-derrick-rossi-of-moderna-therapeutics monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490376142335-KT5CA7F7D8VB48QHEXU6/image-asset.png 2014, October - Interview with Dr. Derrick Rossi of Moderna Therapeutics https://www.jyi.org/2014-october/2017/3/24/ebola-2014-the-making-of-an-epidemic monthly 0.5 2017-05-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490561893683-5JPCK5SBRUZ20INXUU48/image00.jpg 2014, October - Ebola 2014: The Making of an Epidemic Electron Micrograph of Zaire ebolavirus https://www.jyi.org/2014-october/2017/3/26/black-death-a-plague-revisited monthly 0.5 2017-05-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490562365660-7IELSC8IIIA0OOK8T7VX/image-asset.jpeg 2014, October - Black Death: A Plague Revisited https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490562402943-6QX7B4351X9762REF4NZ/image-asset.jpeg 2014, October - Black Death: A Plague Revisited https://www.jyi.org/2014-october/2017/3/26/european-cities-set-to-go-green monthly 0.5 2017-05-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490562840523-VS8OFCGM40N4CFSMXQ1J/image-asset.jpeg 2014, October - European Cities Set to Go Green https://www.jyi.org/2014-october/2017/3/26/plankton-get-jet-lagged-too monthly 0.5 2017-05-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490562991727-8CKVOO61AHZB746ZXLA4/image-asset.gif 2014, October - Plankton get jet lagged, too Picture taken from http://rxanswers.org/static/f4f9d36fa72a2ba1f3847fca2edcb0b8.gif https://www.jyi.org/2014-october/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-october/category/Interview monthly 0.5 https://www.jyi.org/2014-october/category/Feature monthly 0.5 https://www.jyi.org/2014-october/category/Science+News monthly 0.5 https://www.jyi.org/2014-september daily 0.75 2017-03-26 https://www.jyi.org/2014-september/2017/3/26/a-review-of-management-problems-arising-from-reintroductions-of-large-carnivores monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490563432899-MUVL2BBLODOEJGF5JAVF/Canis_lupus_pack_surrounding_Bison.jpg 2014, September - A Review of Management Problems Arising From Reintroductions of Large Carnivores Canis lupus pack surrounding bison https://www.jyi.org/2014-september/2017/3/26/sticky-fingers-a-glimpse-into-the-work-of-a-latent-print-examiner monthly 0.5 2017-05-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1495238306943-LDHFV0G0FE1AYHHQME7Q/image-asset.png 2014, September - Sticky Fingers: A Glimpse into the Work of a Latent Print Examiner https://www.jyi.org/2014-september/2017/3/26/scientists-potentially-postpone-the-aging-processin-fruit-flies monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490565171160-DBVKW0E4YMYEYJXA2DPH/image-asset.jpeg 2014, September - Scientists Potentially Postpone the Aging Process...In fruit flies https://www.jyi.org/2014-september/2017/3/26/are-these-the-droids-were-looking-for-fictional-forebodings-and-the-future-of-artificial-intelligence-according-to-humans monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490564286715-7EHPXFU35Y35I2NKC2U1/image-asset.png 2014, September - “Are These the Droids We’re Looking For?” Fictional Forebodings and The Future of Artificial Intelligence According To Humans https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490564331807-1V9JRGVJIA68A8MJSYB5/image-asset.png 2014, September - “Are These the Droids We’re Looking For?” Fictional Forebodings and The Future of Artificial Intelligence According To Humans https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490564395230-C85BEP3ZFM3FYCKM11AW/image-asset.png 2014, September - “Are These the Droids We’re Looking For?” Fictional Forebodings and The Future of Artificial Intelligence According To Humans https://www.jyi.org/2014-september/2017/3/26/a-penny-for-your-thoughts-the-science-of-economic-decision-making monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490564857093-VRXRQMQXZ4NNDUOJ2JDM/Screen-Shot-2014-08-22-at-1.02.27-PM.png 2014, September - A Penny For Your Thoughts: The Science of Economic Decision-Making Image by Belinda Ongaro https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490564900064-032K429WVSSPRXUWNPF3/image-asset.png 2014, September - A Penny For Your Thoughts: The Science of Economic Decision-Making From Journal of Economic Literature Vol. XLIII (March 2005), pp. 9–64 https://www.jyi.org/2014-september/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-september/category/Features monthly 0.5 https://www.jyi.org/2014-september/category/Research monthly 0.5 https://www.jyi.org/2014-september/category/Science+News monthly 0.5 https://www.jyi.org/2014-august daily 0.75 2017-03-28 https://www.jyi.org/2014-august/2017/3/26/carbonic-anhydrase-ix-inhibitors-finding-potential-therapeutic-cancer-agents-through-virtual-screening monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490565606806-0GB7QYKYQ3QS4WNX9Y3G/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Figure 1. Reaction catalyzed by CAIX. In a tumor cell, CO is generated from aerobic respiration or is present from the general environment. CAIX can turn CO2 and water into HCO3- and H+. When the extracellular pH becomes extremely acidic from the H+, the HCO3- produced by CAIX regulates interior pH. Another source of acidic intracellular pH is Lactic Acid (HLac), which is produced from anaerobic respiration and/ or aerobic glycolysis. It can be removed by intracellular titration with HCO3-, further balancing the pH (Švastová, 2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490565753571-6Y954838O1XTTMDDB11N/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Figure 2. An overview of the methods used in this study. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490565813080-GOC6LUUD1UQ4VUQAKQHW/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Table 1. Virtual screening libraries containing a total of 86,228 compounds. Some libraries contain a diverse set of compounds while others are focused on a certain property or target. The NIH and Sigma libraries contain compounds that have been through clinical trials. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490565940709-BINY7Z6XMB2QVFZTJOQQ/Table3-1024x606.jpg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Table 2. The top 10 potential inhibitors of CAIX as chosen based on the results of virtual screening. The binding score is the GOLD fitness score. A higher z-score shows that the predicted binding strength of the particular molecule is higher than the other molecules of the same library. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566001044-EMI7M3DPBELYD132HEJA/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566019276-S0YUZ5I4JQ9ZYUHJ7JG3/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Figure 3. a) Agarose gel electrophoresis image showing successful PCR amplification of the CA9 genes in lanes 3-8. Comparison to 100 kb ladder in lane 2 confirms the DNA is the correct size of CDS at 774 bp. Lane 9 shows the cut pNIC-Bsa4 vector while lane 10 shows the uncut pNIC-Bsa4 control at 7.3 kb. The 1 kb ladder in lane 1 confirms the size of the cut vector pieces. b) Ligation independent cloning results. Basic Local Alignment Search Tool (BLAST) (Altschul, 1990) was used to compare sequencing facility results to the desired sequence of the CAIX gene in the expression vector. The BLAST image above demonstrates a 100% match between the query (desired sequence) to the subject, the sample that was cloned. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566059499-3ZNPO1THYLWDJ5BRBAQF/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Table 3. Two-sample t-tests were used to determine if the mean velocities of control samples were significantly different from non-control samples.A p-value less than the chosen alpha level of .05 indicates statistical significance in order to reject the null hypothesis. Fifteen out of 16 sample comparisons reject the null hypothesis. This demonstrates evidence that the mean velocities of samples with compounds are significantly less than the mean velocities of the control samples. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566127693-J45JIJ1SDRUZSR6LDW1J/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566220869-8HDFFHVRWYXW19YJX82G/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Figure 4. a) Box plot used to compare the binding score distribution between libraries.There were outliers (compounds with a score greater than 1.5 * inner quartile range (IQR) above the third quartile) in 3 libraries showing specific ligands with scores outside of their libraries’ normal distribution. The top two chosen ligands that were examined are both outliers of Chembridge library. The other compounds chosen in the top 10 compounds list also show promise because of their distinct qualities and high binding scores. b) CAIX structure (PDB #: 3IAI) with ChemBridge Compound #7653639 (Gold fitness score of 85.15).The CAIX protein (blue ) is shown using the PyMol program (Schrödinger; Portland, OR) with its active site (green), polar contacts (yellow), and compound (colored by element: carbon-light blue, hydrogen-white, nitrogen-dark blue, oxygen-red, sulfur-orange). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566275109-9R2DZJZNHSFTBU9EOIYY/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566334511-6H91NOWJKCGFH44WOK4E/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566349780-9WTI52FNE0FTTMZ0BQYA/Figure5c-1024x508.jpg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566368018-OI3SMKQR91OUW4ED4I43/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Figure 5. Different concentrations of each compound were tested against CAIX activity to hydrolyze PNPA to PNP and acetate.The concentrations tested were 0.5, 1, 10 and 100 μM. For each concentration, five trials were averaged. Optical Density at 400 nm (OD) over time (mean velocity/slope) represents the enzymatic activity. Thus, a lower slope indicates an inhibited enzyme. From 1 µM to 100 µM, the mean velocity decreased. The mean velocity of the control sample was 2.184 mOD (400 nm)/min. The mean velocities (at 100 μM compound concentration) were metoprolol - 1.789 mOD(400 nm)/min, pentamidine isethionate - 1.938 mOD(400 nm)/min, Chembridge #7653639 - 1.519 mOD(400 nm)/min, and Chembridge #7633756 - 1.565 mOD(400 nm)/min. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490566664426-HP8XGPMK2RL9MPZSLUEK/image-asset.jpeg 2014, August - Carbonic Anhydrase IX Inhibitors: Finding Potential Therapeutic Cancer Agents Through Virtual Screening Figure 6. Bar graph representation of the enzymatic activity (mean velocity – also, the slope of each line in the Figure 8 graphs) of the CAIX enzyme under different concentrations of inhibitory compounds. The error bars indicate 1 standard deviation plus or minus of the average mean velocity https://www.jyi.org/2014-august/2017/3/28/interview-with-a-chiropractor-dr-jeff-mcintyre monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490727622457-YA1R46H2EQKT62NVI4QR/image-asset.png 2014, August - Interview with a Chiropractor – Dr. Jeff McIntyre https://www.jyi.org/2014-august/2017/3/28/a-passion-for-mathematics-career-feature-on-nadia-maryukova monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490727428545-OP2R3VJKGTCY1MFPKEX1/image-asset.png 2014, August - A Passion for Mathematics: Career Feature on Nadia Maryukova “A youth who had begun to read geometry with Euclid, when he had learnt the first proposition, inquired, "What do I get by learning these things?" So Euclid called a slave and said "Give him threepence, since he must make a gain out of what he learns." - Euclid https://www.jyi.org/2014-august/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-august/category/Research monthly 0.5 https://www.jyi.org/2014-august/category/Interview monthly 0.5 https://www.jyi.org/2014-july daily 0.75 2017-03-28 https://www.jyi.org/2014-july/2017/3/28/supercomputers-and-atoms-the-career-of-a-computational-chemist monthly 0.5 2017-09-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490728498510-XRHUB30AQPXDM13PMO9G/image-asset.png 2014, July - Supercomputers and Atoms: The Career of a Computational Chemist https://www.jyi.org/2014-july/2017/3/28/kit-researchers-successfully-cloak-an-object-from-touch monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490728733795-7OCIRC47SNVI9LAEKXFJ/image-asset.jpeg 2014, July - KIT Researchers Successfully Cloak an Object From Touch https://www.jyi.org/2014-july/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-july/category/Science+News monthly 0.5 https://www.jyi.org/2014-july/category/Interview monthly 0.5 https://www.jyi.org/2014-june daily 0.75 2017-03-28 https://www.jyi.org/2014-june/2017/3/28/current-tactics-employed-in-cancer-vaccines-and-their-progress monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490731825457-G7W3QXROEC9B8KP4PU8R/image-asset.jpeg 2014, June - Current Tactics Employed in Cancer Vaccines and Their Progress https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490731901099-PHTW1QE38PUQ24254MML/image-asset.png 2014, June - Current Tactics Employed in Cancer Vaccines and Their Progress Table 1. Strategies employed in cancer vaccines. https://www.jyi.org/2014-june/2017/3/28/the-effect-of-food-type-on-the-development-rate-of-the-danaid-eggfly monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732214888-BQDIK9LCTYG9S77R5DN9/image-asset.jpeg 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732291617-51TE6CFIH3X0ZQBAE858/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Table 1. Mean Number of Days of instar stages of Danaid eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida (± s.d.). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732335333-UPPL1ZA55UZH7HDI2DPR/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Figure 1. Number of Days from Egg to Pupa of Danaid eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida.The number of days to pupate (to transform from an egg to a pupa/cocoon) for individuals reared on P. oleracea vs. P. quadrifida. Those reared on P. oleracea spent from 12 to 15 days as larvae, while those reared on P. quadrifida spent from 13 to 17 days as larvae. One can infer that those reared on P. oleracea spent fewer days as larvae while those reared on P. quadrifida spent more time as larvae. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732398683-510J7QDSFT05V44NB7X3/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Figure 2. Mean Number of Days from Egg to Pupa of Danaid eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida (± s.d.).Individuals reared on P. oleracea spent an average of 12.85 ±0.93 days as larvae, while individuals reared on P. quadrifida spent an average of 15.1±1.4 days as larvae. It was determined that the difference in time spent as larvae between the two populations was statistically significant* (p=1.5x 10-5). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732474898-WHKD3J98K3XUKIW4JWFC/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Figure 3. Mean Pupal Weight of Danaid eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida (± s.d.). Individuals reared on P. oleracea had an average pupal weight of 0.62 ± 0.09 g while those reared on P. quadrifida had an average pupal weight of 0.62± 0.089g. It was determined the difference between pupal weights between the two populations was not statistically significant (p=0.684). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732541673-8TPVB9UAXH0ZY88CVPH3/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Table 2. Pupal Weight of Danaid eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida. The weight of the pupae/cocoons of individuals reared on P. oleracea versus P. quadrifida. For larvae reared on P. oleracea the range was between 0.50 g and 0.88 g, while for larvae reared on P. quadrifida the range was between 0.49 g and 0.73 g. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732581535-GNQ30UP4S9ELILAMSFCI/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Table 3. Survivorship of individuals reared on Portulaca oleracea versus Portulaca quadrifida. For the P. oleracea population three individuals died (3 and 10 from the experimental group and extra 2 from the non-experimental or back-up group). For the P. quadrifida population four individuals died (6, 11, and 12 from the experimental group and extra 3 from the non-experimental group). Those that died during the pupal period was due to the disturbance with the mouse* or due to human error** as described in the text. Individuals that died during the larval period were considered to determine the survivorship (regarding food type) between the two populations. It was determined that one specimen out of 25 (0.04%) larvae from the P. oleracea population (both experimental and non-experimental) died, while 12% of the specimens from the P. quadrifida group died. There may be a correlation between food type and survivorship; this should be analyzed in future studies. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732623079-ZM2YBI9MWNHPWATACERE/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Figure 4: Frequency of Days from Pupa to Adult of Danaid Eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida. The number of days for adults to emerge from pupae for individuals reared on P. oleracea versus P. quadrifida. The range was between 6 and 8 days for adults to emerge from the pupae for both populations reared on P. oleracea and P. quadrifida. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732661746-07EDLYB3YV0LI864PCS0/image-asset.png 2014, June - The Effect of Food Type on the Development Rate of the Danaid Eggfly Figure 5: Mean Number of Days from Pupa to Adult of Danaid Eggfly larvae fed Portulaca oleracea versus Portulaca quadrifida (± s.d.). Individuals reared on P. oleracea spent an average of 7.05 ±0.39 days as pupae, while individuals reared on P. quadrifida spent an average of 6.85 ±0.58 days as pupae. It was determined that the difference in time spent as pupae between the two populations was not statistically significant (p=0.199). https://www.jyi.org/2014-june/2017/3/28/dr-ronnie-guillet-on-neonatology monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490732859792-FHESJDENBT7YQ96B7IW5/image-asset.jpeg 2014, June - Dr. Ronnie Guillet on Neonatology https://www.jyi.org/2014-june/2017/3/28/mrs-sandra-eberhardt-page-on-teaching-high-school-biology monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490733056093-6XE7CCXTDE8D68IEBZMD/image-asset.png 2014, June - Mrs. Sandra Eberhardt-Page on Teaching High School Biology https://www.jyi.org/2014-june/2017/3/28/living-to-save-lives-the-career-of-a-paramedic monthly 0.5 2017-05-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490733228939-8MKIXML9F9IDKZCQFCXD/image-asset.jpeg 2014, June - Living to Save Lives: The Career of a Paramedic https://www.jyi.org/2014-june/2017/3/28/fifa-brings-physics-financial-boost-for-brazil monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490733355954-XE145NTGJHO15EHHYJ19/image-asset.jpeg 2014, June - FIFA Brings Physics Financial Boost For Brazil https://www.jyi.org/2014-june/2017/3/28/nanoparticles-designed-to-target-inflammation monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490733467587-WNI89WWM73O7EGPM8WPP/image-asset.jpeg 2014, June - Nanoparticles Designed to Target Inflammation https://www.jyi.org/2014-june/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-june/category/Research monthly 0.5 https://www.jyi.org/2014-june/category/Science+News monthly 0.5 https://www.jyi.org/2014-june/category/Interview monthly 0.5 https://www.jyi.org/2014-may daily 0.75 2017-03-30 https://www.jyi.org/2014-may/2017/3/29/association-of-music-with-stress-test-anxiety-and-test-grades-among-high-school-students monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837142953-HOA9P5VQ87G7U46GXLP0/image-asset.jpeg 2014, May - Association of Music With Stress, Test Anxiety, and Test Grades Among High School Students https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837261427-TI5FBN4PFGP0OB7PGJTE/image-asset.png 2014, May - Association of Music With Stress, Test Anxiety, and Test Grades Among High School Students Table 1. Demographics of the study sample. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837319784-Z9CB7DA60CS5FJWRQS61/image-asset.png 2014, May - Association of Music With Stress, Test Anxiety, and Test Grades Among High School Students Table 2: Association of ASQ and TAS domains with time spent listening to music and test grades https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837364178-9PFM83S77MRE93R3OOF5/image-asset.png 2014, May - Association of Music With Stress, Test Anxiety, and Test Grades Among High School Students Table 3: Comparisons of test grade, music listening, and ASQ and TAS domains by level of academic rigor. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837387906-1ZZLSW81DPCXE3GYI5KS/image-asset.png 2014, May - Association of Music With Stress, Test Anxiety, and Test Grades Among High School Students Table 4: comparisons of test grades, music listening and ASQ and TAS domain scores by gender. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837430676-3RLU9RKMED92JYM8M8TX/image-asset.png 2014, May - Association of Music With Stress, Test Anxiety, and Test Grades Among High School Students Table 5: Multivariate Analysis of the Predictors of Test Performance https://www.jyi.org/2014-may/2017/3/29/mirror-effects-on-feeding-black-capped-chickadees monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837728747-V6QEVFE4RC1W111OKLR7/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Figure 1. Field site locations indicated on a 1:54500 scale map of Vancouver, BC, Canada. The Dunbar sites include (1) East Road, (2) Valdez Park (3) Garage. UBC sites include (4) Buchanan (5) West Mall (6) Marine Drive, and (7) Rhodo Wood. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837816969-WYWHQ1EEEOX3TG19HUNY/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Table 1. Attachments to a feeder (none, glass, foil, or mirror) presented to Black-capped chickadees at each of the seven field sites in UBC and Dunbar areas in Vancouver, BC, Canada. An "x" indicates that data was collected for that treatment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837862624-ASY6Q83RHEDJMQTKFBUM/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Table 2. Description of object-directed behaviors scored as aggressive, exploratory, or other vocalizations. This was used to record Black-capped chickadee behaviors displayed towards the glass, foil, or mirror feeder attachments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837927456-07RFUR7OMYKI9GPD1ZZG/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Figure 2. Effect of treatment (none, glass, foil, or mirror mounted on a feeder) on mean visit time (seconds + s.e.) by Black-capped chickadees. Bars with the same letters are not statistically significant from each other. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837967371-C40ZOHTF7OUTR68R592X/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Figure 3. Effect of feeder attachment (none, glass, foil, or mirror mounted on a feeder) on mean number of seeds handled by Black- capped chickadees. The feeders were set up with no object, glass, foil, or mirror. Each bar shows the proportion of chickadees that took the given number of seeds. The proportions were calculated individually on data within each treatment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490837992031-GHIC42Z4CWL93DMQY7U8/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Figure 4. Effect of feeder attachment (none, glass, foil, or mirror mounted on a feeder) on mean feeder visitation rate (number of birds/10 min. + s.e.) by Black-capped chickadees. The 10-minute sample was measured from when the first chickadee landed on the feeder. Bars with the same letters are not statistically significant from one another. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838042948-19GWVI1493ZEJ840TSFQ/image-asset.png 2014, May - Mirror Effects on Feeding Black-Capped Chickadees (Poecile atricapillus) Table 3. Statistical outputs for Kruskal-Wallis (χ2), Pearson’s Chi-squared (χ2), and Spearman's rank correlation (r) tests for shown variables and response behaviors by Black-capped chickadees (*=significant at p < 0.05). The treatments consisted of either no feeder attachment (none), glass, foil, or mirror mounted on the feeder. https://www.jyi.org/2014-may/2017/3/29/prenatal-ethanol-exposure-affects-calbindin-expression-in-an-fasd-mouse-model monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838332254-DZQ810C9324WZ7VQPXOL/image-asset.jpeg 2014, May - Prenatal Ethanol Exposure Affects Calbindin Expression in an FASD Mouse Model https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838426626-SQQU9TWYTYISMM68PWWL/FinesmithFigure1.png 2014, May - Prenatal Ethanol Exposure Affects Calbindin Expression in an FASD Mouse Model Figure 1:Decreased calbindin immunostaining in cerebellum of P0 mice exposed to ethanol (A-F). Images of slices of whole mouse cerebella taken at 4X magnification (A-B) are labeled with an inset indicating the lobule section imaged at 40X magnification (C-F) for data collection and analysis. Calbindin immunostained P0 mouse cerebella exposed to tap water and ethanol, respectively at 4X magnification (A-B). Calbindin immunostained P0 mouse cerebellum exposed to tap water and ethanol, respectively at 40X magnification (C-D) and superimposed with 90 micron2 grid with unstained reference (highlighted in red) and regions of interets (ROIs) (highlighted in green) containing calbindin immunostained Purkinje cells (E-F). Based on visual observation, sections of P0 mouse cerebella prenatally exposed to ethanol (B, D, and F) appear to exhibit less intense calbindin immunostaining than controls exposed to tap water (A, C, and E). No differences in Purkinje cell number are discernable. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838506250-TLGC9ZI0PU9997PC9UF6/image-asset.png 2014, May - Prenatal Ethanol Exposure Affects Calbindin Expression in an FASD Mouse Model Table 1: Mean relative optical density (ROD), standard deviation (SD), sample size, and p-value of calbindin immunostaining of P0 mouse cerebella exposed to tap water and ethanol from each litter. Table of mean relative optical density (ROD), standard deviation, sample size, and p-value for each of the four calbindin immunostained P0 mouse cerebella observed. The ImageJ software program quantifies the light intensity of pixels along a continuum from 0 to 1. Darker pixels are represented by lower values with 0 representing the darkest intensity. The ROD of each grid square was calculated using the values extracted from ImageJ. The intensity of the calbindin immunostaining was determined based on the assumption that the darker the intensity of the stain, the greater the calbindin protein expression. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838573373-8Z67TRIN62CHBP820NX1/image-asset.png 2014, May - Prenatal Ethanol Exposure Affects Calbindin Expression in an FASD Mouse Model Figure 2: Increased relative optical density (ROD) of calbindin immunostaining in cerebella of P0 mice exposed to ethanol. Graph of mean relative optical density (ROD) of combined calbindin immunostained samples of P0 mouse cerebella prenatally administered tap water and ethanol. The ImageJ software program quantifies the light intensity of pixels along a continuum from 0 to 1. Darker pixels are represented by lower values with 0 representing the darkest intensity. The ROD of each grid square was calculated using the values extracted from ImageJ. The intensity of the calbindin immunostaining was determined based on the assumption that the darker the intensity of the stain, the greater the calbindin protein expression. A non-directional Mann-Whitney U test indicated that ethanol exposed mice had a significantly higher mean ROD of calbindin immunostaining (mean=0.431, sample size (n)=32 grid squares containing calbindin immunostained Purkinje cells) than controls (mean=0.369, (n)=24 grid squares containing calbindin immunostained Purkinje cells; p-value=.0083). Error bars indicate standard deviation. *Indicates statistical significance. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838626403-UBJEFV3DTI5XDFEFGYRH/image-asset.png 2014, May - Prenatal Ethanol Exposure Affects Calbindin Expression in an FASD Mouse Model Table 2: Mean cell count, standard deviation (SD), sample size, and p-value of calbindin immunostaining of P0 mouse cerebella exposed to tap water and ethanol from each litter. Table of mean cell count, standard deviation, sample size, and p-value for each of the four calbindin immunostained P0 mouse cerebella observed. Data was collected using automated cell counting in the ImageJ software program and analyzed using Microsoft Excel and Vassar Stats. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838669338-PYS6QMX8UHQT5XVPJN5U/image-asset.png 2014, May - Prenatal Ethanol Exposure Affects Calbindin Expression in an FASD Mouse Model Figure 3: No difference in cell count in calbindin stained cerebella of P0 mice exposed to ethanol. Graph of mean cell count of calbindin immunostained sections of P0 mouse cerebella prenatally administered tap water and ethanol. Values were determined using automated cell counting in ImageJ. A non-directional Mann-Whitney U tests indicated that ethanol exposed mice did not have significantly different numbers of calbindin stained cells (mean=39.375, sample size (n)=8 images containing calbindin stained cells) than controls (mean=27.00, (n)=6 images containing calbindin stained cells; p=0.0819). Error bars indicate standard deviation. https://www.jyi.org/2014-may/2017/3/29/forensic-anthropologists-have-a-bone-to-pick-with-tv-crime-shows monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490838925952-VGPBY1CP8Z22JCO5RG3M/image-asset.jpeg 2014, May - Forensic Anthropologists Have a Bone to Pick With TV Crime Shows https://www.jyi.org/2014-may/2017/3/29/careers-in-environmental-consulting monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490839162290-Y6E7VVKT4NI2AX8X9B3J/image-asset.jpeg 2014, May - Careers in Environmental Consulting https://www.jyi.org/2014-may/2017/3/29/assisting-in-the-field-a-true-research-adventure monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490839343404-KXCB1DB9ODXJWR1RI62M/image-asset.jpeg 2014, May - Assisting in the Field: A True Research Adventure https://www.jyi.org/2014-may/2017/3/29/msu-team-studies-ecosystem-response-to-wenchun-earthquake monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490839512385-WQK58MJJCRPPCSZ2R1J4/image-asset.jpeg 2014, May - MSU Team Studies Ecosystem Response to Wenchun Earthquake https://www.jyi.org/2014-may/2017/3/29/taking-down-type-2-diabetes-a-defective-gene-reveals-protective-potential monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490839627685-7DMXSQ7TETF0IBJJ1RDN/image-asset.jpeg 2014, May - Taking Down Type 2 Diabetes: A Defective Gene Reveals Protective Potential https://www.jyi.org/2014-may/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-may/category/Research monthly 0.5 https://www.jyi.org/2014-may/category/Science+News monthly 0.5 https://www.jyi.org/2014-april daily 0.75 2017-03-30 https://www.jyi.org/2014-april/2017/3/29/the-teaching-career-column-teaching-history-in-the-science-classroom monthly 0.5 2017-05-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490839913368-G2PDZORW6BFWWZ2MRTW4/image-asset.jpeg 2014, April - The Teaching Career Column: Teaching History in the Science Classroom https://www.jyi.org/2014-april/category/Science+Careers monthly 0.5 https://www.jyi.org/2014-march daily 0.75 2017-03-30 https://www.jyi.org/2014-march/2017/3/29/the-rna-hotair-promotes-chromatin-alteration-in-cancer monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840067222-W2NMDRFZATPUA2YUC991/image-asset.jpeg 2014, March - The RNA HOTAIR Promotes Chromatin Alteration in Cancer https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840143606-X7KQC6ZPVPA5KZ0IBPSS/image-asset.png 2014, March - The RNA HOTAIR Promotes Chromatin Alteration in Cancer Figure 1: Mechanism of Xist RNA X chromosome inactivation by recruitment of PRC2. RepA RNA stays bound, allowing PRC2 recruitment to the X-chromosome. (Lee, 2010) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840193992-8GIS3CMLL1SUBY3TDIBU/image-asset.png 2014, March - The RNA HOTAIR Promotes Chromatin Alteration in Cancer Table 1: Examples of lncRNAs in humans. (Adapted from Esteller, 2011) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840241109-FFO0ZOHCAMQ2XXLTZA8M/image-asset.png 2014, March - The RNA HOTAIR Promotes Chromatin Alteration in Cancer Figure 2: HOTAIR forms a bridge between polycomb repressive complex (PRC2) and histone lysine demethylase (LSD1), creating a molecular scaffold for the protein complexes to induce post-translational modifications (PTMS). PRC2 mediates PTMs while LSD1 inhibits them. (De Lucia & Dean, 2011) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840295032-14KTCIL2GR0XV10OSQ7B/image-asset.png 2014, March - The RNA HOTAIR Promotes Chromatin Alteration in Cancer Figure 3: Mechanism of breast cancer metastasis by HOTAIR. The PRC2 complex contains the subunits EZH2, SUZ12, EED associate with lincRNA HOTAIR and form a bridge with LSD1, CoREST, and REST inducing methylation and heterochromatin formation. This inhibits the transcription of the metastasis suppressor genes, PCDH10, PCDHB5, and JAM2, allowing metastasis to ensue. (Croce, 2010) https://www.jyi.org/2014-march/category/Research monthly 0.5 https://www.jyi.org/2014-february daily 0.75 2017-03-30 https://www.jyi.org/2014-february/2017/3/29/student-debt-and-perceptions-of-preparedness-for-employment-or-higher-education monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840577289-YON3SHOMHVJHEUQ6CGUY/image-asset.jpeg 2014, February - Student Debt and Perceptions of Preparedness for Employment or Higher Education https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840666488-05UCV1DGFNMUMGVGO3R6/image-asset.png 2014, February - Student Debt and Perceptions of Preparedness for Employment or Higher Education Table 1: Multiple Regression Analysis of Feelings of Preparedness for Employment and Higher Education as Predictors of Emotional and Physical Health * p <0.05, ** p <0.0011R² = 0.04, p <0.001, N = 12,432; 2 R² = 0.03, p <0.001, N = 14,725; 3 R² = 0.02, p <0.001, N = 12,424; 4 R² = 0.02, p <0.001, N = 14,716; 5 R² = 0.04, p <0.001, N = 9,379; 6 R² = 0.03, p <0.001, N = 10,828; 7 R² = 0.02, p <0.001, N = 9,371; 8 R² = 0.02, p <0.001, N = 10,820. https://www.jyi.org/2014-february/category/Research monthly 0.5 https://www.jyi.org/2014-january daily 0.75 2017-03-30 https://www.jyi.org/2014-january/2017/3/29/an-fmri-study-of-a-dyslexia-biomarker monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840889629-2R0N1R8PXMODS1SLOQ2D/fMRIFig1.png 2014, January - An fMRI Study of a Dyslexia Biomarker Figure 1: Differences between children with dyslexia and typical readers in words reading in fMRI (while using a contrast of words > pseudohomophones). T-test analysis for the brain activation of the two groups was performed. The analysis (p < .001, corrected) shows that a typical readers are using their left side of their brain more intensively, while individuals with dyslexia show more right-lateralized spread activation and greater activation in the frontal and occipital regions. Slice thickness is 5mm for these contiguous slices. Slices range from z=22 to z=35 in the Talairach frame. The hot color represents a more intense activation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490840940077-7HGUHCRBM5C28WTEHOO2/image-asset.png 2014, January - An fMRI Study of a Dyslexia Biomarker Table 1: The group composite contrast (Words reading> Pseudohomophones reading). The table displays the activated anatomical regions, their Brodmann’s areas (BA), and the coordinates of these regions during a words reading (contrasted with pseudohomophones) task for typical readers and children with dyslexia. Readers with dyslexia showed greater and more spread activation as well as greater right-lateralized activation than typical readers while reading words. https://www.jyi.org/2014-january/category/Research monthly 0.5 https://www.jyi.org/2013-december daily 0.75 2017-06-25 https://www.jyi.org/2013-december/2017/6/25/broccoli-and-its-ilk-confer-protection-from-ionizing-radiation monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504626671990-GUNECOSYW1HSV9T21D1D/Dec_2013_1.jpg 2013, December - Broccoli and Its Ilk Confer Protection From Ionizing Radiation https://www.jyi.org/2013-december/category/Science+News monthly 0.5 https://www.jyi.org/2013-november daily 0.75 2017-06-25 https://www.jyi.org/2013-november/2017/6/25/us-supreme-court-expands-antitrust-liability-for-reverse-payment-arrangements-between-drugmakers monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498406538597-FAF6ZJUMCS9E3BXH51WS/image-asset.jpeg 2013, November - U.S. Supreme Court Expands Antitrust Liability for Reverse-Payment Arrangements Between Drugmakers https://www.jyi.org/2013-november/category/Features monthly 0.5 https://www.jyi.org/2013-october daily 0.75 2017-06-26 https://www.jyi.org/2013-october/2017/6/25/native-windbreaks-support-greater-understory-plant-diversity-in-monteverde-costa-rica monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498435948962-6OGXG4JVPF7W18TCZACP/image-asset.jpeg 2013, October - Native Windbreaks Support Greater Understory Plant Diversity in Monteverde, Costa Rica https://www.jyi.org/2013-october/category/Research monthly 0.5 https://www.jyi.org/2013-september daily 0.75 2017-06-26 https://www.jyi.org/2013-september/2017/6/25/development-of-planetocentric-reference-frames-to-model-the-flyby-anomaly monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498436334665-GIYU1T45S6D11SCSTHVB/image-asset.jpeg 2013, September - Development of Planetocentric Reference Frames to Model the Flyby Anomaly https://www.jyi.org/2013-september/category/Research monthly 0.5 https://www.jyi.org/2013-august daily 0.75 2017-06-26 https://www.jyi.org/2013-august/2017/6/25/the-journalcareer-centernewsparticipateabout-us-targeting-the-interleukin-8-signaling-pathway-in-colorectal-cancer monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498436606791-O58PWFAS302CA9C77AAB/image-asset.jpeg 2013, August - Targeting the Interleukin-8 Signaling Pathway in Colorectal Cancer https://www.jyi.org/2013-august/2017/6/25/diurnal-variation-of-visual-short-term-memory monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498436575499-WZ62SUTSTA75QDB7O21A/image-asset.jpeg 2013, August - Diurnal Variation of Visual 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https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498440205142-ZFL6PQWOTEGJTQPHYCCH/image-asset.jpeg 2013, March - Modeling Energy Band Gap as a Function of Optical Electronegativity for Binary Oxides https://www.jyi.org/2013-march/2017/6/25/neurotheology-neuroscience-of-the-soul monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498439987815-982TYD5JF1CKJHHKSQUQ/image-asset.jpeg 2013, March - Neurotheology: Neuroscience of the Soul https://www.jyi.org/2013-march/2017/6/25/taking-time-off-research-assistant-opportunities monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1498442064348-CU9GR9QHF40T5H3USNIE/image-asset.jpeg 2013, March - Taking Time Off: Research Assistant Opportunities https://www.jyi.org/2013-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2013-march/category/Research monthly 0.5 https://www.jyi.org/2013-march/category/Science+News monthly 0.5 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February - Working with Classified Materials: Why All the Secrecy? https://www.jyi.org/2013-february/2017/7/3/applying-for-government-jobs monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1499097527140-6RGGHGPS5DMYZCAW0BWV/image-asset.jpeg 2013, February - Applying for Government Jobs https://www.jyi.org/2013-february/2013/2/7/the-effects-of-increased-acidity-on-the-shell-integrity-and-body-size-of-c-virginica monthly 0.5 2018-01-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504799231839-DUURRGOFRRNEL4G4RDRP/129574444_1c73061934.jpg 2013, February - The Effects of Increased Acidity on the Shell Integrity and Body Size of C. virginica https://www.jyi.org/2013-february/2017/7/3/basics-of-the-government-pay-scale-grades-levels-steps monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1499096597186-DDXBEN2OUTKL8OPFZUDX/image-asset.jpeg 2013, February - Basics of the Government Pay Scale: Grades, levels, steps? https://www.jyi.org/2013-february/2017/7/3/getting-into-graduate-school monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1499096059341-SH0LW37EWB2777CQBOAE/image-asset.jpeg 2013, February - Getting into Graduate School https://www.jyi.org/2013-february/2017/7/3/investigating-the-truth-behind-csi monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1499095705694-XXFX5H58G85OUGHQNXB9/image-asset.jpeg 2013, February - Investigating the Truth Behind CSI https://www.jyi.org/2013-february/2017/7/3/gene-therapy-for-the-heart-biological-pacemakers-work-without-surgery-batteries-or-wires monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1499094646103-DI439QBXJ8GET6XZWBE5/image-asset.jpeg 2013, February - Gene Therapy for the Heart: Biological Pacemakers Work Without Surgery, Batteries or Wires https://www.jyi.org/2013-february/2013/2/1/whats-it-like-to-work-at-a-national-laboratory monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504796577822-HPOZ93WJTYWW9KY78CIK/Laboratory1-1024x651.jpg 2013, February - What’s it like to work at a national laboratory? https://www.jyi.org/2013-february/2013/2/1/dr-francis-collins-on-biomedical-research-at-the-national-institutes-of-health monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504796058009-PKE2363WM7D8Y54W75SH/FrancisCollins13-751x1024.jpg 2013, February - Dr. Francis Collins on Biomedical Research at the National Institutes of Health https://www.jyi.org/2013-february/2017/7/3/java-becomes-target-for-crimeware monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1499094494928-ZJ87D8RR4HFEB3EMFJDM/image-asset.jpeg 2013, February - Java Becomes Target for Crimeware https://www.jyi.org/2013-february/category/Science+Careers monthly 0.5 https://www.jyi.org/2013-february/category/Features monthly 0.5 https://www.jyi.org/2013-february/category/Science+News monthly 0.5 https://www.jyi.org/2013-february/category/Research monthly 0.5 https://www.jyi.org/2013-february/category/Interviews monthly 0.5 https://www.jyi.org/2013-january daily 0.75 2017-09-07 https://www.jyi.org/2013-january/2017/9/7/malingering-detection-in-memory-deficits-an-evaluation monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504799904590-XAE40A9Y9WO08ZT5TMIS/8135755109_93f9bd833c.jpg 2013, January - Malingering Detection in Memory Deficits: An Evaluation https://www.jyi.org/2013-january/2017/9/7/shelf-life-and-variances-in-antimicrobial-properties-of-honey-from-m-bocandei-and-m-ferruginea-in-central-ghana monthly 0.5 2018-01-11 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https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504800720941-884ILTYTZKOLRDGWITOD/file0001888695699.jpg 2013, January - Careers in Industry: An Overview https://www.jyi.org/2013-january/2017/9/7/careers-in-government-an-overview monthly 0.5 2018-01-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504800544596-LDTS3IOZIUF2LU97A5GT/file00018534142-1024x766.jpg 2013, January - Careers in Government: An Overview https://www.jyi.org/2013-january/2013/1/7/careers-in-science-communication-an-overview monthly 0.5 2018-01-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1504800379533-WD0ER8OVADHTUM6EN1CG/file00018534142-1024x766.jpg 2013, January - Careers in Science Communication: An Overview https://www.jyi.org/2013-january/category/Science+Careers monthly 0.5 https://www.jyi.org/2013-january/category/Research monthly 0.5 https://www.jyi.org/2012-december daily 0.75 2017-07-31 https://www.jyi.org/2012-december/2017/3/31/transformation-of-heat-energy-into-mechanical-work-at-low-environmental-pollution monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490978251673-8DI25GNN7QQKGXU1WJ9R/image-asset.jpeg 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490978869634-Q2XFYQPA3V3HHC4LCKRD/A9R1qcn1uc_74wp1n_5s8.jpg 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution Figure 1 A scheme of Diesel and Stirling engine https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1490978899178-01EUGK2005AWY4T5ZU5O/image-asset.jpeg 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution Figure 2 Ideal Diesel cycle 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https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491488866566-CA6RJE8YRS5MG49YP82S/image-asset.png 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution Figure 5 Thermal efficiency of Stirling engine in dependence of maximal cycle temperature and various temperature differences https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491489077632-HQ5IZGI5J1BS5AEXUU18/image-asset.png 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491489089636-94VBK1OR1WZFIYVFAO9N/image-asset.png 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491489212842-UEX8QCEH2PK1RPRIN388/image-asset.jpeg 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution Figure 6 Details of the Stirling engine https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491489351826-MWHI2M7LNEL0TIV6K644/image-asset.png 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491489451548-ZQKWTQK9841TXHB3D023/image-asset.jpeg 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution Figure 7 The characteristic phases of real Stirling engine cycle https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491489538136-FYIMWNCVP97YAB3IZTVH/image-asset.png 2012, December - Transformation of Heat Energy into Mechanical Work at Low Environmental Pollution Table 1 Comparison of Diesel and Stirling engine characteristics https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1491490011996-R8ITLBJB58GB78ADWI54/image-asset.jpeg 2012, December - Transformation 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https://www.jyi.org/2011-march/2017/9/28/computer-modeling-of-drug-delivery-to-the-brain monthly 0.5 2018-01-17 https://www.jyi.org/2011-march/2011/3/28/cloning-sequencing-and-evaluation-of-the-tubulin-gene-from-leishmania-donovani-as-a-reference-gene-for-rt-qpcr monthly 0.5 2018-11-12 https://www.jyi.org/2011-march/category/Research monthly 0.5 https://www.jyi.org/2011-february daily 0.75 2017-09-28 https://www.jyi.org/2011-february/2011/2/28/2011-jyi-virtual-poster-session-results monthly 0.5 2018-01-17 https://www.jyi.org/2011-february/2011/2/28/a-peek-into-the-mind-of-a-nobel-laureate-an-exclusive-interview-with-sir-harry-kroto monthly 0.5 2018-01-17 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506626834861-TPFUSSI8DMXLVRSXMICJ/img4.jpeg 2011, February - A Peek into the Mind of a Nobel Laureate: An Exclusive Interview with Sir Harry Kroto A sketch of a frog, by Sir Harry Kroto. Image courtesy of Sir Harry Kroto. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506626883694-YGJR7O7JYVLTEJ0HT292/img3.jpeg 2011, February - A Peek into the Mind of a Nobel Laureate: An Exclusive Interview with Sir Harry Kroto Founders of the Buckyball Back: Robert Curl (Rice University) Left to Right Front Row: Jim Heath (Graduate Student, now a full professor at Caltech), Richard Smalley (Rice University), Sir Harry Kroto (Florida State University, University of Sussex), Sean O'Brien (Graduate Student, now works at Texas Instrument) Image courtesy of Sir Harry Kroto. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506626986103-R7KKZ8L6PEU2VT00J735/img0.jpeg 2011, February - A Peek into the Mind of a Nobel Laureate: An Exclusive Interview with Sir Harry Kroto The dome of Robert Buckminster Fuller at the Expo in 1967. Image courtesy of Sir Harry Kroto. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506627052019-05029P4DXYPX0G9U8SOJ/img1.jpeg 2011, February - A Peek into the Mind of a Nobel Laureate: An Exclusive Interview with Sir Harry Kroto Buckyball Workshop. Image courtesy of Sir Harry Kroto. 1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506627080957-VN43KNHMT05YW5RZ33D1/img2.jpeg 2011, February - A Peek into the Mind of a Nobel Laureate: An Exclusive Interview with Sir Harry Kroto Buckyball Workshop. Image courtesy of Sir Harry Kroto. 2 https://www.jyi.org/2011-february/2017/9/28/role-of-s-nitrosoglutathione-and-hydrogen-peroxide-on-cathepsin-d-chemical-modification-and-function monthly 0.5 2018-06-01 https://www.jyi.org/2011-february/2011/2/28/relative-importance-of-physical-constraints-on-decomposition monthly 0.5 2018-01-17 https://www.jyi.org/2011-february/category/Features monthly 0.5 https://www.jyi.org/2011-february/category/Research monthly 0.5 https://www.jyi.org/2011-january daily 0.75 2017-09-28 https://www.jyi.org/2011-january/2011/1/28/2011-jyi-virtual-poster-session-results monthly 0.5 2018-06-01 https://www.jyi.org/2011-january/2011/1/28/correlating-video-games-to-dream-recall-frequency monthly 0.5 2018-01-23 https://www.jyi.org/2011-january/2017/9/28/characterization-of-ldlip3-enzyme-activity-from-leishmania-donovani monthly 0.5 2018-01-17 https://www.jyi.org/2011-january/category/Features monthly 0.5 https://www.jyi.org/2011-january/category/Research monthly 0.5 https://www.jyi.org/2010-december daily 0.75 2017-09-30 https://www.jyi.org/2010-december/2010/12/28/the-effects-of-the-city-of-jonesboro-arkansas-on-the-aqueous-geochemistry-of-two-local-streams monthly 0.5 2018-10-13 https://www.jyi.org/2010-december/2010/12/28/methicillin-resistant-staphylococcus-aureus-the-deadly-superbug monthly 0.5 2018-10-13 https://www.jyi.org/2010-december/category/Research monthly 0.5 https://www.jyi.org/2010-november daily 0.75 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/a-fashion-spin-on-same-sex-rivalry monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/the-bending-universe monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/combining-two-cancer-drugs-may-help-fight-hiv monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/genetic-material-found-acting-the-role-of-protein-is-it-a-view-into-early-life monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/drug-may-combat-the-effects-of-neurodegenerative-condition-of-diabetes monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/recalibrating-the-cosmic-clock monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/scientists-discover-a-planet-with-a-tail monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/geneticists-fight-fungi-on-cacao-plants monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2010/11/28/new-study-offers-insights-into-genetic-susceptibility-to-tuberculosis monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2011/11/28/a-cellular-armor-offers-hope-for-combating-hivaids monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2011/11/28/adhd-diagnosis-rates-significantly-affected-by-birth-dates-school-enrollment-dates monthly 0.5 2017-09-30 https://www.jyi.org/2010-november/2011/11/28/threat-of-ocean-acidification-to-echinoderms monthly 0.5 2017-09-30 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792521369-1EMXE7JG4BRMDJF95GOL/img0+%281%29.png 2010, November - Threat of Ocean Acidification to Echinoderms Image Courtesy of: NOAA (National Estuarine Research Reserve Collection) http://www.photolib.noaa.gov/nerr/nerr0878.htm https://www.jyi.org/2010-november/2011/11/28/synthetic-biology-an-era-of-promised-uncertainty monthly 0.5 2017-09-30 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792004912-TTXNDSJD1416MNOIIAVJ/img0.png 2010, November - Synthetic Biology: An Era of Promised Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792077609-ZUMGCIBJLP25ZULGJ40Q/img2.png 2010, November - Synthetic Biology: An Era of Promised Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792159696-6MVOAXTQEEIV4NU9M8V1/img1.png 2010, November - Synthetic Biology: An Era of Promised Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792202500-20NFYG3K8ABTUNV7B79G/image-asset.png 2010, November - Synthetic Biology: An Era of Promised Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792256395-MLHD3M0VQNZ5UX0RIZKS/img4.png 2010, November - Synthetic Biology: An Era of Promised Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506792322934-QPYZCPYBP9E5ZTK8QH85/img5.png 2010, November - Synthetic Biology: An Era of Promised Uncertainty https://www.jyi.org/2010-november/2010/11/28/the-science-and-psychology-behind-music-and-emotion monthly 0.5 2018-10-13 https://www.jyi.org/2010-november/2010/11/28/effects-of-lithium-on-sediment-microbial-activity monthly 0.5 2018-10-13 https://www.jyi.org/2010-november/category/Features monthly 0.5 https://www.jyi.org/2010-november/category/Research monthly 0.5 https://www.jyi.org/2010-november/category/Science+News monthly 0.5 https://www.jyi.org/2010-october daily 0.75 2017-10-01 https://www.jyi.org/2010-october/2010/10/28/diabetes-and-obesity-identification-of-a-master-regulator-offers-hopes-for-more-effective-treatments monthly 0.5 2017-10-01 https://www.jyi.org/2010-october/2010/10/28/new-technique-to-create-customizable-joints-discovered monthly 0.5 2017-10-01 https://www.jyi.org/2010-october/2010/10/28/researchers-take-one-step-closer-to-living-forever-young monthly 0.5 2017-10-01 https://www.jyi.org/2010-october/2010/10/28/estrogen-could-prevent-brain-aneurysms-in-post-menopausal-women monthly 0.5 2017-10-01 https://www.jyi.org/2010-october/2010/10/28/two-point-correlation-function-and-monte-carlo-simulations-of-clustering-properties-of-manganese-populated-areas-in-scandium-nitride-system monthly 0.5 2018-10-13 https://www.jyi.org/2010-october/2010/10/28/pain-quality-and-endurance-in-the-context-of-sacrifice-an-empirical-investigation monthly 0.5 2018-10-13 https://www.jyi.org/2010-october/2010/10/28/characterizing-thyroid-depression-interactions-an-interdisciplinary-approach monthly 0.5 2018-10-13 https://www.jyi.org/2010-october/category/Research monthly 0.5 https://www.jyi.org/2010-october/category/Science+News monthly 0.5 https://www.jyi.org/2010-september daily 0.75 2017-10-01 https://www.jyi.org/2010-september/2010/9/28/paleontology-and-why-it-matters-now monthly 0.5 2017-10-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506825113951-D9HB4XBFS5SFGQMX6DSS/img0.jpeg 2010, September - Paleontology and Why it Matters Now Figure 1 The Geological Time Scale Credit: U.S. Geological Survey Department of the Interior/USGS http:// geomaps.wr.usgs.gov/ https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1506825159799-28OFEM7GESPIXZSSFWQ8/img1.jpeg 2010, September - Paleontology and Why it Matters Now Figure 2 Plankton Bloom Near Hokkaido, Japan Credit: NASA image by Norman Kuring MODIS Ocean Color Team http://earthobservatory.nasa.gov/IOTD/view.php?id=38917 https://www.jyi.org/2010-september/2010/9/28/the-impact-of-population-immunity-on-antigenic-drift-during-large-epidemics-and-small-outbreaks monthly 0.5 2018-10-13 https://www.jyi.org/2010-september/2010/9/28/mitigation-through-the-use-of-a-near-shore-undersea-trench-a-physical-and-mathematical-model monthly 0.5 2018-11-12 https://www.jyi.org/2010-september/category/Features monthly 0.5 https://www.jyi.org/2010-september/category/Research monthly 0.5 https://www.jyi.org/2010-august daily 0.75 2017-10-06 https://www.jyi.org/2010-august/2010/8/6/the-boeing-787-dreamliner-designing-an-aircraft-for-the-future monthly 0.5 2017-10-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507305586145-9162WKP0SGBZWW9SV97M/img0.jpeg 2010, August - The Boeing 787 Dreamliner: Designing an Aircraft for the Future The final assembly of the fifth Boeing 787 began early in May 2008. Delays withstanding, consumers can expect to see these aircrafts in service in late 2010. Image copyright of Boeing. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507305741380-73XXPPY2RMST593OYK9L/img1.jpeg 2010, August - The Boeing 787 Dreamliner: Designing an Aircraft for the Future As evidenced by the 787 Dreamliner composite fuselage section, the use of composite materials reduces the number of components needed in the aircraft and improve the aerodynamic performance of the aircraft. The fuselage section composes of a single, full composite barrel with integrated stringers. Image copyright of Boeing. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507305806112-4T1KTKM51RLA6B0ZWDPE/img2+%281%29.jpeg 2010, August - The Boeing 787 Dreamliner: Designing an Aircraft for the Future Flight testing for the 787 Dreamliner began in December 2009. The first test flight lasted 3 hours, 6 minutes and marked the beginning of a rigourous test flight program that will last throughout 2010. Image copyright of Boeing. https://www.jyi.org/2010-august/2010/8/6/the-jyi-research-department-award-2009-2010 monthly 0.5 2017-10-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507305041037-EGLEDPZ8U27RATYVM0CK/img0.jpeg 2010, August - The JYI Research Department Award, 2009 – 2010 Selina Dobing https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507305090974-ZPGWKCGI3AUVQP2YJDIH/img1.jpeg 2010, August - The JYI Research Department Award, 2009 – 2010 Akshay with 2005 Nobel Prize for Medicine Winner Dr Robin Warren https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507305218011-5CFX89CF5JEU4KD58UN5/img2.jpeg 2010, August - The JYI Research Department Award, 2009 – 2010 Benjamin Lu https://www.jyi.org/2010-august/2010/8/6/presence-of-an-audience-influences-habitat-use-in-male-guppies-poecilia-reticulate monthly 0.5 2018-10-13 https://www.jyi.org/2010-august/2010/8/6/in-vitro-method-to-quantify-uv-mediated-dna-damage monthly 0.5 2018-10-13 https://www.jyi.org/2010-august/2010/8/6/grafting-capsicum-to-tomato-rootstocks monthly 0.5 2018-10-13 https://www.jyi.org/2010-august/category/Features monthly 0.5 https://www.jyi.org/2010-august/category/Research monthly 0.5 https://www.jyi.org/2010-july daily 0.75 2017-10-06 https://www.jyi.org/2010-july/2010/7/6/evolution-of-raised-guarding-behaviour-in-meerkats-suricata-suricatta monthly 0.5 2018-11-12 https://www.jyi.org/2010-july/2010/8/6/a-study-on-the-epidemiological-and-microbiological-aspects-of-keratomycosis-hyderabad-south-india monthly 0.5 2018-11-12 https://www.jyi.org/2010-july/category/Research monthly 0.5 https://www.jyi.org/2010-june daily 0.75 2017-10-07 https://www.jyi.org/2010-june/2010/6/7/integration-of-treatment-for-tb-and-hiv-patients-deemed-crucial monthly 0.5 2018-11-12 https://www.jyi.org/2010-june/2010/6/7/regeneration-of-insulin-producing-cells-in-the-pancreas-a-new-hope-for-diabetic-treatment monthly 0.5 2017-10-07 https://www.jyi.org/2010-june/2010/6/7/how-will-your-chapter-end monthly 0.5 2017-10-07 https://www.jyi.org/2010-june/2010/6/7/the-effect-of-extracts-of-piper-guineense-seeds-on-insect-pest-damage-to-cowpea-plants monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507387873099-N7OLZ46MKSIPK2FZ472W/image-asset.jpeg 2010, June - The Effect of Extracts of Piper guineense Seeds on Insect Pest Damage to Cowpea Plants Figure 1: Field site at the University of Cape Coast near the botanical gardens. The image depicts the three blocks of beds where seedlings were planted and treatments applied. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507387952516-7B32WVTUSWVZNHVUW0AI/img1.jpeg 2010, June - The Effect of Extracts of Piper guineense Seeds on Insect Pest Damage to Cowpea Plants Figure 2: Diagram of field layout illustrating each bed and its randomized treatment. Each block contains the following treatments: stock aqueous solution, 80% stock solution, 60% stock solution, ethanol extract, and control. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507388000959-Z8U2T7AI1KM0XXHZOP78/img2.jpeg 2010, June - The Effect of Extracts of Piper guineense Seeds on Insect Pest Damage to Cowpea Plants Figure 3: Vigna unguiculata (cowpea) seedling with insect pest damage. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507388043150-XP7JAC0SPX0GOIP9PCCW/img3.jpeg 2010, June - The Effect of Extracts of Piper guineense Seeds on Insect Pest Damage to Cowpea Plants Figure 4: Zonocerus variegatus (variegated grasshopper) feeding on a cowpea seedling. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507388161175-1ZU573GYMR95R2UOZOMC/img4.gif 2010, June - The Effect of Extracts of Piper guineense Seeds on Insect Pest Damage to Cowpea Plants Figure 5: Percentage of leaves containing insect damage by treatment over time. The percentage includes seedlings in all three replicates for each treatment and is based on daily observation. Days 1 through 5 (July 24-28) refer to days on which spraying occurred while days 7 through 12 (July 30-August 4) were observed in the period following spraying. Observations were not made on day 6 (July 29). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507388219484-KABDJJ1ULR18YIE9U0HV/img5.gif 2010, June - The Effect of Extracts of Piper guineense Seeds on Insect Pest Damage to Cowpea Plants Figure 6: Average (mean) height of seedlings by treatment over time. Measurements taken on days 1 through 7 (July 17-23) preceded application of the treatments. Days 9 through 11 (July 25-27) were within the spraying period, and measurements on days 15 through 19 (July 31-August 4) followed the spraying period. Height measurements were made every other day (excluding day 13 (July 29) and day 17 (August 2) due to rain). https://www.jyi.org/2010-june/category/Features monthly 0.5 https://www.jyi.org/2010-june/category/Research monthly 0.5 https://www.jyi.org/2010-june/category/Science+News monthly 0.5 https://www.jyi.org/2010-may daily 0.75 2017-10-07 https://www.jyi.org/2010-may/2010/5/7/new-communication-paradigm-for-science-in-the-21st-century monthly 0.5 2017-10-07 https://www.jyi.org/2010-may/2010/5/7/lsdnsw37sed0xqwiwmtt9b984ebxaz monthly 0.5 2017-10-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507389139458-5JYHWAOOXTAWWQVM1MUM/img0.png 2010, May - Mars: Potential for Life? Flow of a sample through SAM http://ael.gsfc.nasa.gov/marsSAM.shtml https://www.jyi.org/2010-may/2010/5/7/exercise-science-awareness-among-trainers-of-fitness-clubs-in-north-delhi-india monthly 0.5 2018-10-21 https://www.jyi.org/2010-may/2010/5/7/habitat-utilization-patterns-of-deer-mice-peromyscus-maniculatus-in-big-creek-reserve-big-creek-california monthly 0.5 2018-10-21 https://www.jyi.org/2010-may/category/Features monthly 0.5 https://www.jyi.org/2010-may/category/Research monthly 0.5 https://www.jyi.org/2010-april daily 0.75 2017-10-07 https://www.jyi.org/2010-april/2010/4/7/artificial-intelligence-no-its-time-for-artificial-leaf monthly 0.5 2017-10-07 https://www.jyi.org/2010-april/2010/4/7/reflections-on-the-2010-aaas-conference monthly 0.5 2017-10-07 https://www.jyi.org/2010-april/2010/4/7/skewing-the-perceptron-modeling-the-importance-of-system-level-manipulation-when-investigating-long-term-potentiation monthly 0.5 2018-10-21 https://www.jyi.org/2010-april/category/Features 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at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508032075013-L1PAHSX40K44CI1KX0JW/Table.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772101745-M9MMURN7QH912UI20Q92/Figure+1.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508031928642-2WYP9JMMR6PBR27DCXQF/Figure_3.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508031827442-2K0QRZXM9JVCUV2F2I8H/Figure_5.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508031872060-8W28V5DF5HCIE2DI2YGW/Figure_7.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508031966830-DKT8BZNRPNEAV4PY8B37/Figure_9.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508032158686-2MAMWYKA3QYIYN1OJ71Q/Appendix.jpg 2009, March - Seaweed and Associated Invertebrates at Iture Rocky Beach, Cape Coast, Ghana https://www.jyi.org/2009-march/2017/10/14/asteroid-comes-close-to-home monthly 0.5 2017-10-18 https://www.jyi.org/2009-march/category/Features monthly 0.5 https://www.jyi.org/2009-march/category/Research monthly 0.5 https://www.jyi.org/2009-march/category/Science+News monthly 0.5 https://www.jyi.org/2009-february daily 0.75 2017-10-08 https://www.jyi.org/2009-february/2017/10/7/bird-flu-reemerges-in-china monthly 0.5 2017-10-18 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https://www.jyi.org/2008-december/2017/10/24/visit-with-the-senior-research-editor monthly 0.5 2017-10-24 https://www.jyi.org/2008-december/2017/10/24/the-entrepreneurial-science-journalist monthly 0.5 2017-10-24 https://www.jyi.org/2008-december/2017/10/24/jyi-the-ultimate-washington-dc-excursion-video-content monthly 0.5 2017-10-24 https://www.jyi.org/2008-december/2017/10/24/interview-with-raymond-gilmartin-former-ceo-of-merck-co-inc monthly 0.5 2017-10-24 https://www.jyi.org/2008-december/2017/10/24/urbanization-more-comfort-but-less-health monthly 0.5 2017-10-24 https://www.jyi.org/2008-december/2017/10/24/hi monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508880603864-HW0QF5LY9OFM8XPEGUAO/img0494.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508880676602-BXKZ1HLX28QEFL4LS3TL/img1275.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508880748552-VMWNZPE54Y43PGHE5I72/3.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508880829014-5WY0NTB4TDMM6P17K7Q5/4.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Table 1. Parameter values based on experimental data and published values. Loss rate is not well defined within the literature and was assigned a small value. The 1st consumer is modeled as Daphnia pulex while the 2nd consumer represents Daphnia lumholtzi. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508880940904-GP4335SZANC44Z09USQS/5.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Figure 1. Time series of algal carbon concentration comparing high light and low light treatments. High light treatments experienced much higher carbon concentrations than low light (P https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508881128695-BPCB9SZ8K5O0E7EEJ904/7.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Figure 2. This figure shows the relationship between the increase in zooplankton population and the algal C:P in a) high light and b) low light treatments. Data for algal C:P was lost in week 5 due to chemical reagent contamination. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508881030694-A8HC1I1BYZV2QH136T2J/6.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Figure 3. Comparison of the least squares means for a) algal C:P in each treatment, b) algal carbon concentration in each treatment, and c) algal phosphorus concentration in each treatment, with D1 being D. pulex and D2 being D. lumholtzi. ANOVA results for significant variables are indicated by their corresponding p-values (α=0.05). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508881211092-7PBBWAUN61095CERW49Q/8.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Figure 4. Changes in Daphnia populations over the course of the experiment: a) D. lumholtzi alone b) D. lumholtzi in competition c) D. pulex alone d) D. pulex in competition. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508881302591-XX0OAW3IWTUS8EJHJT1U/9.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Figure 5. Comparison of observed Daphnia populations against simulated results for a) high light and b) low light conditions with D. pulex (black), D. lumholtzi (grey), and algae (dashed). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508881340275-6ZI854VVHWHRMQ2RZO0Z/10.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Figure 6. Comparison of observed Daphnia populations against simulated results with adjusted parameters for a) high light and b) low light conditions with D. pulex (black) and D. lumholtzi (grey). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508881477978-BMK1KF1OQPPOVZFQYWXJ/11.jpg 2008, December - A Mathematical and Empirical Analysis of Stoichiometric Effects of Light Intensity on Daphnia Dynamics and Coexistence Table 2. Summary of the boundary equilibria results. A saddle point indicates that the population will persist in the given conditions. Locally asymptotically stable (L.A.S.) indicates that the population will be drawn to extinction. https://www.jyi.org/2008-december/2008/12/24/aero-microbiological-studies-of-moisture-affected-buildings-in-the-indoor-environment monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508864656872-2YV5YCILYVIE09RHMJPN/img0489.jpg 2008, December - Aero-microbiological studies of Moisture Affected Buildings in the Indoor Environment Table 1. Table 1 epicts the characteristics of index and reference building https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508864759381-978T3ISU1JGAV8QUOM1L/img1273.jpg 2008, December - Aero-microbiological studies of Moisture Affected Buildings in the Indoor Environment Table 2. Table 2 shows the changes in moisture content of index and reference buildings https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508864892013-3K8NJNTY31KTG4AX6JGH/img2208.jpg 2008, December - Aero-microbiological studies of Moisture Affected Buildings in the Indoor Environment Figure 1. Figure 1 shows a comparison of airborne microbial concentrations in Index buildings (IB) and in Reference building (RB) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508864837574-MGILUJXMZFQ51TBFV8FO/img3148.jpg 2008, December - Aero-microbiological studies of Moisture Affected Buildings in the Indoor Environment Table 3. Table 3 shows the concentration of viable microbes in the concrete samples of buildings https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508864969036-9B6IGBUA3VRQB108WLWS/img581.jpg 2008, December - Aero-microbiological studies of Moisture Affected Buildings in the Indoor Environment Figure 2. Figure 2 shows the morphology of spores of (A) Aspergillus fumigatus, (B) Alternaria alternata, (C) Emericella nidulans, (D) Aspergillus flavus, (E) Penicillium, (F) Curvularia lunata, (G) Helminthosporum, (H) Aspergillus niger, (I) Phialophora isolated from indoor environment of buildings (40X objective) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508865026885-PIT1KYL7RWGEK5RO96H0/img4108.jpg 2008, December - Aero-microbiological studies of Moisture Affected Buildings in the Indoor Environment Table 4. Table 4 indicates the different types of fungi in indoor environment https://www.jyi.org/2008-december/category/Research monthly 0.5 https://www.jyi.org/2008-december/category/Science+News monthly 0.5 https://www.jyi.org/2008-december/category/Feature monthly 0.5 https://www.jyi.org/2008-november daily 0.75 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/black-holes-in-the-centers-of-even-early-galaxies monthly 0.5 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/visit-with-the-senior-research-editor monthly 0.5 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/rural-hospitals-benefit-from-hospital-to-hospital-partnerships-in-it-outsourcing monthly 0.5 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/a-good-bite-of-antioxidants-purple-tomatoes monthly 0.5 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/world-conference-on-marine-biodiversity-highlights-progress-towards-completing-first-census-of-marine-life monthly 0.5 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/a-letter-from-our-chief-executive-officer monthly 0.5 2017-10-25 https://www.jyi.org/2008-november/2017/10/25/use-of-laser-capture-microdissection-and-cdna-microarrays-for-analysis-of-gene-expression-in-lacrimal-gland-secretory-cells-of-mrllpr-mice monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508953778286-PL0MZT1IXIDUFEG7MLTI/f1.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 1. Laser capture microdissection (LCM) of mouse lacrimal gland acini and ducts. Laser spot size 7.5 m, pulse duration 8 msec, power 80 mW. A. Before LCM acini are seen with an adjacent lymphocyte infiltrate. After LCM acinar membrane fragments remain on the slide and the infiltrate is intact. The acinar cells adhere to the LCM cap in the absence of lymphocytes. B. Three ducts with adjacent connective tissue and acini before LCM. After LCM duct membrane fragments, connective tissue and acini remain on the slide, while duct cells adhere to the LCM cap. Bar = 25 μm https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508953952712-1A3WHN2BOEGIQT0VQBI5/t1.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Table 1. Genes that are the top 10 discriminators between mouse lacrimal gland duct and acinar cells, irrespective of disease status, as detected on cDNA microarrays. Analysis included all duct (n=6) and acinar (n=7) microarrays from both normal and MRL/lpr mice. Values are log2 transformed sample/reference intensity ratios where a negative value indicates reduced gene expression relative to the mouse embryo reference. Negative t-statistics indicate reduced gene expression in acini as compared to ducts. Bold entries indicate genes of possible relevance to lacrimal gland function. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954055416-RFV1P9UK1R6GNTJ4A6WH/f2.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 2. Evidence for genomic distinction between acini and ducts irrespective of disease status. Analysis included all duct and acinar microarrays from both normal control and MRL/lpr mice. Cluster analysis separates ducts from acini, except for a single outlier. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954102099-NTNWSCC7MN4O4KUOABLX/f3.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 3. Increased expression of Ro/SSA antigen (Trim 21) in ducts as compared to acini irrespective of disease state. Gene expression is expressed as log2 compared to reference standard. The difference between ducts and acini is significant (p=0.0006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954161242-3XGEO9QPP03A3JQTLPCT/f4.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 4. Increased expression of lactotransferrin (Lft) in ducts as compared to acini, irrespective of disease state. Gene expression is expressed as log2 compared to reference standard. The difference between ducts and acini is significant (p=0.002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954380304-8YPFM9FFOP515KOLAKJY/f6.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 5. Evidence for differential gene expression between lacrimal glands of MRL/lpr (MRL) and normal control (Cont) mice. Cluster analysis of combined duct and acinar microarrays of normal and MRL/lpr mice correctly classified diseased and healthy glands. The data also provide evidence for differences in early and late disease genotype in MRL/lpr mice. Ducts and acini of one month old animals with stage 0 lacrimal gland disease are classified separately from ducts and acini of 6 month old animals with stage 3-4 lymphocytic infiltration. Control animals did not cluster based on age. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954303605-JV7JARAEEA4821W28PX4/f5.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 6. Elevated expression of lymphocyte antigen 6 complex, locus e, (Ly6e) in lacrimal gland cells of MRL/lpr mice as compared to normal mice. Gene expression is expressed as log2 compared to reference standard. The difference in levels of Ly6e expression is significant (p=5x10-6). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954496807-QR87P9NEKETPSLJ3USL4/f7.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 7. Elevated expression of signal transduction and activator of transcription 3 (Stat3) in lacrimal gland cells of MRL/lpr mice as compared to normal mice. Gene expression is expressed as log2 compared to reference standard. The difference in levels of Stat3 expression is significant (p=0.0005). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954610304-REJAHMSDF983GWKA0X81/f8.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 8. Scatterplot showing relative gene expression levels between lacrimal acinar cells of MRL/lpr and normal mice. Gene expression is expressed as log2 compared to reference standard. Several genes discriminating between diseased and normal acini are shown in Table 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954676835-8E1GV5I4ZCNYHDDHNQK5/t2.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Table 3. Genes that are the top 10 discriminators between normal (n=4) and MRL/lpr (n=3) mouse lacrimal gland acinar cells as detected on cDNA microarrays. Values are log2 transformed sample/reference intensity ratios where a negative value indicates reduced gene expression relative to the mouse embryo reference. Negative t-statistics indicate reduced gene expression in MRL/lpr mice as compared to normal mice, while positive values indicate higher gene expression in MRL/lpr animals. Bold entries indicate genes of possible relevance lacrimal gland function and inflammation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508954738183-0U7UYBGUK1ZDY7RY25KO/f9.jpg 2008, November - Use of laser capture microdissection and cDNA microarrays for analysis of gene expression in lacrimal gland secretory cells of MRL/lpr mice Figure 9. Elevated expression of histocompatibility complex II antigen (H2-Eb2) in MRL/lpr lacrimal acinar cells as compared to normal acinar cells. Gene expression is expressed as log2 compared to reference standard. The difference in levels of H2-Eb2 expression is significant (p=0.0032). https://www.jyi.org/2008-november/2017/10/25/cloning-of-beta-actin-in-early-diverging-vertebrate-little-skate-leucoraja-erinacea-for-use-as-a-reference-gene-in-real-time-pcr monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508952764148-0ZYCLD7995QSUJ1QF3HX/0.jpg 2008, November - Cloning of beta-actin in early diverging vertebrate little skate (Leucoraja erinacea) for use as a reference gene in real-time PCR Table 1. ACTB Primer and PCR condition details. UPM, universal primer mix, NUP, nested universal primer (SMART RACE, Clontech) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508952575151-WZPI2A6FZAJ60OCWXHZ1/1.jpg 2008, November - Cloning of beta-actin in early diverging vertebrate little skate (Leucoraja erinacea) for use as a reference gene in real-time PCR Figure 1. Leucoraja erinacea ACTB cDNA sequence and deduced amino acid sequence (GenBank Accession No. EU701009) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508952848460-LBBAF6QMABCZZBSQU61U/2.jpg 2008, November - Cloning of beta-actin in early diverging vertebrate little skate (Leucoraja erinacea) for use as a reference gene in real-time PCR Figure 2. A clustal W amino acid sequence alignment of the deduced ACTB sequence of little skate, Leucoraja erinacea (Leuer), GenBank Accession No. EU701009, zebrafish, Danio rerio (Danre) AAH45879, human, Homo sapiens (Homsa) BAD96645, leopard shark, Triakis semifasciata (Trisc) BAB1355, chicken, Gallus gallus (Galga) CAA25004, western clawed frog, Xenopus tropicalis (Xentr) NP_989332, Florida lancelet, Brachiostoma floridae (Brafl) Q93131, and yeast, Saccharomyces cerevisiae (Sacce) IYVN_A. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508953011101-SZ8E26FKLA87Y0SAMLR0/3.jpg 2008, November - Cloning of beta-actin in early diverging vertebrate little skate (Leucoraja erinacea) for use as a reference gene in real-time PCR Table 2. ACTB Sequence Percent Similarity Matrix of little skate, Leucoraja erinacea (Leuer), GenBank Accession No. EU701009, zebrafish, Danio rerio (Danre) AAH45879, human, Homo sapiens (Homsa) BAD96645, leopard shark, Triakis semifasciata (Trisc) BAB1355, chicken, Gallus gallus (Galga) CAA25004, western clawed frog, Xenopus tropicalis (Xentr) NP_989332, Florida lancelet, Brachiostoma floridae (Brafl) Q93131, and yeast, Saccharomyces cerevisiae (Sacce) IYVN_A. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508953062641-3I3U4QRZ9I53JNHACI0K/4.jpg 2008, November - Cloning of beta-actin in early diverging vertebrate little skate (Leucoraja erinacea) for use as a reference gene in real-time PCR Figure 3. Diagram of conserved domains of the amino acid sequence of ACTB generated using the CDD informatics (Marchler-Bauer et al. 2007). These include the ATP binding site, the gelsolin binding site, and the profilin biding site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508953115180-FONMGOFVTOCCPJNTF99P/5.jpg 2008, November - Cloning of beta-actin in early diverging vertebrate little skate (Leucoraja erinacea) for use as a reference gene in real-time PCR Figure 4. qPCR amplification data, melt curve analysis and constructed standard curve for little skate ACTB. A. The tight grouping of the triplicate amplification lines of each of the ACTB standards shows the precision of the reactions; B. A single peak in the melt curve analysis demonstrates that one specific product was amplified; C. The standard curve generated has an efficiency value of 94.7% indicating a robust and reproducible assay for use in future research. https://www.jyi.org/2008-november/category/News monthly 0.5 https://www.jyi.org/2008-november/category/Research monthly 0.5 https://www.jyi.org/2008-october daily 0.75 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/cell-movement-mechanism-may-provide-clues-to-containing-metastasis monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/early-diet-modification-may-be-necessary-to-contain-heart-disease monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/mit-group-utilizes-viruses-to-construct-a-microbattery monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/to-thine-ownself-be-true-a-new-personalized-approach-in-the-combat-against-cancer monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/saliva-proteins-could-reflect-oral-cancer monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/fuel-sweet-fuel monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/international-initiative-to-wipeout-malaria monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/dwarves-or-not-new-evidence-disputes-claim-that-prehistoric-islanders-were-dwarves monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/2000-year-old-astronomical-gadget-linked-to-greek-games monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/friendly-intestinal-bacteria-may-play-a-role-in-warding-off-infection monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/prion-protein-may-have-links-to-other-neurological-diseases-in-cattle monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/scientists-uncover-two-possible-roles-of-adult-neurogenesis monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/anchoring-mad-cows monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/hubble-survey-finds-largest-ever-sample-of-ancient-galaxies monthly 0.5 2017-11-05 https://www.jyi.org/2008-october/2017/11/5/prevalence-of-public-displays-of-affection-on-a-college-campus monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509895421504-Z6BTB21P6RCWBX4V8780/f1.jpg 2008, October - Prevalence of Public Displays of Affection on a College Campus Responses to Questions 7 and 8. Question 7: Have you ever engaged in prolonged kissing (making out) in a public place (any place in which you had no expectation of privacy) at Sewanee this semester? Question 8: Have you ever engaged in more intimate acts than just prolonged kissing in a public place at Sewanee this semester? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509895500774-8527ANEPS7ZQBQLRPQVG/f2.jpg 2008, October - Prevalence of Public Displays of Affection on a College Campus Response to Question 7 in relation to Question 6. Question 7: Have you ever engaged in prolonged kissing (making out) in a public place (any place in which you had no expectation of privacy) at Sewanee this semester? Question 6: Do you consume more than 4 drinks when you go out at Sewanee? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509895578186-3482R7VUABHHG9S5GPS0/f3.jpg 2008, October - Prevalence of Public Displays of Affection on a College Campus Response to Question 8 in relation to Question 6. Question 8: Have you ever engaged in more intimate acts than just prolonged kissing in a public place at Sewanee this semester? Question 6: Do you consume more than 4 drinks when you go out at Sewanee? https://www.jyi.org/2008-october/category/News monthly 0.5 https://www.jyi.org/2008-october/category/Research monthly 0.5 https://www.jyi.org/2008-october/category/Feature monthly 0.5 https://www.jyi.org/2008-september daily 0.75 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/children-of-older-fathers-at-higher-risk-for-bipolar-disorder monthly 0.5 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/dont-bother-swatting-a-fly-again-unless-you-are-faster monthly 0.5 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/the-worlds-largest-particle-smasher-passes-its-final-test monthly 0.5 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/new-hope-for-cystic-fibrosis-patients monthly 0.5 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/energy-drinks-a-source-of-potential-caffeine-intoxication monthly 0.5 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/desalination-is-no-panacea-but-holds-potential-as-water-shortage-solution monthly 0.5 2017-11-05 https://www.jyi.org/2008-september/2017/11/5/the-power-of-small-things-how-tiny-droplets-can-tackle-big-problems monthly 0.5 2017-11-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509899201891-48P2LL5QLOPB5VPF3AP6/1.jpg 2008, September - The Power of Small Things: How Tiny Droplets Can Tackle Big Problems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509899215369-8B1S6E9GYMECMV9WVZE6/image-asset.jpeg 2008, September - The Power of Small Things: How Tiny Droplets Can Tackle Big Problems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509899223548-GHXRDK646FX7EP8BUK6O/3.jpg 2008, September - The Power of Small Things: How Tiny Droplets Can Tackle Big Problems A droplet on a conductive surface (a) before and (b) after a voltage is applied. https://www.jyi.org/2008-september/2017/11/5/computer-modeling-of-physiological-conditions-for-better-understanding-of-intracranial-blood-pressure-and-brain-vasculature monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898519944-G9EA1UP0CIZEQPOTIX26/image-asset.jpeg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 1. Brain vasculature of the human brain. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898535208-L2JAT98ZZBHQUI3B6XC0/image-asset.jpeg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 2. Compartmental model based on previous work. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898547609-FTWQCBVMND7MFMIG4A63/image-asset.jpeg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 3. New proposed model with nine compartments and volume consistency. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898554516-3C3K5MGIFDHD45CQ8UFJ/f4.jpg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 4. Total network model composed of blood and CSF compartments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898561334-HJMMYL2FWGAZBU8PXISL/f5.jpg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 5. Total network model depiction generated by the model generator. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898569245-12489C3V25WOCK2P4XPU/f6.jpg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 6. Network Model – Blood compartments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898576437-EITOOMHMM7STY57JS4HQ/image-asset.jpeg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 7. Network model generated by the model generator for the blood system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898582449-0BB32N1MOR7WDG96N6HK/f8.jpg 2008, September - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 8. Network Model – CSF compartments. https://www.jyi.org/2008-september/2017/11/5/the-identification-of-chemicals-using-clustering-and-extrapolation-from-an-external-database-for-electronic-nose-sensors monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898011517-G70NJUVEPSJDQTYR69XO/t1.jpg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Table 1. Chemical Database. The database provides the chemical name, a simplified linearized structure, and the molar mass of each of the ten chemicals shown. Cluster simulations were created using data extrapolated from graphs of mean resistance data from the Jet Propulsion Laboratory electronic nose paper, "Nonlinear Least-Squares Based Method for Identifying and Quantifying Single and Mixed Contaminants in Air with an Electronic Nose" (Zhou et al. 2006). The chemical structures are represented in Simplified Molecular Input Line Entry Specification format (SMILES). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898021184-MUVY0GMJL6YQ8MP6JZGO/image-asset.jpeg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Figure 1. Schematic of Program Phases. In the training phase, all chemicals are analyzed before PCA is performed. The operational phase then uses the PCA scaling matrix, the original clusters, and an external database to perform a structural comparison to infer the chemical identity of an unknown. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898031951-73AG9698AQWG53C2LANC/image-asset.jpeg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Figure 2. Graph of Training Phase Output. Each of the chemicals is scaled through PCA to three dimensions from thirty-two. The centroid, variance, and number of points are determined and saved in the cluster. The initial points are discarded to save memory. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898039445-AQAWD9SEECN2V3D6GRBE/f3.jpg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Figure 3. Graph of PointCluster in relation to Known Clusters. Each of the known clusters is represented by its name and centroid. The unknown PointCluster, in actuality Ethanol, is represented by the green dots. PointClusters retain their data points for centroid and variance calculations for analysis later in the process. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898051706-10Y7T2TH3SUKE09DYWJ5/eq1.jpg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Equation 1. Chebychev's Inequality. This equation describes the probability that a value exists at a location greater than or equal to some distance from its expected value. It states that the probability that the random variable X has a value greater than k from its mean is the variance of X over the square of k. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898064851-GJHOXCUYO7P47MA4NUND/image-asset.jpeg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Figure 4. Representation of Newly Recognized Clusters. The algorithm has correctly identified the unknown cluster as Ethanol. It now creates a cluster to represent Ethanol, discards the points, and continues analysis. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898071891-0624UJJSMM9PXZ4YQ1BS/image-asset.jpeg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Table 2. Trial with Ten-Member Training Set. In this trial, all chemicals were entered in the training set. Then a smaller cluster with an almost identical centroid to one of the existing chemicals was input in the operational phase. The algorithm correctly determined the identity of each chemical, leading to an accuracy of 100% in this case. The simulated chemical clusters were extrapolated from "Nonlinear Least-Squares Based Method for Identifying and Quantifying Single and Mixed Contaminants in Air with an Electronic Nose" (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509898081582-P63L2WX2AHBUF0D8H36E/image-asset.jpeg 2008, September - The identification of chemicals using clustering and extrapolation from an external database for electronic nose sensors Table 3. Trial with Nine-Member Training Set. In this trial, nine of the ten chemicals were entered in the training set. The tenth chemical was then presented in the operational stage. The algorithm was supposed to extrapolate the identity of the unknown from the similar molecular substructures of surrounding chemicals. However, possibly due to the limited training set, the test resulted in 20% accuracy. The simulated chemical clusters were extrapolated from "Nonlinear Least-Squares Based Method for Identifying and Quantifying Single and Mixed Contaminants in Air with an Electronic Nose" (Zhou et al. 2006). https://www.jyi.org/2008-september/2017/11/5/comparison-of-sodium-hypochlorite-and-chlorhexidine-gluconate-quality-of-current-evidence monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897285070-23BRKDEVC4B9933HAFWT/t1.jpg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Table 1. Inclusion and Exclusion Selectrion Criteria: These are the criteria used to select appropriate abstracts to answer the topic of interest. This analysis includes the population studied, the interventions that are compared, and the outcome that is to be measured https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897415953-UTWOIZV7EIVH2XA29OIN/t2.jpg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Table 2. Quality Assessment Score (QAS): Each abstract is rated based on the Quality Assessment Test. The QAS instrument contains 19 items. The abstract is scored by each item according to if the item has been fully met: yes for 2 points, partial for 1 point, no for 0 points, and not applicable (N/A) for -2 points. The QAS is determined by the sum of all assigned points. The maximum QAS is 38 points https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897438915-SP8KTGSSDDJRM4P1PY3A/t3.jpg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Table 3. Study Design Score Sheet: This sheet contains summary of all the accepted study designs and the type of designs each employed to complete the research. The maximum SDS is 5 points for a randomized, human intervention study, or randomized clinical trial https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897492935-927T9SXBGE7MFMEEWM9B/image-asset.jpeg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Figure 1. Calculation of Summary Score: Summary Score of each abstract is calculated as the sum of the Quality Assessment Score (QAS) and the Study Design Score (SDS) divided by the total possible score https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897572757-MIBWOIKXRT1JQ3TQ7AHL/image-asset.jpeg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Figure 2. Evidence Pyramid: The pyramid shows the different types of materials used in a research with the least clinically relevant at the bottom and the most clinically relevant at the top. The four layers at the top represent actual clinical research whereas the layers at the bottom are not as clinically relevant but can be used as guides in the initial research stages https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897619075-GEGNCZWJTKQ7BUWPCQPG/image-asset.jpeg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Table 4. Summary scores for selected case series: Table summarizes the score for each selected case series and also lists the methods each research used https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897694757-55D8OON1EAS36ZB0DODV/image-asset.jpeg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Table 5. Summary scores for best-case series: Two best case series are selected based on the scores they received and the research designs employed https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509897705888-L5I8HZNRSEQNZ1OI44ZV/image-asset.jpeg 2008, September - Comparison of Sodium Hypochlorite and Chlorhexidine Gluconate: Quality of Current Evidence Table 6. Quality Assessment Scores Attributes: Table provides full explanations of the two scores and lists the qualities each possesses. Also included is the analysis of the missing desirable qualities from both research designs https://www.jyi.org/2008-september/category/News monthly 0.5 https://www.jyi.org/2008-september/category/Research monthly 0.5 https://www.jyi.org/2008-september/category/Feature monthly 0.5 https://www.jyi.org/2008-august daily 0.75 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/understanding-of-northern-lights-deepens monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/water-observations-hopeful-for-life-on-mars monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/security-errors-plague-online-banking monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/rare-white-horses-its-all-in-the-genes monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/survival-of-the-fittest-running-can-slow-aging-process monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/17th-international-aids-conference-universal-action-now monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/the-day-after-tomorrow-is-it-closer-than-we-think monthly 0.5 2017-11-06 https://www.jyi.org/2008-august/2017/11/6/fluorescence-based-kinetic-analysis-of-the-interaction-between-avidin-and-singlet-oxygen-damaged-lambda-phage-dna monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981529406-SC2YAS5YLDNGCVK18JX4/1.jpg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 1. Structures of biotin, and oxidation products formed upon reaction of 1O2 with guanosine and adenosine. Highlighted atoms define the common ureido functionality required for avidin binding. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981537436-EN370B64G1GEHIAH1B9J/image-asset.jpeg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 2. Time-based fluorescence polarization curves of avidin-FITC-lambda DNA solutions. RB-treated denatured DNA (circles), RB-treated native DNA (squares), and native untreated DNA (triangles). Denatured DNA was prepared after exposure to RB and isolation of the photodamaged DNA. Data were collected at 23C, in the presence of buffer (10 mM sodium phosphate, pH 7.4, 0.1 M NaCl). The concentration of DNA and avidin-FITC were approximately 2 pM and 5 nM, respectively. The data shown and the time to reach maximum polarization (TmaxP) values represent one trial out of three independent trials. Initial polarization values (t = 0): RB-treated denatured DNA = 152.5 mP; RB-treated native DNA = 180.2 mP, and untreated native DNA = 160.7 mP. TmaxP values: RB-treated denatured DNA = 5 min; RB-treated native DNA = 8 min, and untreated native DNA = 90 min. Average TmaxP values: RB-treated denatured DNA = 5 + 1 min; RB-treated native DNA = 9 + 2 min, and untreated native DNA = 88 + 6 min. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981544334-EZDPE231BV1AAB1QU43S/image-asset.jpeg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 3. Competitive binding assay. DNA alone (triangles), DNA + 2 uM biotin (squares), DNA + 3 uM 8-oxo-dG (circles). Data were collected at 23C, in the presence of buffer (10 mM sodium phosphate, pH 7.4, 0.1 M NaCl ). The concentration of damaged, native DNA and avidin-FITC were approximately 2 pM and 5 nM, respectively. The data shown and TmaxP values represent one trial out of three independent trials. TmaxP values: DNA alone = 10 min; DNA + biotin = 19 min, and DNA + 8-oxo-dG = 21 min. Average TmaxP values: DNA alone = 10 + 1 min, DNA + biotin = 20 + 3 min, DNA + 8-oxo-dG = 20 + 2 min. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981777623-HGK7JDJYGOJIRVPH69BO/image-asset.jpeg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 4. Steady emission spectrum of avidin trpytophan fluorescence as a function of time in the absence and presence of damaged, native DNA. Data were collected at 23C, in the presence of buffer (10 mM sodium phosphate, pH 7.4, 0.1 M NaCl ). Tryptophan florescence was excited at a 275 nm. The concentration of DNA and avidin were approximately 2 pM and 5 nM, respectively. The data shown represent one trial out of two independent trials. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981551443-2QPK82JWQMFVBTXMWXUC/5.jpg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 5. Time-dependent change in tryptophan fluorescence induced by complex formation between avidin and photodamaged native DNA. Tryptophan florescence was excited at 275 nm and detected at 340 nm. The concentration of DNA and avidin-FITC were approximately 2 pM and 5 nM, respectively. Data was collected at a rate of 1 point/second. The approximate boundary between the fast and slow kinetic phases is marked by the dashed vertical line at t = 120 seconds. The data shown represent one trial out of two independent trials. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981557964-EEYE5XSU0TRCHXNW9I7P/6.jpg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 6. Separation of kinetic components associated with avidin-DNA complex formation. Data represent the fast and slow phases of the kinetic data shown in Figure 4. Fast component 0 to 120 seconds (inset), k = 25.1 x 10-3 sec-1 (r = 0.980). Slow component 120 to 1800 seconds, k = 1.95 x 10-3 sec-1 (r = 0.995). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981564392-NMEHGWLGL6G31AFDKL9H/image-asset.jpeg 2008, August - Fluorescence-Based Kinetic Analysis of the Interaction between Avidin and Singlet Oxygen Damaged Lambda Phage DNA Figure 7. Proposed kinetic model of avidin-DNA complex formation based on fluorescence polarization and time-dependent fluorescence quenching data. The first-order rate constant kfast corresponds to initial electrostatic binding and recognition of accessible bases. The second rate constant, and kslow corresponds to avidin-induced alterations in DNA structure and conformation, respectively. The formation of condensed DNA is associated with a sudden decrease in polarization because of depolarizing light scattering which is observed at time = TmaxP (See Figures 2 and 3). https://www.jyi.org/2008-august/2017/11/6/antimicrobial-activity-of-c-cordifolius monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981325164-AVPOMQ0UH2COHWSZ72D9/image-asset.jpeg 2008, August - Antimicrobial activity of C. cordifolius Figure 1. Concentration dependent inhibition of germination of B. subtilis spores by solvent extract fractions of C. cordifolius. The presumptive screening of anti-proliferative activities was determined using inhibition of B. subtilis spores in seeded agar medium. The 50% inhibition of spore germination was observed at 4.3 and 4.5 mg/ml concentration of methanol and dichloromethane extracts respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509981331675-971CT30OYQNVG7USAI1M/image-asset.jpeg 2008, August - Antimicrobial activity of C. cordifolius https://www.jyi.org/2008-august/category/News monthly 0.5 https://www.jyi.org/2008-august/category/Research monthly 0.5 https://www.jyi.org/2008-august/category/Feature monthly 0.5 https://www.jyi.org/2008-july daily 0.75 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/adhd-transporter-running-backwards monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/mapping-the-edge-of-the-solar-system-in-a-new-way monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/tenofovir-for-hiv-prevention-gel-or-tablet monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/high-fat-meals-may-cause-memory-decline-in-diabetic-seniors monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/new-heart-stem-cell-source-discovered monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/the-two-faces-of-mars-mystery-unmasked monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/genetically-altered-mouse-shows-ability-to-regenerate-beta-cells monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/fair-is-foul-and-foul-is-fair-europes-return-to-coal monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/looking-at-old-stars-in-new-ways-gravitational-waves-help-us-see-inside-a-neutron-star monthly 0.5 2017-11-08 https://www.jyi.org/2008-july/2017/11/8/use-of-resident-macroinvertebrates-to-monitor-the-improvement-of-a-restored-first-order-stream monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178501743-7MRZTWVK4OBB44YKCSFT/f1.jpg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Figure 1: Smith's Run Sampling Sites: BR - Downstream Site, AR - Upstream Site and RS - Restoration Site. Schuylkill Center for Environmental Education (SCEE), Phila, PA 19128 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178507933-XCJ0IWPQAYYFKPXQP78G/image-asset.jpeg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Figure 2A and 2B: Pictures of Smith's Run Pre-Restoration 6/15/2005 (A) Post-Restoration 9/13/2006 (B) -- SCEE, Phila, PA 19128 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178518052-EBTXHAD3ZAV9B1X60LLP/image-asset.jpeg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Figure 3: Macroinvertebrate Shannon Diversity Index was calculated before restoration (Mar '06) and after restoration (Mar '07) for sites at Restoration, Downstream and Upstream (Shannon 1948) -- SCEE, Phila, PA 19128. All three surveyed sites were compared to a Shannon Diversity Index of Crum Creek West Branch, a PA DEP "excellent value" reference stream -- Delaware County, PA. Kick net sampling for 100 macroinvertebrates was used at each site (Sutherland 2006 and EPA 1999). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178561861-S2C2FUXTHUFWW8D3VW8F/image-asset.jpeg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Table 1: Plant species planted in efforts to restore the riparian buffer of Smith's Run. Schuylkill Center for Environmental Education, Philadelphia, PA 19128 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178526186-YU5KXZNYH22XQZ7NJT3B/f4.jpg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Figure 4: Cumulative Biodiversity Index Values calculated before restoration (3/2006) and after restoration (3/2007) for sites at restoration, downstream and upstream (Deutsch, et al 1996). SCEE, Phila, PA 19128. Cumulative Biodiversity Index values compared to Crum Creek West Branch, a PA DEP "excellent value" reference stream. Delaware County, PA. Kick net sampling for 100 macroinvertebrates was used at each site (Sutherland 2006 and EPA 1999). Cumulative biodiversity index values are as follows: Excellent (more than 22), Good (17-22), Fair (11-16) and Poor (less than11). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178567652-47G545862HFJW1VMM6P8/t2.jpg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Table 2: Macroinvertebrate taxa collected at Smith's Run during both Pre-restoration (2006) and Post-restoration (13 March 2007) assessments in order of abundance. The three most abundant taxa are listed in bold with relative percentages. Schuylkill Center for Environmental Education, Phila, PA 19128. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178576439-MZMA0MT70WWF6IJ0EXTO/image-asset.jpeg 2008, July - Use of Resident Macroinvertebrates to Monitor the Improvement of a Restored First Order Stream Table 3: Water Chemistry Data from Smith's Run both before restoration (3/2006) and after restoration (3/2007). [All data in parts per million, except pH*, Temp (&deg;C) **, and Coliform Bacteria*** https://www.jyi.org/2008-july/2017/11/8/application-of-an-olfactory-data-preprocessing-algorithm-to-chemotactic-robotic-navigation monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510170316048-T7VY20C2QIATK2HBHAJS/image-asset.jpeg 2008, July - Application of an Olfactory Data-Preprocessing Algorithm to Chemotactic Robotic Navigation Figure 1: Schematic of algorithm information flow. Data is collected by the sensor array (1) and passed to the onboard microcontroller (2). The navigation algorithm (3) runs on the onboard microcontroller (2). The navigation algorithm consists of a data preprocessing algorithm (4) and a plume navigation algorithm (6). The data processing algorithm performs local min/max analysis (5) over 50ms to determine the local slope of the sensor wave. The local slope is passed to the plume navigation algorithm (6). Navigation considers odor concentration as determined by local slopes (7) and employs tracking rules to locate the source (8). The navigation algorithm (3), after processing the sensor data, outputs motor commands to the microcontroller (2). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510170322733-TUGDQBZK9DPNQVKT4AAZ/f2.jpg 2008, July - Application of an Olfactory Data-Preprocessing Algorithm to Chemotactic Robotic Navigation Figure 2: Sensor recovery (return) time in milliseconds for Preprocessing and Threshold based systems. The Preprocessing system has a mean return time of 420 milliseconds, as compared to the Threshold-based system with a mean return time of 2564 milliseconds. Error bars represent standard error in milliseconds as determined by a paired t-test. P-value for this data is .0001, demonstrating a high level of statistical significance. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510170329175-0LTZ6W44TJRJPOLZYY1B/f3.jpg 2008, July - Application of an Olfactory Data-Preprocessing Algorithm to Chemotactic Robotic Navigation Figure 3: Source localization success by percent across for experimental and control trials. 80% successful navigation was observed in experimental trials as compared to 10% successful navigation in control trials. Error bars represent standard error in percent as determined by a paired t-test. P-value for recorded data was .0013, corresponding to a high level of statistical significance. https://www.jyi.org/2008-july/category/News monthly 0.5 https://www.jyi.org/2008-july/category/Research monthly 0.5 https://www.jyi.org/2008-july/category/Feature monthly 0.5 https://www.jyi.org/2008-june daily 0.75 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/stress-induces-overeating-behavior-in-rhesus-macaques monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/low-levels-of-vitamin-d-correlate-with-peripheral-artery-disease monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/new-synthesis-technique-may-yield-better-cheaper-drugs monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/are-you-paying-too-much-for-text-messages monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/when-cannibals-attack-the-locust-story monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/martial-art-improves-sleep-of-elderly monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/arctic-drives-the-need-for-pop-identification monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/are-doctors-inhumane monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2008/6/13/science-for-christians monthly 0.5 2017-11-13 https://www.jyi.org/2008-june/2017/11/13/bio-transfer-and-metabolism-in-the-distributed-system-under-uncertainty monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604172505-Q4YBNMOGQYSWXSP37F0G/img0.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 1: Chemical pathways from tyrosine to L-dopa and either to methyldopa or dopamine. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604203636-C5PWX6Z1LLG21SV0CJAF/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 2: Schematic of dopaminergic synapse. L-dopa passes through capillary and the blood brain barrier and enters the terminal to be converted into dopamine. The dopamine is then collected in vesicles by VAT. An action potential triggers the natural production of dopamine by phosphorlating tyrosine hydroxylase (TH) and also releases vesicles across the synapse. Dopamine binds to the post synaptic receptors which trigger one of the four pathways depending on their location. When dopamine unbinds it is taken back up into the terminal by DAT or metabolized into DOPAC or HVA which return to circulation for excretion. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604232361-AZOS7E89QAPKDIEASYEE/img2.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604288152-G88PRQC5TFLAYVBGF9VX/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 4: L-dopa metabolism in a one compartment model of the brain based on five differential equations with some reactions assumed to be negligible. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604295649-XLNX2T2CLBQUI3Z825YG/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 5: One compartment model based on Gjedde, 1991, all reactions included. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604417231-8YK67EJ6DFFR7I6UO4GM/img5.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 6: One compartment model of the brain with dopamine metabolites and loss (Deep et al. 1997). Notation from Gjedde, 1991 remains with k7 as the metabolism coefficient of dopamine to DOPAC, k11 as the metabolism coefficient of DOPAC to HVA and k9a and k9b as the loss of DOPAC and HVA, respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604453420-EVJPDDMDKCDTPY00FTU6/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 7: Graphical representation of a one compartment model including dopamine's further metabolites and loss. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604496000-0JLH94878UIOPCG4NH8V/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 8: Regions of interest in PET image of the brain, 5.2cm above the orbito-meatal line (Gjedde 1991). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604523688-N6J5I6BT2FVDA0B37PEK/img8.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 9: Graphical representation of dopamine, DOPAC and HVA combined concentrations in a ten compartmental model of the brain. Concentrations plotted based on the different volumes of the ten compartments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604548439-WOD09WREZQD4SJF3BGEC/img9.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 10: Nine compartment model with diffusion showing dopamine, DOPAC and HVA concentration per compartmental volume. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604611592-8N8KGAEUSNF750TQAZ0Q/img12.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 13: Changing the rate coefficient of L-dopa  dopamine, KD3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604639054-WCSG1HXUDJK3R0O69GCI/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 14: Changing rate coefficient of L-dopa to methyldopa in the brain, KD5. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604664525-5L032ZRP9IJHX0NXQFSV/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 15: Changing the rate coefficient of dopamine and its metabolites loss from the system, kloss. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604689446-P2L9M7O3BIMZ7HH8IMD0/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 16: Ten compartment model with diffusion and a second L-dopa dose after four hours https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604723165-KSNBF7U93UK4N7EXW8U6/img16.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 17a: Computational Unstructured Grid. Fig. 17b: Brain structures assigned to grid compartments. Caudate Nucleus (red), Putamen (orange), Thalamus (yellow), Hippocampus (green), Midbrain (blue), Superior Frontal Gyrus (brown), Inferior temporal gyrus (purple), Middle occipital lobe (mint green), posterior occipital lobe (pink). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604773957-L26VJK2JBGAXQ8SQ31LL/img17.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 18a: L-dopa in the brain two hours after initial injection of 17 µmoles to the blood. Fig. 18b:Methyldopa in brain after two hours. Fig. 18c: Dopamine in brain after two hours. Fig. 18d: Sum of L-dopa, methyldopa and dopamine in brain after two hours. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604804523-M2OYH1CPJR9187Q12201/img18.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Fig. 19a: Sum of L-dopa, methyldopa and dopamine and metabolites after 30 minutes. Fig. 19b: Sum of L-dopa, methyldopa and dopamine and metabolites after 60 minutes. Fig. 19c: Sum of L-dopa, methyldopa and dopamine and metabolites after 90 minutes. Fig. 19d: Sum of L-dopa, methyldopa and dopamine and metabolites after 120 minutes. Fig. 19e: Sum of L-dopa, methyldopa and dopamine and metabolites after 150 minutes. Fig. 19f: Sum of L-dopa, methyldopa and dopamine and metabolites after 180 minutes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604850874-JTG5AR30PNFB22HNKSMN/img19.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510604974236-9F5UB8NTKU6NTNESZLO5/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Table 1: Diffusion and Reaction Coefficients based on location in the brain. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605022219-QTATAZCSEE4I7GZ75Z6C/img21.jpg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Equations 1-8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605051916-Y3SJ0WKAH9RCLATK4W3N/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Equations 9-17 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605087031-SWWS8S0VOTZN2QUZ94NY/image-asset.jpeg 2008, June - Bio-Transfer and Metabolism in the Distributed System Under Uncertainty Equations 18-29 https://www.jyi.org/2008-june/2008/6/13/the-identification-of-chemicals-using-clustering-and-extrapolation-from-an-external-database-for-electronic-nose-sensors monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607601049-ZFQ2QVML204EC00V7R9L/image-asset.jpeg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Figure 1: Schematic of Program Phases. In the training phase, all chemicals are analyzed before PCA is performed. The operational phase then uses the PCA scaling matrix, the original clusters, and an external database to perform a structural comparison to infer the chemical identity of an unknown. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607626762-P0B0YNRB8JUC5KA15X1L/image-asset.jpeg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Figure 2: Graph of Training Phase Output. Each of the chemicals is scaled through PCA to three dimensions from thirty-two. The centroid, variance, and number of points are determined and saved in the cluster. The initial points are discarded to save memory. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607680594-RI0FC08BDN6UMGX7A7QE/img2.jpg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Figure 3: Graph of PointCluster in relation to Known Clusters. Each of the known clusters is represented by its name and centroid. The unknown PointCluster, in actuality Ethanol, is represented by the green dots. PointClusters retain their data points for centroid and variance calculations for analysis later in the process. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607711464-FS7A79E3XNE6P3JYF5WT/img3.jpg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Figure 4: Representation of Newly Recognized Clusters. The algorithm has correctly identified the unknown cluster as Ethanol. It now creates a cluster to represent Ethanol, discards the points, and continues analysis. The chemical clusters used in this trial were simulated with data extrapolated from graphs (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607762522-91TILGVWMO9KI7QI8C7F/image-asset.jpeg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Equation 1. Chebychev's Inequality. This equation describes the probability that a value exists at a location greater than or equal to some distance from its expected value. It states that the probability that the random variable X has a value greater than k from its mean is the variance of X over the square of k. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607790126-Z4ZTUNG5K51Y49H2U9UI/image-asset.jpeg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Table 1: Chemical Database. The database provides the chemical name, a simplified linearized structure, and the molar mass of each of the ten chemicals shown. Cluster simulations were created using data extrapolated from graphs of mean resistance data from the Jet Propulsion Laboratory electronic nose paper, "Nonlinear Least-Squares Based Method for Identifying and Quantifying Single and Mixed Contaminants in Air with an Electronic Nose" (Zhou et al. 2006). The chemical structures are represented in Simplified Molecular Input Line Entry Specification format (SMILES). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607827006-8IAZ61MY1R8YWCXE2D1Y/image-asset.jpeg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Table 2: Trial with Ten-Member Training Set. In this trial, all chemicals were entered in the training set. Then a smaller cluster with an almost identical centroid to one of the existing chemicals was input in the operational phase. The algorithm correctly determined the identity of each chemical, leading to an accuracy of 100% in this case. The simulated chemical clusters were extrapolated from "Nonlinear Least-Squares Based Method for Identifying and Quantifying Single and Mixed Contaminants in Air with an Electronic Nose" (Zhou et al. 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510607853274-QZRBL0XPDY27KYETHVJQ/image-asset.jpeg 2008, June - The Identification of Chemicals using Clustering and Extrapolation From an External Database for Electronic Nose Sensors Table 3: Trial with Nine-Member Training Set. In this trial, nine of the ten chemicals were entered in the training set. The tenth chemical was then presented in the operational stage. The algorithm was supposed to extrapolate the identity of the unknown from the similar molecular substructures of surrounding chemicals. However, possibly due to the limited training set, the test resulted in 20% accuracy. The simulated chemical clusters were extrapolated from "Nonlinear Least-Squares Based Method for Identifying and Quantifying Single and Mixed Contaminants in Air with an Electronic Nose" (Zhou et al. 2006). https://www.jyi.org/2008-june/2008/6/13/computer-modeling-of-physiological-conditions-for-better-understanding-of-intracranial-blood-pressure-and-brain-vasculature monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605414621-1K6WS7N1AUUNOSSMRZ6X/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 1. Brain vasculature of the human brain. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605441354-ZFQMI5FPOK9HK5FQ24NF/img1.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 2. Compartmental model based on previous work. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605467584-AERF4GF6NSYD1U949GNB/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 3. New proposed model with nine compartments and volume consistency. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605497298-HV3701EYULRB6HC83A7E/img3.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 4. Total network model composed of blood and CSF compartments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605531286-28DQM57F33VK7J1PZ2IV/img4.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 5. Total network model depiction generated by the model generator. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605564213-W34E3PMTSBWWNSU3FI2R/img5.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 6. Network Model – Blood compartments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605604317-LEYOQPMDENE0503UOK6K/img6.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 7. Network model generated by the model generator for the blood system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605637218-GX9F29HC4A45CZL3DY9U/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 8. Network Model – CSF compartments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605673677-1R1C6L306V4TPNS4PLAB/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 9. Volume over time for a period of 150 min. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605717038-24VGNG887QFXASSNJD8H/img9.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 10. CSF compartment volume over time for a period of 150 min. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605829631-VK02TCIX7TH5NQQ8L5EJ/img10.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 11. Pressure over time for a period of 150 min. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605858065-P8YW09T24P91Y5J64MLS/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 12. Pressure in the blood flow compartments over time for two cardiac cycles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605897502-ENVZ5VNC7PDH0G30T2IO/img12.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 13. Change in area of a blood flow compartment over time for two cardiac cycles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605927883-ZCI5EQ6T6JTY7FHAHKZV/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 14. Pressure drop across the blood flow system https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605960140-K09RKSXBDZ7FHMHLPGEU/img14.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Figure 15. Pressure drop across the entire system and comparison with physiological data. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510605989093-2LIBQCJOGHPWYHHFHMAB/img15.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Table 1. Relationships used for the compartmental model and its electric circuit analogy. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510606022633-G5VMF2BMP07CDUDHXXX6/image-asset.jpeg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Table 2. Flow rates in and out of each compartment of the proposed model. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510606052043-Q0D0LBMX3D34KG6R2NLE/img17.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Table 3. Area change in the compartments of the proposed model. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510606106635-OZP2KIX1IJ4AQXZMS8WA/img18.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Equations 1-7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510606134520-AUJAFS0LVWM8DED9M870/img19.jpg 2008, June - Computer Modeling of Physiological Conditions for Better Understanding of Intracranial Blood Pressure and Brain Vasculature Equations 8-19 https://www.jyi.org/2008-june/category/Features monthly 0.5 https://www.jyi.org/2008-june/category/Research monthly 0.5 https://www.jyi.org/2008-june/category/Science+News monthly 0.5 https://www.jyi.org/2008-may daily 0.75 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/insects-smell-differently monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/6/13/quasars-confound-with-x-rays monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/testing-the-tree-of-life monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/cellular-defense-against-genetic-mistakes-party-is-over-for-proteins monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/smoking-and-drinking-the-major-risk-factors-for-alzheimers-disease monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/the-davinci-robot-reducing-recovery-time-and-medical-costs-in-the-operating-room monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/countering-global-warming-or-depleting-ozone-layer monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/restoring-vision-seeking-the-elixir monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/new-computer-game-promises-to-help-make-medical-breakthroughs monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/dinosaur-demise-and-earths-movement-in-the-milky-way monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/power-of-universities-improving-access-to-medicines monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/the-final-space-odyssey monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/13/editorial-a-novel-non-invasive-approach-to-diagnosing-urinary-tract-obstruction-using-cfd monthly 0.5 2017-11-13 https://www.jyi.org/2008-may/2008/5/12/convection-enhanced-delivery-into-agarose-gel-brain-tissue-phantoms monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548981013-I955I8NTZIDVHFJN67BD/img0+%281%29.jpg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Equation 1 1510 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549009987-VVAO8D1NBCZ4GUI0WQ5B/image-asset.jpeg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 1: Comparison of brain and agarose gel properties. The agarose gel is a relatively inexpensive brain surrogate whose properties closely match with that of the brain tissue (Chen et al. 2002; 2004) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549035212-733LFVJTKDLUP4WDQRGC/img2.jpg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 2: Schematic of the experimental setup. The main components are: a Harvard apparatus syringe pump, a stereotactic frame, a fluorescent light box to backlight the transparent gel as infusion is carried out. A digital camera connected to a PC to take snapshots of the dye distribution pattern at regular intervals and store the photographs to a hard disk https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549092279-8XDSYJ6IPMF7TY65KNTQ/img3.jpg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 3: Diffusion of trypan blue dye through 0.6% agarose gel at room temperature. The reservoir of dye was at location 0 mm. Concentration profiles were obtained at 1, 2, 3, and 4 hours after the beginning of the experiment (dots with measurement error bars). Solutions of the one-dimensional diffusion equation are represented by smoothed lines. An effective diffusion coefficient of 2.8 &times; 10-10 m2/s was used to fit the theoretical concentration profiles to the experimental data https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549123467-S920PSS5XJRRS6ZDTXHG/img4.jpg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 4: Photographs of convection enhanced infusion trials. The cannula in (a) was inserted into the solidified gel and hence shows no backflow or reflux. In frame (b), the cannula in the gel was not casted before infusion started and hence shows extensive reflux along the catheter shaft https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549150375-VHK14QDSG3YV8PVSD02H/image-asset.jpeg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 5: The effect of infusate molecule size on transport in porous media. Diffusion of bromophenol blue, a smaller molecule, was more extensive than that of trypan blue, a slightly larger molecule. The CED parameters were identical for the two trials: 1.0 μl/min through a 27-gauge cannula for 30 minutes, followed by diffusion for 1 hour https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549185328-6QMVC57459RSEOI37AWW/img6.jpg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 6: The effect of cannula diameter on transport in porous media during CED. During 30 minutes of infusion at 1.0 μl/min, the treatment volume increased most rapidly when the smallest cannula, a 30-gauge, was used. The larger treatment volume obtained with the 30-gauge cannula persisted even after another hour, during which time no infusion took place https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549216067-GF5ZAGNG15T1873FPVM7/img7.jpg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Figure 7: Representative concentration map and concentration profiles derived from experimental data. In (a), a typical concentration map is displayed and the pixel row from which a concentration profile was extracted is highlighted. In (b), the concentration profiles are shown at 20-minutes intervals during convection-enhanced delivery. The concentration profiles during diffusion only (following 60 minutes of CED) are shown in (c). Times shown in (c) are post-infusion times https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549250449-4BKA9MJYN0RI7W39Z6NK/image-asset.jpeg 2008, May - Convection-Enhanced Delivery into Agarose Gel Brain Tissue Phantoms Table 1: List of neurodegenerative diseases and their therapy (Pardridge 2005) https://www.jyi.org/2008-may/2008/5/12/cerebrospinal-fluid-tissue-interactions-in-the-human-brain monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547249172-EMBPPXMO12EZB5JYQ77O/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 1 1509 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547284005-MHPTUIBPIL0SWC0WZ540/img1.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547310362-YM0N2WEKB0YCK07VGC8Z/img2.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547347592-WDADB1IGIICS3LCSPSPX/img3.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547376722-T6VLP5KRJEEIJOIKVEPL/img4.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547407983-Q0ZS4G9LG8HLNMQEEIX5/img5.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547433700-VGPAS81SNSJRB1KW3E04/img6.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547459730-ONNIQ7WBIM3O2DS2WEH3/img7.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547487760-SBSC70CGITUAEFXN2SZJ/img8.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547516100-Y0YS16GWMQ76O7OLHI1K/img9.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547539654-D8EIJC7541OUY2K77RTJ/img10.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547565552-G59DA67XRQ9F0RKM370L/img11.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547592381-EUGZFRRM46RSRR1EIYAM/img12.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547667284-GTQS384ZU8TKB6EPDNKN/img13.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547698065-MM4NWV0LD5LJU1KW9DUI/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547740571-P1YFPRVSAKNM1RWWSN7R/img15.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547791893-71RK3SN1LW9YVNGGWD9Q/img17.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547822306-4TJ50452EELKEOQEND3Z/img18.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547868546-3X5S783PU1LBATQFAPC7/img19.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547906040-OQ587USY7KXQU3HBY6YM/img20.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 21 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547937233-8GD8XQJGPC2HV3MPE78F/img21.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 22 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547967634-W55KOZPV4XS4GPVTG6W9/img22.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510547994653-MNOCTNQQTSRMTZGAJ9D3/img23.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Equation 24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548103117-T4PSN52SJKASLJ353A7D/img24.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 1: Node and element definitions on a finite element mesh. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548128916-G18H7ONP6OGY0N0BUZU8/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 2: Diagram of the biological geometry used to create the computational mesh. One hemisphere of a horizontal brain slice was broken down into the domains of the ventricle, white matter, gray matter, and SAS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548157736-5NK1QKWBP3W9WODJAIAQ/img26.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 3: The computational mesh for the linear elastic case study composed of gray and white matter regions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548179250-IL806A39P7V4TLKGG9RX/img27.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 4: The computational mesh for the fluid model of the poroelastic case study composed of gray and white matter regions as well as cerebrospinal fluid regions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548209271-ZB1RTA7HMPQTJC93WSI9/img28.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 5: Computational mesh for the solid model showing prescribed and deformable boundary conditions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548279091-6YPGS96W9VU1NKL1EP76/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 6: Cardiac function used to describe assigned displacements which was extracted from experimental data of the cardiac pulse, the equations used can be shown in equation (24). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548304247-W1PKMFBZ1TY23T5I0PAY/img30.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 7: Linear elastic model showing displacement magnitude which was greatest in the center (red color regions) of the lateral edge of the ventricular wall. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548320683-Y9EM9A848MPH3KSJU3GN/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 8: Poroelastic case study solid model showing displacement magnitude. The maximum solid displacement (red color regions) occurred in the center of the lateral edge of the ventricular wall. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548362206-VL1EYAKYB8H5UR8EAFE6/img32.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 9: Linear elastic model showing effective stress which was greatest at the edges of the fixed portion of the slice and at the anterior and posterior horns of the lateral ventricles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548389627-Y6WO3MBJ1WELZH8X4IWZ/img33.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 10: Poroelastic case study solid model showing effective stress which was also greatest at the edges of the fixed portion of the slice and at the anterior and posterior horns of the lateral ventricles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548449734-LD3TGTZN4ZXAYY7D7N07/img34.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig 11: Fluid velocity magnitude plot for the poroelastic case study showing that maximum velocity occurred along the central edge of the lateral ventricle and a very substantially reduced fluid velocity was present within the parenchyma as compared to the ventricles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548550780-BBA5C0LZ0GJMZBVCNXPT/img35.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig. 12: Displacement magnitude during systole surrounding the lateral and 3rd ventricles. The maximum displacement of more than 3.4 mm occurred on the upper surface of the ventricular wall as it was compressed downward by the expanding parenchyma. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548628250-5TH2JY4N9YCCLTXAVQLR/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig. 13: The effective stress during systole was largest in the expanding choroid plexus and on the walls of the anterior and posterior horns of the lateral ventricles, approaching 533.4 N/m2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548659017-4Q8TOC3F87QB46I2C6DG/image-asset.jpeg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig. 14: The y-displacement in the ventricular area during late diastole was largest on the posterior horn of the lateral ventricle (0.0004 mm) and anterior edge of the foramen of Monroe (0.0007 mm) indicating that after the prescribed moving boundaries have returned to their original positions, a very slight deformation of the ventricles, presumably due to the CSF velocity, is present. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548691439-KDNUE5XZGOZVK7GREVCH/img38.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig. 15: The z-displacement in the ventricular area during late diastole indicates that the reversal of flow up into the ventricles during diastole deforms the lateral ventricle wall upwards a maximum distance of about 0.0002mm after the parenchyma has returned to its original size. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510548729933-5L7WBN2MF6DNT2LZFLIP/img39.jpg 2008, May - Cerebrospinal Fluid-Tissue Interactions in the Human Brain Fig. 16: CSF velocity magnitude during systole (left) and diastole (right). The maximum velocity achieved during systole is marked in the aqueduct of sylvius and was directed downward towards the spinal SAS. The maximum velocity achieved during diastole is also marked in the aqueduct of sylvius and was directed upward into the third and lateral ventricles https://www.jyi.org/2008-may/2008/5/13/a-novel-non-invasive-approach-to-diagnosing-urinary-tract-obstruction-using-cfd monthly 0.5 2020-01-15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549558444-82HKDI2FCLM4R18L5WV8/image-asset.jpeg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 1 1518 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549587762-0ZVL2U1G4JLUXWJ4HMDE/img1.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549630766-Y49ECYJY1U4QQN8KAE8U/img2.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549664691-AZ1HX706S5976XZ2H6U6/img3.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549705915-NT5U7YINJROGQJIVVMOQ/img4.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549741021-KWUVLM5K8WJ52AM7DYNI/img5.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549768683-CTLNGI5QEXQEZPFOCR03/img6.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549798299-HARYHC9ZVQH4KMFWBWJD/img7.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Equation 8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549924263-2AOBGACDDIT0F13D03FP/img8.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 1. Two-dimensional cross section of control grid with symmetric constriction. Venturi diameter was 5 mm and constriction diameter was 1.5 mm deep and 3 mm wide (moderate). Green lines represent triangular mesh, blue line designates velocity inlet, and red line designates pressure outlet. Model was created in Gambit for subsequent simulation in Fluent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510549969163-8O9FO0D888W5LK00Z021/img9.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 2. Two-dimensional cross section of grid with variable distance between constrictions, relative to control case. Specifically shown, a distance of 6 mm spans between two moderate constrictions (1.5 mm deep, 3 mm wide). Green lines represent triangular mesh, blue line designates velocity inlet, and red line designates pressure outlet. Model was created in Gambit for subsequent simulation in Fluent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550015405-DCM44NI2ORH6KPTARLXC/image-asset.jpeg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 3. Two-dimensional cross section of grid with multiple constrictions and variable distances between them. The effects of both constriction severity (depth, width) and distance were assessed. Specifically shown, two constrictions with a medium spanning distance and moderate constriction (1.5 mm deep, 3 mm wide). Green lines represent triangular mesh, blue line designates velocity inlet, and red line designates pressure outlet. Model was created in Gambit for subsequent simulation in Fluent https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550056466-WG1ZS4F7V5NSRCILDY4C/img11.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 4. Three-dimensional control grid with symmetric constriction. Venturi diameter was 5 mm and constriction diameter was 1.5 mm deep and 3 mm wide (moderate). Model was created in Gambit by rotating respective two-dimensional cross sectional grid 360 degrees about the horizontal line of symmetry. Black lines represent tetrahedral mesh, blue face designates velocity inlet, and red face designates pressure outlet. Model was subsequently simulated in Fluent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550113062-AT8ZQ80OGPC029TFS20O/img12.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 5. Two-dimensional cross sectional healthy model of the ureter, created via a 10:1 anatomical scaling in Gambit. Cartesian coordinates used are presented in Table 1. Coordinates were labeled A1-G1 and A2-G2. Green lines represent triangular mesh (0.5 spacing, determined by grid independence test), blue line designates velocity inlet (ureteropelvic junction, edge A1A2), and red line designates pressure outlet (ureterovesical junction, edge G1G2). Abdominal and pelvic segments of ureter connect at C1 and C2. Non-uniform Rational B-Splines were used to connect ureter walls, A1G1 and A2G2. Model was subsequently simulated in Fluent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550144264-03HV6TY7BY1T25XLUEXJ/img13.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 6. Two-dimensional cross sectional healthy model of male urethra, created via a 20:17 anatomical scaling in Gambit. Cartesian coordinates used are presented in Table 2. Coordinates were labeled A1-R1 and A2-R2. Green lines represent triangular mesh (0.5 spacing, determined by grid independence test), blue line designates velocity inlet (bladder neck, edge A1A2), and red line designates pressure outlet (urethral orifice, edge R1R2). Prostatic urethra conjoins membranous urethra between points G and H, and membranous urethra conjoins spongy (penile) urethra at point H. Navicular fossa is encompassed by segment PR. Non-uniform Rational B-Splines were used to connect urethra walls, A1R1 and A2R2. Model was subsequently simulated in Fluent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550195587-AADIFRRWV5CQK8YEAZ0Y/img14.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 7. Flow characteristics in laminar solver (Fluent) for two-dimensional control Venturi. Reynolds number was 700 based on inlet velocity, and constriction was of moderate severity (1.5 mm deep, 3 mm wide). The effect of the constriction on velocity, static pressure, dynamic pressure, and total pressure are shown by respective contour plots. Blue contours represent minimal (zero) values, while red contours represent maximal values. Velocity and dynamic pressure display maximal values at site of constriction, whereas static pressure is at a minimum. Note that, despite the laminar flow profile, contours appear to drift upwards, possibly an effect of flow that has not developed fully. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550230776-15JUD9S0OK7ZURYN96AQ/img15.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 8. Flow characteristics in turbulent standard k-epsilon solver (Fluent) for two-dimensional control Venturi. Reynolds number was 5,000 based on inlet velocity, and constriction was of moderate severity (1.5 mm deep, 3 mm wide). The effect of the constriction on velocity, static pressure, dynamic pressure, and total pressure are shown by respective contour plots, and are shown for comparison to fluid dynamics of the same model in the laminar solver (Re=700). Blue contours represent minimal (zero) values, while red contours represent maximal values. As in the laminar solver, velocity and dynamic pressure display maximal values at site of constriction whereas static pressure is at a minimum. However, the non-symmetric distribution of contours is a result of the turbulent nature of the flow. Underdeveloped flow may also contribute to the observed distribution. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550274087-UYWUJ67NHQRH17LKCJ6H/img16.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 9. Velocity contours of two-dimensional cross section of healthy ureter, simulated in turbulent standard k-epsilon solver (Fluent). Contours are shown for the ureter as a whole (a), and for magnified region at the ureteropelvic junction (UPJ, inlet) (b) and ureterovesical junction (UVJ, outlet) (c). Blue contours represent minimal (zero) values, while red contours represent maximal values of velocity. Trend indicates a steady increase in urine velocity throughout the ureter from the UPJ to the UVJ, due to natural narrowing of the diameter. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550308167-EDXFW786UKA9LVXT9OP5/img17.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 10. Velocity contours of two-dimensional cross sections of obstructed cases of the ureter, simulated in turbulent standard k-epsilon solver (Fluent). As shown, contours are magnified at the outlets (ureterovesical junction) for the cases of UPJ constriction (a), constriction at the abdomino-pelvic junction (b), and UVJ constriction (c). Blue contours represent minimal (zero) values, while red contours represent maximal values of velocity. Compared to the healthy ureter, constricted cases displayed decreased ureteral outflow, notable especially in the cases of UPJ and UVJ constriction. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550344989-A8OB5OVRLHDS5RG1D5A4/img18.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 11. Velocity contours and vectors of two-dimensional cross section of healthy urethra, simulated in turbulent standard k-epsilon solver (Fluent). Contours are shown for the urethra as a whole (a) and magnified at the bladder neck (b). Vectors are shown for magnified region at the navicular fossa and urethral orifice (c) to display circulatory nature of flow. Blue contours represent minimal (zero) values, while red contours represent maximal values of velocity. Trend displays increased velocities in narrower regions of the urethra, as expected, with outlet velocity slightly greater than at the inlet. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550399151-7OJ3TBF166XSYVAWGFZR/image-asset.jpeg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Figure 12. Velocity contours of two-dimensional cross section of obstructed cases of the urethra, simulated in turbulent standard k-epsilon solver (Fluent). As shown, contours are magnified at respective sites of constriction. Specifically displayed are the cases for bladder neck obstruction (a), benign prostatic hyperplasia (BPH) (b), and bulbar spongy urethral (first-angle) constriction (c). Blue contours represent minimal (zero) values, while red contours represent maximal values of velocity. Trends illustrate that velocity continues to increase as diameter narrows; however, depending on the severity of the constriction, as the diameter continues to narrow, the effects of wall shear stress generated on each side of the tract converge, thereby causing velocity to drop instantaneously to zero (complete obstruction). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550496329-UO27917G65LE4R4VEEQ6/img20.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Table 1. Cartesian coordinates used for two-dimensional cross section of healthy ureteral grid, determined via a 10:1 anatomical scaling in Gambit in conjunction with specific anatomical parameters. Coordinates were labeled A1-G1 and A2-G2 and connected via non-uniform Rational B-Splines, as displayed in Figure 5. Both the abdominal and pelvic segments of the ureter are included. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550533843-T32G1G6T2KS7XINVD664/img21.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Table 2. Cartesian coordinates used for two-dimensional cross section of healthy urethral grid, determined via a 20:17 anatomical scaling in Gambit in conjunction with specific anatomical parameters. Note that each coordinate displayed in the table was multiplied by a factor of 20/17 prior to plotting in Gambit. Coordinates were labeled A1-R1 and A2-R2 and connected via non-uniform Rational B-Splines, as displayed in Figure 6. Anatomical segments included in the model are the prostatic urethra, membranous urethra, spongy (penile) urethra (both bulbar and non-bulbar), first angle (bend), and navicular fossa. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550577242-V6RB72K7X1DOF44TNVEU/img22.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Table 3. Numeric flow data for two-dimensional cross section of control Venturi comparing the laminar (Re=700) and turbulent standard k-epsilon (Re=5,000) cases (Fluent). Shown are the approximate measured contour values for velocity (in m/s), static pressure, dynamic pressure, and total pressure (in Pa) at the inlet, outlet, and site of constriction, as depicted in Figures 7 and 8. Note that in some cases, a range of values, rather than a single value, more accurately depicted the transverse variability in certain variables. Significantly higher magnitudes of velocity and pressure were measured in the turbulent case as compared to the laminar case because inlet velocities needed to be greater to accommodate larger Reynolds values. From the relative velocities at the site of constriction, an inverse relationship between velocity and diameter illustrates the validity of conservation of mass. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550622672-46NWUEHCV975OQOI1U2L/img23.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Table 4. The quantitative effect of variable constriction severity on flow characteristics for the two-dimensional symmetric Venturi cross-section. Numeric data for velocity (in m/s), static pressure, dynamic pressure, and total pressure (in Pa) at the inlet, outlet, and site of constriction are shown for both the laminar (Re=700) and turbulent standard k-epsilon (Re=5,000) cases (Fluent). Compared to the control case of moderate constriction severity (1.5 mm deep, 3 mm wide), mild and severe cases were analyzed. Note that in some cases, a range of values, rather than a single value, more accurately depicted the transverse variability in certain variables. Higher inlet velocities were specified in the turbulent solver to accommodate larger Reynolds values. The trend indicates an overall direct correlation between velocity, the magnitudes of pressure, and constriction severity, as expected. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550704548-IOZLWS3IDK6OVWZG3NSR/img24.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Table 5. Measured inlet and outlet velocities in two-dimensional cross sectional models of both healthy and obstructed cases of the ureter, simulated in turbulent standard k-epsilon solver (Fluent). Specific locations of obstruction were at the ureteropelvic junction, abdomino-pelvic junction, and ureterovesical junction. Inlet velocity of 0.284 m/s converged in all cases. Data indicates decreased ureteral outflow as a result of disease, especially notable in the cases of UPJ and UVJ constriction. *Note that in the case of UVJ constriction, due to the severity of constriction, the outlet velocity was measured to be zero because of the converging effects of wall shear stress generated from the two sides of the tract. Prior to complete flow obstruction, the flow displayed a velocity range between ~2.98 m/s and 4.26 m/s. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510550744061-WDXOLTS6QIN76A7Y9O0D/img25.jpg 2008, May - A Novel, Non-Invasive Approach to Diagnosing Urinary Tract Obstruction Using CFD Table 6. Measured inlet and outlet velocities in two-dimensional cross sectional models of both healthy and obstructed cases of the urethra, simulated in turbulent standard k-epsilon solver (Fluent). Specified locations of obstruction were at the bladder neck, prostatic urethra (benign prostatic hyperplasia, BPH), and spongy urethra. An inlet value of 5.0 m/s enabled convergence in the healthy model. An inlet velocity of 1.166 m/s converged only in the case of bulbar spongy urethral constriction. With the exception of the case of bladder neck constriction, the data indicates relatively higher outlet flow velocities (as compared in magnitude to the specified inlet values). https://www.jyi.org/2008-may/category/Features monthly 0.5 https://www.jyi.org/2008-may/category/Research monthly 0.5 https://www.jyi.org/2008-may/category/Science+News monthly 0.5 https://www.jyi.org/2008-april daily 0.75 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/circuits-alive monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/gene-clustering-facilitates-plant-defense monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2017/11/12/8n84vp6lwu6qvfz32fbln22j5apod4 monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/planets-reported-to-shape-planetary-nebulae monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/titans-hidden-ocean monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/dementia-risk-widens-with-waist monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/drug-companies-keeping-secrets-negative-clinical-trial-data monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/mumps-makes-a-comeback-to-the-us monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/mars-avalanche-captured-on-film monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/a-peek-into-psychopharmacology-rats-on-drugs monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/editorial-us-presidential-candidates-must-address-political-scientific-crisis monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/editorial-what-factors-influence-mate-selection monthly 0.5 2017-11-13 https://www.jyi.org/2008-april/2008/4/12/supply-side-of-child-trafficking-economic-analysis-using-utility-models monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510544592262-XM8L1EF9TZ8U3YZTN1G5/img0+%281%29.jpg 2008, April - Supply Side of Child Trafficking: Economic Analysis using Utility Models Figure 1: Ehrlich's model showing how the optimum distribution of legal and illegal activities is derived https://www.jyi.org/2008-april/category/Features monthly 0.5 https://www.jyi.org/2008-april/category/Research monthly 0.5 https://www.jyi.org/2008-april/category/Science+News monthly 0.5 https://www.jyi.org/2008-march daily 0.75 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/gecko-inspired-designs-for-bypass-surgeries monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/nanotechnology-to-solve-water-crises monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/cry-of-the-monkey-cant-say-you-werent-warned monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/new-avenue-to-eradicating-the-1-killer-cancer monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/drugs-like-aspirin-may-reduce-the-incidence-of-breast-cancer monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/larvae-of-sand-dollars-stave-off-predators-by-self-cloning monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/ocean-bacteria-bend-the-rules-of-photosynthesis monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/editorial-the-world-is-flat-and-bad monthly 0.5 2017-11-13 https://www.jyi.org/2008-march/2008/3/12/the-stem-cells-that-promise-no-miracles monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542680530-210VUKM7B89MOXIAQP18/img0.jpg 2008, March - The Stem Cells That Promise No Miracles Cancer stem cells (top) looks and behaves almost exactly like normal stem cells (above). Image Courtesy of Union-Tribune https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542707276-S7X6TQXY23XQP5MNAU02/img1.jpg 2008, March - The Stem Cells That Promise No Miracles Cancer stem cells can arise from a variety of different sources. At any stage of development, mutations (lightning bolts) may accumulate enough to turn stem cells bad, or give non-stem cells stemlike abilities. Cancer stem cells may also form from the fusion of a stem cell and a mutated normal cell (not shown) Image Courtesy of Nature https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542731614-D4HVK2Y9KVMQXQZ08OOL/image-asset.jpeg 2008, March - The Stem Cells That Promise No Miracles The feverfew plant contains a compound that has been shown to effectively and selectively induce cellular suicide in AML stem cells. Image Courtesy of Herbalextractsplus.com https://www.jyi.org/2008-march/2017/11/12/vitamin-d-and-its-importance monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542317738-1LDT9M2WFWS595RV4EWE/img0+%281%29.jpg 2008, March - Vitamin D and its Importance Image Courtesy: Oregon State University https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542359623-HT2TOU9BM2HHZ7F0L5SU/img1.jpg 2008, March - Vitamin D and its Importance Image Courtesy: Massachusetts General Hospital https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542393169-SMAHPVZM7CDJP9LC6ZM7/image-asset.jpeg 2008, March - Vitamin D and its Importance Image Courtesy: Colorado State University https://www.jyi.org/2008-march/2008/3/12/editorial-design-and-development-of-resonance-frequency-tracking-software-using-labview monthly 0.5 2020-05-07 https://www.jyi.org/2008-march/2017/11/12/possible-detection-of-hcl-in-eta-carinaes-513-kmsec-ejected-component monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510539022037-XTGVLBYTJVJTO5S6XV8T/image-asset.jpeg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Table 1: The log of column densities (cm-2) and temperatures (K) for the observed species in the -513 km/sec component from Verner et. al (2005). They were used as a guide in our investigation of probable ranges of physical parameters in the -513 km/sec component with the most recent, improved version of CLOUDY. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510539052041-KO24ZF601PVZAYZQ019Y/image-asset.jpeg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Figure 2: The predicted column densities (cm-2) for CH, OH, CO, and HCl vs. the silicate grain abundance (ratio of silicates to silicates contained in Orion Nebula) from CLOUDY simulations of Eta Carinae's -513 km/sec component. The carbon to oxygen ratio is fixed at 5.9 and the hydrogen density at 107. 8 cm-3. The dust grain abundance that best reproduces the observations of CH, OH, and CO is 2.3-2.8 times more silicates than in the Orion Nebula. Notice HCl in this regime is comparable to the CH and OH abundances. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510541800777-M6KQIQUCG2YI8ISJNZHL/image-asset.jpeg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Figure 3: The predicted column densities (cm-2) for CH, OH, CO, and HCl vs. the central source temperature (Kelvin) from CLOUDY simulations of Eta Carinae's -513 km/sec component. The top and bottom graphs have carbon to oxygen ratios of 5.9 and 1.1 respectively. Both models are held at a hydrogen density of 107. 8 cm-3. For a carbon to oxygen of 5.9 a central source temperature near 20,000 K best matches observations, while for a ratio of 1.1 a temperature of only 15,000 K best matches observations. HCl in both cases remains much more prevalent than the other species. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510541835191-V7UEPHTX3L6QU2LLG63G/img6.jpg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510541884507-OQHZ3UV1UXEFOTGG201Q/img7.jpg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Table 2: The identified HCl lines in Eta Carinae's -513 km s-1 component and the corresponding radial velocities. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510541950596-W8IF485JN2RL7XQP8YZT/image-asset.jpeg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Equation One https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510541980920-M0KP8R5T4CVKVNEP0Y2J/image-asset.jpeg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Equation Two https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510542009903-PWJ2RV5MU97D7SGNAYWH/img8.jpg 2008, March - Possible Detection of HCl in Eta Carinae's -513 km/sec Ejected Component Figure 5: The natural log of column densities Ni vs. the wave number . Here g is the degeneracy and h,c,k are all fundamental constants in cgs units. The transitions R(1)-R(4) and R(6) were used for the graph. The rotational temperature, or the inverse slope of the graph, is 500  140 K. https://www.jyi.org/2008-march/2017/11/12/electromagnetic-properties-of-microwire-epoxy-composite monthly 0.5 2019-05-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538037665-4X9P0FB90PP0XWFFJK1J/img0+%281%29.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 1: Contacting Electrode Method for measuring dielectric permittivity. The microwire-epoxy composite is sandwiched between two electrodes to form a capacitor. This method derived permittivity by measuring the capacitance of the electrode contacting the material under test (MUT) directly. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538066776-0ITB7SELD9K5F80JS1S4/image-asset.jpeg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 2: Inductance measurement method for measuring magnetic permeability. Effective permeability of magnetic material was derived from the self-inductance of a cored inductor that has a closed loop. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538106907-XJU1IFXY3GEDOUDWAMFD/img2.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 3: Scanning Electron Microscope Image of the short fibers from microwire. It shows that the size of the microwire metal core is about 5 μm in diameter and the total thickness with glass coating is about 13 μm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538142094-U11HI2Z0738RHGA6GVWJ/img3.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 4: X-Ray Diffraction pattern which shows that the short microwire used in this study is amorphous. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538191507-BKJ4RFHLF5YGF73BHX46/img4.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 5: Comparison between graph of density against weight fraction with different quantities of short and long fibers. It shows the measured and calculated values of the microwires. This may lead to slight fluctuations in the trends for permeability and permittivity measured. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538258884-TRFJBPDQZDMAMR4GNX9F/img5.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 6: Graph of conductivity against weight concentration. The percolation phenomenon (sudden rise in conductivity) is between 1% and 2%. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538266602-DRWTBR9VCSZ70Z8OSNGG/img6.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 7: Variation of dielectric constant with different concentrations of microwire https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538274301-Z90HCD7O3VHZBBLAJ1MU/image-asset.jpeg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Figure 8: Variation of dielectric loss with different concentrations of microwire Figure 9: Graph of real/imaginary permeability against concentration https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538483896-7C9536ROMJKA58IS3P0R/img9.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 1 1493 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538531728-5UYAR79ISL9PVUSIAEDF/img10.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538563042-LHMHFV4RT12RH7P6VAVO/img11.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538586178-X5Y8YT77E20DRNMLC4D5/img12.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538624806-3MUNICZFCNFM43A2SBAV/img13.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538653347-K5U48C5LKE21YL270UFL/img14.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510538710478-WAZ04BQ7E6TWW8C4K556/img15.jpg 2008, March - Electromagnetic Properties of Microwire-Epoxy Composite Equation 7 https://www.jyi.org/2008-march/2017/11/12/design-and-development-of-resonance-frequency-tracking-software-using-labview monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537323587-XBP8HAHW4U25JQSCCK8C/img0.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 1. Two types of acoustic sensors are shown. Surface acoustic wave (SAW) sensors and bulk acoustic wave (BAW) sensors are subdivided. The subdivisions of each type of sensor are characterized by the types of waves which propagate through the device. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537357455-4UQ4XBS2TQRUROB4U70Q/img1.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 2. LabVIEW uses a graphical programming language called "G". This graphical programming language closely ties the user interfaces known as "front panels" to the underlying code of the block diagram. The block diagram of the software is shown above as a general overview. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537415776-SPABUNUAODHNN320M6AD/image-asset.jpeg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 3. The data acquisition section of the block diagram receives data from the network analyzer. It sets the frequency at which measurements are taken. Additionally, the resonance frequency amplitude versus frequency is outputted to a front panel. This section of the resonance frequency tracking software block diagram is shown above in more detail. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537445732-2N3ZAXAZY1S9LJAP6Z29/img3.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 4. The for loop in the data organization section of the resonance frequency tracking software block diagram extracts the clustered data into its x and y values of amplitude and frequency. The index of the minimum amplitude is provided to the frequency array for pairing with the frequency at the same index. The data organization section of the resonance frequency tracking software block diagram is shown in detail above. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537476812-77VXJNZ1013H3GXSA6IR/img4.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Equation 1 1492 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537540314-N2ATBUN9DHIR3RX6LT7M/img5.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 5. The Write to Measurement File VI outputs the inputted minimum frequency versus a time array to a LabVIEW text file. The time array is automatically generated using the system clock. This section of the resonance frequency tracking software block diagram is shown above. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537584290-7AWW7Z9ZXOT3SKQDF7IH/img6.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 6. The front panel provides the interface between the user and the program. It allows the user to easily control the measurement parameters. An example of the front panel while the software is in operation is shown above. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537636915-0B6BUI7TFTQ989O07J93/img7.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 7. Acetone was hand-pipetted onto the surface of a QCM SAW device. The resonance frequency was tracked as it dropped due to mass loading and returned to its original value as the acetone evaporated. A plot of the resonance frequency versus time after dropping acetone on QCM is shown. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537645013-Y8O872UH7092EEWQBFVR/img8.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 8. Acetone was hand-pipetted onto the surface of a horizontal shear SAW device. It can be seen that the software successfully tracks the resonance frequency. The resonance frequency exhibited the expected outcome of an initial drop followed by a gradual rise back to original value. A plot of the resonance frequency versus time after dropping the acetone is shown above. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510537737791-L5NIQDDYHZ9BEO0B2IA1/img9.jpg 2008, March - Design and Development of Resonance Frequency Tracking Software Using LabVIEW Figure 9. Acetone was dropped on a longitudinal mode BAW device. The resonance frequency was tracked as the acetone evaporated. The fact that the resonance frequency did not return to its original value may be attributed to the acetone residue left on the surface of the sensor. The plot of resonance frequency versus time after dropping acetone on a longitudinal mode BAW device is shown https://www.jyi.org/2008-march/category/Features monthly 0.5 https://www.jyi.org/2008-march/category/Research monthly 0.5 https://www.jyi.org/2008-march/category/Science+News monthly 0.5 https://www.jyi.org/2008-february daily 0.75 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/more-than-just-a-bump-on-the-head monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/genetic-analyses-may-identify-hidden-species monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/another-sign-of-global-warming-underwater-deserts-expand-alarmingly-fast monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/stormy-weather-on-the-horizon-nasa-explores-el-nino monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/blind-cavefish-still-sense-light monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/the-knot-is-untied-the-c-14-mystery-is-solved monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/to-drive-through-or-not-to-drive-throughthat-is-the-question monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/mitochondrial-diseases-the-cracked-bottleneck-of-inheritance monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/novel-prostate-cancer-biomarker-surpass-existing-prognostic-tools monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/rebuilding-a-green-city monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/hold-still-i-can-feel-your-liver-new-technology-allows-radiologists-to-feel-organs monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/the-new-da-vinci-code-detecting-hidden-artworks-with-terahertz-rays monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/carbon-cycle-in-the-rivers-a-drop-from-the-ocean monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/chemical-constructs-trap-carbon-dioxide-emissions monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/guest-article-biotechnologically-engineered-antimicrobial-peptides-hope-against-multiresistant-bacteria monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510534896315-I13PJO19BKIU9BRK5A3X/image-asset.jpeg 2008, February - GUEST ARTICLE - Biotechnologically Engineered Antimicrobial Peptides – Hope Against Multiresistant Bacteria Structure of beta-turn mimic https://www.jyi.org/2008-february/2008/2/12/going-nano-an-exploration-of-tiny-science-with-big-possibilities monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510534682616-MYJT7Z2J58WS6QNSQ6JL/img0.jpg 2008, February - Going Nano: An Exploration of Tiny Science with Big Possibilities A nanoparticle superlattice from the lab of Dr. Chris Sorensen. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510534717142-VU2VGDLEXV18ZWEBFCKN/img1.jpg 2008, February - Going Nano: An Exploration of Tiny Science with Big Possibilities Illustration of the microfluidic device developed by Dr. Velev and his team. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510534738563-MYKZFDCWO0A3IREBIT8O/img2.jpg 2008, February - Going Nano: An Exploration of Tiny Science with Big Possibilities Images of silver nanoparticles both outside (A) and inside (B) living cells, courtesy Xiaohung Nancy Xu of Old Dominion University. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510534764376-H5EU48PMBMSNNIVH1QU4/img3.jpg 2008, February - Going Nano: An Exploration of Tiny Science with Big Possibilities Color correlation to size of nanoparticles. Image courtesy Xiaohung Nancy Xu of Old Dominion University https://www.jyi.org/2008-february/2008/2/12/taming-the-flu-virus monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/powering-nations monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/the-emergence-of-the-robot-brain monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510534073050-3BG413V4WWFWLTDRCNIB/img0+%281%29.jpg 2008, February - The emergence of the robot brain article_1413_order_0 https://www.jyi.org/2008-february/2008/2/12/editorial-longevity-in-the-honeybee-apis-mellifera-expression-of-telomerase-and-insulin-signaling-pathway-genes-in-queen-and-worker-bees monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/editorial-for-localization-of-nicotine-sensitive-cells-in-the-brainstem monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2008/2/12/checkmate-yahtzee-11010101-i-resign-game-playing-machines monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510533743309-3LZULHFQXEY2KXEWJ0QK/img0.jpg 2008, February - Checkmate, Yahtzee, 11010101 - I Resign! ..... Game playing machines article_1414_order_0 https://www.jyi.org/2008-february/2008/2/12/the-feats-of-a-frontiersman-in-cancer-research monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/2017/11/12/energy-security-the-future-of-the-argentine-natural-gas-economy-in-relation-to-exploration-exploitation-consumption-exportation monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532805621-KVE31ZSPPW1B79THZ883/image-asset.jpeg 2008, February - Energy Security: The Future of the Argentine Natural Gas Economy in Relation to Exploration, Exploitation, Consumption & Exportation Figure 1 – The Argentine Natural Gas Economy Balance: The rising levels of consumption, exports, and exploitation in conjunction with decreasing levels of exploration have caused a great imbalance of the Argentine natural gas economy balance. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532844869-QC8C3AHBJHSE0TOQ4UB1/img1.jpg 2008, February - Energy Security: The Future of the Argentine Natural Gas Economy in Relation to Exploration, Exploitation, Consumption & Exportation Figure 2 - The Twenty-four Sedimentary Basins of Argentina: The future of exploration appears promising; the basins that have not been exploited represent 68% of the total basin area. Overall, there is 1.845.000 km2 of sedimentary basin area. Of this total, 68% (1.254.600 km2) are not in operation to exploit gas (Lopez, 2006). The nineteen non-exploited basins are: Bolsones, San Luis, Mercedes, Levalle, Macachin, Northeast, Salado. &Ntilde;irihuau, Ca&ntilde;adon Asfalto, Deseado, Malvinas, Malvinas Oriental, Malvinas Norte, San Julian, Argentina, Rawson, Peninsula Valdez, Colorado and Claromeco. It is important to note, as shown that not all the sedimentary basins of Argentina are land based; twelve of the basins are on land, six are marine basins and six straddle the coast. (Marine basins are located up to 200 miles from the Argentine coast.) These differences are worthy of mention because the circumstance of different locations affect drilling and exploration costs. Costs are greatly affected by the accessibility of the location of natural gas. Seventy-nine percent of the sedimentary basins are on land. This amounts to 1,457,550 km2, as compared to 387,450km2 of marine basins, or twenty-one percent (Lopez, 2006). Source: Carlos Pucci, 2006 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532895734-2TYNO1NOSKVY86YNUYQA/img2.jpg 2008, February - Energy Security: The Future of the Argentine Natural Gas Economy in Relation to Exploration, Exploitation, Consumption & Exportation Figure 3 - The Players of the Argentine Natural Gas Economy: The government and companies of the natural gas economy have different perspectives. On the government side, reserve life is the most important issue, second, investment, and finally the selling price of natural gas. In contrast, companies are primarily concerned with the selling price of natural gas, second, the level of investment in the economy and finally reserve lives. These differences can create a conflict of interest. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510533093369-A19GPRRS4U71JUH2QY8G/img3.jpg 2008, February - Energy Security: The Future of the Argentine Natural Gas Economy in Relation to Exploration, Exploitation, Consumption & Exportation https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510533087989-OTS1HEEY3TL1L4X99ZDE/img4.jpg 2008, February - Energy Security: The Future of the Argentine Natural Gas Economy in Relation to Exploration, Exploitation, Consumption & Exportation Table 2 - Comparing Production Levels: If businesses do not explore more, the potential of the reserves suffer. For example, in the year 2004 the level of the productive reserves decreased 9.5% (Lopez, 2006). Source of Statistics: Lopez, 2006 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510533117244-W3A7WNLTAT2HZ9UYBDAD/img5.jpg 2008, February - Energy Security: The Future of the Argentine Natural Gas Economy in Relation to Exploration, Exploitation, Consumption & Exportation Table 3 - Probable Quantities of Natural Gas in the Productive Sedimentary Basins in 2005: The probable quantities that remain (without the additional exploration) in the five productive reserves are relatively low. In total, Argentina has 252398 Mm3 of probable quantities of natural gas without additional exploration. Between 2004 and 2005, remaining (known) natural gas quantities decreased by 19% (Lopez, 2006). The most feasible solution to lengthen the lives of reserves is clearly more exploration, and first of all more international investment is necessary to explore. Source of Statistics: Lopez (2006) https://www.jyi.org/2008-february/2017/11/12/longevity-in-the-honeybee-apis-mellifera-expression-of-telomerase-and-insulin-signaling-pathway-genes-in-queen-and-worker-bees monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532441086-6GYC0T30PZ4523S3QY16/image-asset.jpeg 2008, February - Longevity in the Honeybee (Apis mellifera): Expression of Telomerase and Insulin Signaling Pathway Genes in Queen and Worker Bees Figure 1 - Comparison of relative Tert and FOXO levels in queens and workers. One standard error bar is shown. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532465541-R288OX9INEMTWLQZNZCL/img2.jpg 2008, February - Longevity in the Honeybee (Apis mellifera): Expression of Telomerase and Insulin Signaling Pathway Genes in Queen and Worker Bees Figure 3 - Comparison of Tert and FOXO levels in laying, non-laying, and virgin queens. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532491899-K2QDQ1DBNJ85GVBCSDWW/img1.jpg 2008, February - Longevity in the Honeybee (Apis mellifera): Expression of Telomerase and Insulin Signaling Pathway Genes in Queen and Worker Bees Figure 2 - Comparison of relative Tert levels in No Treatment (NT) and QMP treated worker bees. https://www.jyi.org/2008-february/2017/11/12/localization-of-nicotine-sensitive-cells-in-the-brainstem monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532237104-O8G7FYDPZ7ZCXKEIU4K9/img0+%281%29.jpg 2008, February - Localization of Nicotine-Sensitive Cells in the Brainstem Figure-1: Low Magnification Image of Pedunculopontine Nucleus Neurons Labeled with NADPH-diaphorase. Image of a portion of a ~140µM thick representative section of fresh (unfixed) brain cut ~1.8 mm lateral of the midline. Section was stained with nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d). The dark purple staining is produced by an insoluble precipitate from the nitroblue tetrazolium chromogen and is specific to cholinergic neurons. Cholinergic PPN neurons are labeled and easily identified by their dark staining, large size and location. Other stained neurons are visible throughout the upper portion of the image (circled). Image was made using a dissection scope, approximate magnification 10X. Cerebellum was sectioned and stained, but is not shown in this image. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532272229-BUFL8XIAXFGHIUSGZUHZ/img1.jpg 2008, February - Localization of Nicotine-Sensitive Cells in the Brainstem Figure-2: Black and White Epifluorescence Image of labeled Pyramidal Hippocampal Neurons. Image of a portion of a ~140µM thick representative section of fresh (unfixed) brain cut ~1.7 mm lateral of the midline. Section was stained with fluorescein α bungarotoxin (FITC α BTX). BTX is a competitive antagonist of α7 subunits of nicotinic acetycholine receptors (nAChR) and is used to label cells expressing this form of the nAChR. In this image, pyramidal neurons are brightly fluorescent and easily identified. Image was made using a Nikon Eclipse E800 epifluorescence microscope (excitation: 490nm, emission: 520nm) equipped with an Hg-vapor lamp and a B&W Cascade Photometric camera. No labeled brainstem cells were observed in this section. Magnifications 1000X. https://www.jyi.org/2008-february/2017/11/12/miniaturized-collagen-static-tension-tissue-molds-tested-with-cardiac-aortic-valve-cells-and-decorin-knocked-out-fibroblasts monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531727381-7JNK2WMXDSMTVAI2KG92/image-asset.jpeg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Equation 1 1448 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531754095-TSW1DJKMI16TO3V4U0KG/img1.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Equation 2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531774609-U0PBQPR2EMKQM5XCAR0F/image-asset.jpeg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Table 1. Well I, Well II, Well III and Well IV produce 37%, 60%, 68% and 91% reductions in total volume, respectively, when compared to the Control Well. The radii, width, depth and length calculations were determined via Equation 1 for Wells I, II and IV. Equation 2 was used to determine the dimensions for Well III. The same aspect ratio of 8-1 is preserved for all new designs. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531802142-8M15T1MD8V4O3K5DMZJR/image-asset.jpeg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Table 2. It took five days before measurable contraction was seen. Well I, Well II and the Control Well produced comparable contraction percentages for the cardiac aortic cells. The greatest increases in contraction occurred within the first few days of testing. Contraction leveled off to around 50% as time progressed. Well III disconnected while Well IV failed to contract. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531825307-UHEUF4MH293QFH21LF45/img4.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Table 3. Measurable contraction occurred more quickly (2 days vs. 5 days) in the decorin knocked out cells. Well I, Well II, Well III created greater contraction percentages than the Control Well for decorin knocked out cells. The newly designed wells contracted approximately 10% more than the contraction in the original well. Again, we see a trend of high initial contraction followed by a leveling off to 60-70%. Well IV failed to contract. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531882265-8XT3E8ERTFHVP474S7SP/img5.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Figure 1. The original resin prototype made by SLA is not shown. A silicon mold is poured over the resin to produce the mold shown. Well I, Well II, Well III and Well IV produce 37%, 60%, 68% and 91% reductions in total volume, respectively, when compared to the Control Well. The dimensions for Well I, III and IV were calculated using Equation 1. The dimensions for Well II were calculated from Equation 2. The original well is included in this silicon mold to serve as control. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531920828-9N6MVWPVX8SF3AWI3MXX/img6.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Figure 2. Current CSTT mold being used in the lab with contracting heart valve tissue. The well designs are prohibitively large and require a large amount of reagents. A new cost efficient design will enhance the utility of CSTT molds in research. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531944968-J61BL3B801R0M5SCGNTQ/img7.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Figure 3. Contraction percentages are shown here for all wells tested with cardiac aortic cells. There is a decreasing rate of contraction with time. The Control Well, Well I, Well II and Well III show similar trends. There is a trend of rapid contraction followed by a leveling off in every well except Well IV. Well III disconnected from the holder at day 9 while Well IV failed to contract. The tissue remained adhered to the side of the well. The final contraction percentages hovered around 51% for all successful wells. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531984470-VYTH2HX7CAURKKM1O7NU/img8.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Figure 4. Contraction percentages are shown here for all wells tested with decorin knocked out cells. There is a decreasing rate of contraction with time. The Control Well, Well I, Well II and Well III show similar trends. There is a trend of rapid contraction followed by a leveling off in every well except Well IV. Again, Well IV failed to contract. The tissue remained adhered to the sides of the well. The final contraction percentages were 60-70%. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532010285-0S067MTGJICZHCESZ5KT/img9.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Figure 5. The largest increases in contraction percentage are seen in the two days following initial contraction. After approximately a week of data collection, contraction leveled off. The decorin knocked out cells produced greater contraction as expected. In both cell types, Well IV failed to contract. In addition, tissue detachment occurred in Well III as shown. A possible explanation for this is the accidental addition of a large air bubble. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510532037826-0RT3MVZEXI6PPZ8SCOAT/img10.jpg 2008, February - Miniaturized Collagen Static Tension Tissue Molds Tested with Cardiac Aortic Valve Cells and Decorin-Knocked out Fibroblasts Figure 6. The new well designs substantially reduce collagen cost. Well I and Well II are effective replacements of the original well for both cell types tested, at 63% and 41% of the original cost. Well III and Well IV reduce costs further if tissue contraction is observed and tissue disconnection is avoided. https://www.jyi.org/2008-february/2008/2/12/body-size-has-a-greater-influence-on-female-mate-choice-than-length-of-microsatellite-region-of-the-avpr1a-gene-in-male-prairie-voles monthly 0.5 2017-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531453515-LEN1DHPPRP8HGCNNK5TY/img0+%281%29.jpg 2008, February - Body Size has a Greater Influence on Female Mate Choice than Length of Microsatellite Region of the avpr1a gene in Male Prairie Voles Figure 1. Time spent by females with male prairie voles based on length of avpr1a alleles. The central line within each box is the median, and the bottom and top of each box represent the 25th and 75th percentiles, respectively. Whiskers denote the minimum and maximum values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531491421-UV2XKVBXT0HSFQ7JE05M/img1.jpg 2008, February - Body Size has a Greater Influence on Female Mate Choice than Length of Microsatellite Region of the avpr1a gene in Male Prairie Voles Figure 2. Number of matings by females with male prairie voles based on lengths of the avpr1a alleles. The central line within each box is the median, and the bottom and top of each box represent the 25th and 75th percentiles, respectively. Whiskers denote the minimum and maximum values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531516369-243Z07D0SFHGMV3S38PZ/img2.jpg 2008, February - Body Size has a Greater Influence on Female Mate Choice than Length of Microsatellite Region of the avpr1a gene in Male Prairie Voles Figure 3. Body mass of preferred and non-preferred male prairie voles based on time spent by females. The central line within each box is the median, and the bottom and top of each box represent the 25th and 75th percentiles, respectively. Whiskers denote the minimum and maximum values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510531550273-8VTIGQB7EBRVOTWQLJCK/img3.jpg 2008, February - Body Size has a Greater Influence on Female Mate Choice than Length of Microsatellite Region of the avpr1a gene in Male Prairie Voles Figure 4. Body mass of preferred and non-preferred male prairie voles based on number of matings with males by females. The central line within each box is the median, and the bottom and top of each box represent the 25th and 75th percentiles, respectively. Whiskers denote the minimum and maximum values. https://www.jyi.org/2008-february/2008/2/12/awareness-under-general-anesthesia monthly 0.5 2017-11-13 https://www.jyi.org/2008-february/category/Features monthly 0.5 https://www.jyi.org/2008-february/category/Research monthly 0.5 https://www.jyi.org/2008-february/category/Science+News monthly 0.5 https://www.jyi.org/2008-february/category/Science+Newws monthly 0.5 https://www.jyi.org/2008-january daily 0.75 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/new-therapy-using-antibiotic-proves-potentially-useful-in-treating-ms monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/new-hope-for-patients-with-spinal-cord-injuries monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/whaling-for-science- monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/rewiring-speed-limits monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/cocaine-vaccine-stops-high monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/make-a-heart monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/exercise-dailyyour-stem-cells-will-thank-you monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/yogurt-drinks-might-play-a-key-role-in-altering-metabolism monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/evolution-of-c4-plants monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/sonic-cloak-makes-users-invisible-to-sound-waves monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/hydrogen-gas-cloud-to-smash-into-milky-way-galaxy monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/ultra-cold-atom-clouds-have-memory monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/special-issue-scientific-breakthroughs-of-2007-part-2 monthly 0.5 2017-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529914355-5USN8U978EHRDDKRBRUJ/img0.jpg 2008, January - SPECIAL ISSUE - SCIENTIFIC BREAKTHROUGHS OF 2007 - PART 2 top left - progression of cancer, NIH top right - Craig Venter bottom left - Solar cell bottom right - production of stem cells https://www.jyi.org/2008-january/2008/1/12/special-issue-scientific-breakthroughs-of-2007-part-1 monthly 0.5 2017-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529726238-RX5GD0VOOXCX9VH9CY52/image-asset.jpeg 2008, January - SPECIAL ISSUE - SCIENTIFIC BREAKTHROUGHS OF 2007 - PART 1 article_1388_order_0 https://www.jyi.org/2008-january/2008/1/12/communicating-with-canines monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2017/11/12/the-top-five-world-geologic-sites monthly 0.5 2017-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529382063-ENM996OJ3V8BICKPTUI4/img0+%281%29.jpg 2008, January - The Top Five World Geologic Sites https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529445717-3AH0VKL3FA3RU5TWDDN1/image-asset.jpeg 2008, January - The Top Five World Geologic Sites Kilauea, Hawaii, USA Image Courtesy of Peter Schiffman, UC Davis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529467891-Q1M0B2I1HILFRR0DK2YG/img2.jpg 2008, January - The Top Five World Geologic Sites Moine Thrust, Scotland, UK Image Courtesy of Rob Butler, Leeds University https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529488638-7VXKYK06L22JH0ULLIF4/img3.jpg 2008, January - The Top Five World Geologic Sites Semail Ophiolite, Oman Image Courtesy of the BGS https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529505985-ZWOPGR44MUR6GFYTULZF/img4.jpg 2008, January - The Top Five World Geologic Sites Grand Canyon, Arizona, USA Image Courtesy of Katie O'Brien, UC Santa Cruz https://www.jyi.org/2008-january/2008/1/12/editorial-in-silico-analysis-of-phylogenetic-relationship-between-the-woolly-mammoth-and-modern-elephants monthly 0.5 2017-11-12 https://www.jyi.org/2008-january/2008/1/12/in-silico-analysis-of-the-phylogenetic-relationship-between-woolly-mammoths-and-modern-elephants monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528759910-VQ96YYEHUNNT1YSQZID9/img6.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Table 1. NCBI or SwissProt Accession Numbers of mtDNA and mitochondrial proteins of Loxodonta africana, Elephas maximus, Mammuthus primigenius and Dugong dugon. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528822379-XDF91RELBMF9MA532W0B/img7.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Table 2. List of 19 enzymes used in Restriction Mapping (modified from Ferris et al. 1981). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528885147-OZ91A48S2X73LKKLKKA8/img0.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Figure 1. An equation quoting the expression for "S". https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528921599-M41LVWSFBQUUYT65Z02E/img1.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Figure 2. Phylogenies based upon nucleotide sequences of mtDNA and genes encoding for 12S rRNA and 16S rRNA. Following phylogenetic trees have been depicted above; Mitochondrial DNA phylogenies showing MP tree (A) and BIO-NJ tree (B). 12S rRNA gene phylogenies showing MP tree (C) and BIO-NJ tree (D). 16S rRNA gene phylogenies showing MP tree (E) and BIO-NJ tree (F). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528949697-SY2WQ14G4D3L8WWWQ2LL/img8.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Table 3. Clades implied by phylogenies of various macromolecules encoded by mtDNA of respective animals constructed by either BIO-Neigbour joining (NJ) or maximum parsimony method (MP) with their respective Bootstrap values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529004203-OBO6YC030TWRZ83W3ASL/img2.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Figure 3. Phylogenies based upon Protein Sequences, which support Elephas-Mammuthus clade. Following phylogenetic trees have been depicted above; NADH subunit 2 phylogenies showing MP tree (A) and BIO-NJ tree (B). NADH subunit 6 phylogenies showing MP tree (C) and BIO-NJ tree (D). ATP subunit 6 phylogenies showing MP tree (E) and BIO-NJ tree (F). Cytochrome Oxidase subunit I phylogenies showing MP tree (G) and BIO-NJ tree (H). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529023698-G1DS6PINQ75GCBT7KUUT/image-asset.jpeg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Figure 4. Phylogenies based upon Protein Sequences, which support Loxodonta-Mammuthus clade. Following phylogenetic trees have been depicted below; NADH subunit 3 phylogenies showing MP tree (A) and BIO_NJ tree (B). NADH subunit 4 phylogenies showing MP tree (C) and BIO-NJ tree (D). NADH subunit 4L phylogenies shoeing MP tree (E) and BIO-NJ tree (F). NADH subunit 5 phylogenies showing MP tree (G) and BIO-NJ tree (H). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529072272-LX4CPW727DZ51V5DBUCR/image-asset.jpeg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Figure 5. Manual alignment of mtDNA Restriction maps of respective elephants. Each mtDNA restriction map consists of cleavage sites placed one below another in sequential manner, as digested by the 19 endonuclease enzymes, starting from the nucleotide number one. The matches between two species for identical restriction sites have been depicted by a line. As seen above, 19 restriction sites match between Loxodonta and Mammuthus while only two sites match between Elephas and Mammuthus. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529103606-UK0ZOT1PCYXAS61VF22Q/img9.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Table 4. Quantitative Comparison of cleavage maps of mtDNA of Loxodonta Africana, Elephas maximus and Mammuthus primigeniu. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510529145343-3SX3OEJRBJHEXFNBBL3V/img5.jpg 2008, January - in silico Analysis of the Phylogenetic Relationship Between Woolly Mammoths and Modern Elephants Figure 6. An equation quoting the expression for "Probability of a gene tree supporting a species or family tree". https://www.jyi.org/2008-january/2008/1/12/mind-the-muzzle-using-facial-expression-as-a-correlate-of-stress-level-in-domestic-canines monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528488838-MNT893GIQUPXMWMFJ3FO/img0.jpg 2008, January - Mind the Muzzle: Using Facial Expression as a Correlate of Stress Level in Domestic Canines Figure 1: Proportion of the 39 canine subjects that Looked Away in response to an expression cue. The experiment was scored every two seconds for a period of ten seconds with a total of six scored intervals during which one of four postures was presented by a human experimenter to a canine subject, those being Avert Eyes, Grin, Yawn, and Stare Alone. A significant increase over time at a Bonferroni corrected level of p less than 0.0125 in the proportion of dogs that Looked Away in an interval was seen during the presentation of all but the Stare Alone posture. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528520128-HVB0N12ECYT1ACC194IJ/img1.jpg 2008, January - Mind the Muzzle: Using Facial Expression as a Correlate of Stress Level in Domestic Canines Figure 2: Mean arcsine transformed data of the proportion of subjects who Looked Towards a human experimenter. All subjects were shelter dogs and were categorized as to length of stay in the shelter. A short span was defined as 0-21 days, a medium span, 22-42 days, and a long span, 43 days and up. Dogs in the shelter for a medium span responded with a Look Towards significantly more than dogs in the shelter for a long span of time. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528547575-DVO81FVREX2Y8KDEAEZS/img2.jpg 2008, January - Mind the Muzzle: Using Facial Expression as a Correlate of Stress Level in Domestic Canines Figure 3: Mean arcsine transformed data of the proportion of subjects who Tongue Flicked in the presence of a human experimenter. All subjects were shelter dogs and were categorized as to the reason they were in the shelter. Dogs were in the shelter as they were collected as strays, for reasons of the owners not wanting the dogs, or for reasons that the owners could not keep the dogs. Four dogs did not fit into these categories and their reasons for being in the shelter were undefined. Those four were dropped from this analysis. Dogs that were surrendered because the owner couldn't keep them Tongue Flicked significantly less than dogs that were collected as strays as well as dogs surrendered because the owners did not want them. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510528574254-IW1H9RVLE3AWZY11TY9G/img3.jpg 2008, January - Mind the Muzzle: Using Facial Expression as a Correlate of Stress Level in Domestic Canines Figure 4: Mean arcsine transformed data of the proportion of the canine subjects who displayed Mouth Open in the presence of a human experimenter. All subjects were shelter dogs and were categorized as to the predominant carriage of the tail. Dogs that had a low tail carriage had their mouths open significantly less than both dogs that had a high tail carriage as well as a medium tail carriage. https://www.jyi.org/2008-january/category/Features monthly 0.5 https://www.jyi.org/2008-january/category/Research monthly 0.5 https://www.jyi.org/2008-january/category/Science+News monthly 0.5 https://www.jyi.org/2007-december daily 0.75 2017-11-10 https://www.jyi.org/2007-december/2017/11/10/biofuel-explosion monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2017/11/10/candy-with-benefits-an-anesthetic-lollipop monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2017/11/10/protein-mimics-trap-hiv-virus-in-a-cellular-box monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2017/11/10/einsteins-blunder-is-right-after-all monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2017/11/10/fragile-x-syndrome-mechanism-discovered monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2017/11/10/schizophrenia-genes-favoured-by-natural-selection monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2007/12/10/the-emergence-of-the-robot-brain monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2007/12/10/improving-the-diagnosis-and-treatment-of-alzheimers-disease monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2007/12/10/december-aids-awareness-month-hivaids-yesterday-today-and-beyond monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510328695334-GK4CCFJ79F9U43WV00VM/img0+%281%29.jpg 2007, December - DECEMBER : AIDS AWARENESS MONTH - HIV/AIDS: Yesterday, Today, and Beyond "Schematic Representation of the Key Structural Features of SIV and HIV-1 Entry into T Cells." (A) Different stages of viral entry from budding, to maturation, to entry claw formation. (B and C) Two alternative models for viral entry. Image Courtesy of Electron Tomography of the Contact between T Cells and SIV/HIV-1: Implications for Viral Entry Sougrat R, Bartesaghi A, Lifson JD, Bennett AE, Bess JW, et al. PLoS Pathogens Vol. 3, No. 5, e63 https://www.jyi.org/2007-december/2017/11/10/recent-advances-in-solar-energy-and-potential-applications monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510328484286-68XDM4LQYJN565EQSA3Q/img0.jpg 2007, December - Recent advances in solar energy and potential applications Solar panels, shown here, are used to generate electricity for a small town near Tempe, AZ. Image courtesy of Stock.XCHNG. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510328515139-O7YE9NRO8LQCCPUP3171/img1.jpg 2007, December - Recent advances in solar energy and potential applications A schematic of a PV cell. Sunlight passing through the glass (grey) and anti-reflective layer (yellow) strikes the p-type silicon (blue), releasing free electrons from the silicon atoms in that layer. The electrons are attracted to the positively-charged n-type silicon (red). Connecting the cell to an electrical circuit through the electrical contacts (green) will provide electrical energy to drive a load (e.g. light bulb). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510328545383-HF20T42DEWRB8ROC9MQF/img2.jpg 2007, December - Recent advances in solar energy and potential applications U.S. energy production in 2006 broken down by source. Data from the U.S. Energy Information Administration (11). https://www.jyi.org/2007-december/2017/11/10/snail-offers-clues-to-improve-anesthetics monthly 0.5 2017-11-10 https://www.jyi.org/2007-december/2007/12/10/super-strong-body-armour-with-carbon-nanotubes monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510328099494-FBNSCO3V9XZVFEGHZR1A/img0+%281%29.jpg 2007, December - Super-Strong body armour with carbon nanotubes Carbon Nanotubes, just a few billionths of a metre across, made by folding over layers of graphite so they join at each end, forming a cylinder image courtesy of www.nanotechia.co.uk https://www.jyi.org/2007-december/2017/11/10/the-role-of-streptococcus-mutans-and-oral-ecology-in-the-formation-of-dental-caries monthly 0.5 2018-11-11 https://www.jyi.org/2007-december/2017/11/10/can-oxidative-stress-and-mitochondrial-dysfunction-enhance-synuclein-toxicity-in-a-yeast-model-of-parkinsons-disease monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510327093726-DPWOCYR9JYJNO4XR2VG3/image-asset.jpeg 2007, December - Can Oxidative Stress and Mitochondrial Dysfunction Enhance α-synuclein Toxicity in a Yeast Model of Parkinson's Disease? Figure 1. α-Synuclein Localization in Oxidative Stress and Mitochondrial Mutants; Images captured of budding yeast at 24 and 48 hours of α-synuclein expression are shown at 1000x. Here, α-synuclein is tagged to green fluorescent protein (GFP) on the carboxyl-terminus, which allows for analysis of its localization when illuminated at 488 nm. Along with wild-type (WT) α-synuclein, localization of two α-synuclein familial mutants, A30P and A53T, are also shown. All strains show plasma membrane localization of α-synuclein at 24 and 48 hours of induction as described in Sharma et al. (2006). However, only kgd1∆ cells display intracellular aggregates at 24 hours and aggregates near the plasma membrane at 48 hours of α-synuclein expression. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510327144324-QV90FSB4NPLPL4Z393JL/image-asset.jpeg 2007, December - Can Oxidative Stress and Mitochondrial Dysfunction Enhance α-synuclein Toxicity in a Yeast Model of Parkinson's Disease? Figure 2. Quantification of α-Synuclein Localization in Parent and kgd1∆ Strains; The ratio of the three fluorescence patterns (i.e. diffuse, membrane, aggregate) was scored from 750 cells at 18, 24, 36, and 48 hours of α-synuclein expression. In the both strains, WT and A53T α-synuclein-GFP show plasma membrane localization. However, in kgd1∆ cells, aggregates accompanied the membrane phenotype. Over the 48 hour time course, aggregates became more prevalent. Both GFP and A30P-α-synuclein predominantly show cytoplasmic localization in each strain, yet in kgd1∆ cells, GFP and A30P-α-synuclein form aggregates similar to WT and A53T α-synuclein-GFP. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510327187370-QBWO9JZQCV1W73SDO0GW/img2.jpg 2007, December - Can Oxidative Stress and Mitochondrial Dysfunction Enhance α-synuclein Toxicity in a Yeast Model of Parkinson's Disease? Figure 3. Growth Curve Analysis of Knockout Yeast Expressing α-Synuclein; Absorbance by optical density analysis at 600 nm was assessed over a 48-hour time course where toxicity was not observed in any strain. Error bars represent standard error from three separate growth analyses. Graphs not containing error bars were only repeated once (i.e. cta1∆ and ctt1∆). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510327235696-8I3RU4SFBU85JSVB608D/img3.jpg 2007, December - Can Oxidative Stress and Mitochondrial Dysfunction Enhance α-synuclein Toxicity in a Yeast Model of Parkinson's Disease? Figure 4. Expression of α-Synuclein in the Parent and kgd1∆ Strains; A. For all samples, α-synuclein-GFP expression was induced for 24 hours and detected using an anti-α-synuclein monoclonal primary antibody (1:2000). In the parent strain, WT, A30P, and A53T α-synuclein-GFP displayed similar expression, however, in the kgd1∆ strain, α-synuclein-GFP expression was diminished. Anti-phosphoglycerate kinase (PGK) primary monoclonal antibody (1:5000) was used as a loading control. Vector denotes the pYES2.1 plasmid without GFP or α-synuclein. Results were verified in a second trial (data not shown). B. Compared to the parent strain, all foreign proteins in kgd1Δ had diminished expression. Additionally, non-GFP tagged WT-α-Synuclein in the parent exhibited increased expression and variable banding when compared to WT-α-Synuclein-GFP. Results were verified in a second trial (data not shown). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510327654984-ZC9EM7VN30VGVNV8FIHQ/img4.jpg 2007, December - Can Oxidative Stress and Mitochondrial Dysfunction Enhance α-synuclein Toxicity in a Yeast Model of Parkinson's Disease? Figure 5. Levels of Reactive Oxygen Species in the Parent, kgd1∆, and sod2∆ Strains; A. Images were captured at 3 hours of α-synuclein expression. Dihydrorhodamine 123 (DHR 123) was used to visualize cells containing reactive oxygen species (ROS) with a 530-550 nm filter. The intensity of red corresponds to increasing levels of oxidants. Gross analysis of stained cells does not reveal percentage of oxidatively stressed yeast. The sod2∆ yeast strain was used as a positive control where previous investigations have uncovered toxicity with α-synuclein expression (Sharma et al. 2006). B. Percentage of cells revealing oxidative stress. Surprisingly, kgd1∆ cells expressing WT-α-synuclein showed normal levels of ROS. However, sod2∆ cells expressing WT-α-synuclein showed an elevated level of ROS. Error bars represent the standard error of three separate trials. https://www.jyi.org/2007-december/category/Fetures monthly 0.5 https://www.jyi.org/2007-december/category/Features monthly 0.5 https://www.jyi.org/2007-december/category/Research monthly 0.5 https://www.jyi.org/2007-december/category/Science+News monthly 0.5 https://www.jyi.org/2007-november daily 0.75 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/cosmic-defect-theory-of-90s-confirmed monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/hiv-vaccines-hinder-immune-response monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/clash-of-ideals-in-adirondack-mountains monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/new-way-to-obtain-stem-cells monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/new-insight-into-panic-attacks-carbon-dioxide-is-the-culprit monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/the-2007-nobel-prize-for-physics-intriguing-industrial-applications monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/iron-fertilization-and-carbon-sequestration monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/new-anesthetic-kills-pain-without-side-effects monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/towards-a-better-source-of-insulin monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/lethal-genes-present-a-barrier-to-bacterial-horizontal-gene-transfer monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/smallpox-vaccine-takes-on-cancer monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/recently-discovered-rna-may-serve-as-key-to-the-mystery-of-stem-cells monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/caesarean-section-raises-the-asthma-risk monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/fat-cells-in-fact-aids-insulin-secretion monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/telomere-research-provides-new-perspective-for-treating-cancer monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/lack-of-serotonin-leading-violent-aggressive-behavior monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/substitute-blood-the-next-big-thing monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/scientists-confirm-a-cosmic-defect-theory-proposed-in-the-1990s monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/could-genes-determine-whether-anti-depressants-make-us-suicidal monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/adult-stem-cells-may-eliminate-embryo-related-controversies monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/facing-the-facts-a-look-at-the-face-transplant-controversy monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332924782-HRS624RM035GWAX2II9U/img0+%281%29.jpg 2007, November - Facing the Facts: A Look at the Face Transplant Controversy This is a reconstruction of the transplanted lips, nose and chin. Arteries are in red, veins are in blue, nerves are yellow and muscles are dark red https://www.jyi.org/2007-november/2007/11/10/personal-science-does-self-experimentation-have-a-place-in-todays-research monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/caffeine-understanding-the-worlds-most-popular-psychoactive-drug monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332574849-CDFEKG4JUZO8NQT4BS6A/img1.jpg 2007, November - Caffeine: Understanding the World's Most Popular Psychoactive Drug Structure of Adenosine https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332600396-0QH5M6TA8WJ7R0W9MN9A/img0.jpg 2007, November - Caffeine: Understanding the World's Most Popular Psychoactive Drug Caffeine acts as an antagonist. It is similar to adenosine (fig 2) in structural arrangement to confuse nerve cells, which are unable to distinguish between the two molecules. This is why caffeine works so well as a stimulant on the central nervous system. Images courtesy of Biological Magnetic Resonance Data Bank and Ben Best https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332726585-S4TJPEB4XJ46MF0IEQ0U/img2.jpg 2007, November - Caffeine: Understanding the World's Most Popular Psychoactive Drug The pituitary gland is an endocrine gland that is responsible for regulating homeostatic processes such as body growth and blood pressure. It also stimulates the body in response to the binding of caffeine on nerve cells. Image courtesy of Yahoo! Health https://www.jyi.org/2007-november/2007/11/10/gene-knockout-bags-the-2007-nobel-in-medicine monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332410051-3L6TQALWOOW4FCDPLIFC/img0+%281%29.jpg 2007, November - Gene Knockout Bags the 2007 Nobel in Medicine From left, Oliver Smithies, Martin J. Evans and Mario R. Capecchi. https://www.jyi.org/2007-november/2007/11/10/what-bones-can-tell-us monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/new-hiv-vaccine-is-a-no-go-what-went-wrong-and-what-will-happen-next monthly 0.5 2017-11-10 https://www.jyi.org/2007-november/2007/11/10/how-fast-are-you-moving-when-sitting-still monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332099161-AB0FPG5UC41USMRYVR1I/img0.jpg 2007, November - How Fast Are You Moving When Sitting Still? A low-pressure system over Iceland spinning counter-clockwise due to the Coriolis Force. Image courtesy NASA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510332104275-3E7XH4LAD7O4939JB23Y/img1.jpg 2007, November - How Fast Are You Moving When Sitting Still? The Andromeda Galaxy, a nearby spiral galaxy similar to what our own galaxy is thought to look like. Image courtesy APOD https://www.jyi.org/2007-november/2017/11/10/statistics-of-the-velocity-field-and-spatial-distribution-of-hot-spots-in-methanol-masers monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331303913-4S6KEG3LO9VCY7QPTK2V/img0.jpg 2007, November - Statistics of the Velocity Field and Spatial Distribution of Hot Spots in Methanol Masers Equation One https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331341111-6KKW9T4TPLLIKX848VMX/img1.jpg 2007, November - Statistics of the Velocity Field and Spatial Distribution of Hot Spots in Methanol Masers Equation Two https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331367137-QQRQ68P4EULVOZJBXZON/img3.jpg 2007, November - Statistics of the Velocity Field and Spatial Distribution of Hot Spots in Methanol Masers Fig. 1 – Density-radius fractal measure for the 44 GHz methanol masers in DR21(OH). The solid line shows a linear fit to the data points. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331386985-PKBRFJO2TWCO14ZX9UOX/img2.jpg 2007, November - Statistics of the Velocity Field and Spatial Distribution of Hot Spots in Methanol Masers Table 1 – Fractal dimensions and values of the best-fit slope q for Class I and Class II methanol masers. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331427361-02QKR9EB1PVPR9CAK1MO/img4.jpg 2007, November - Statistics of the Velocity Field and Spatial Distribution of Hot Spots in Methanol Masers Fig. 2 – Best-fit lines for the logarithmic proportionality between velocity dispersion and separation of Class I (L379) and Class II (W3(OH)-1) methanol masers. https://www.jyi.org/2007-november/2017/11/10/statistics-of-turbulence-probed-by-h2o-masers-in-star-forming-regions monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330687761-2347MFZCXK8GG3ARR1IN/img0+%281%29.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Equation 1 1313 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330784473-85VT8MQ8W48T6FWN3AS3/img1.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Equation 3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330786040-CCY44DGCWM0LVGVTT7DJ/img2.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Equation 4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330822263-T7XP07I5WJ76KLVIFEJ8/image-asset.jpeg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Equation 5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330844310-3N01QGX2JH7TBVOR0B8A/image-asset.jpeg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Equation 6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330865645-HFH4IM5QSYMILX1KAR52/img5.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 1 – Two-point velocity correlation function for H2O masers in W49(North), plotted with a logarithmic bin size of 0.25. (a) Least-squares linear and second-order polynomial fits applied to the entire dataset. (b) Linear fits applied to three separation ranges (low, medium, and high-separation). Observational data from Gwinn (1994). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330917603-ZVIFWU7UD6NWCGXU33CB/img6.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 2 – Same as Fig. 1, for H2O masers in W51(Main). Data from Genzel (1981). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330998382-432ODA2FKC71OYQRI7SP/image-asset.jpeg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 3 – Same as Fig. 1, for H2O masers in W51(North). Data from Imai (2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331027825-M6I2D09REV3BNY6GJR4S/img8.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 4 – Same as Fig. 1, for H2O masers in SgrB2(Main). Data from McGrath (2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331056621-L618J8A8HIYM8BJDRSJ5/img9.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 5 – Same as Fig. 1, for H2O masers in SgrB2(North). Data from McGrath (2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510331145886-UA4SIPMZQYLC9QSHLUGW/img10.jpg 2007, November - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Table 1 – Best-fit slopes for various ranges of maser pair separation and calculated fractal dimension for each region. https://www.jyi.org/2007-november/2007/11/10/understanding-the-transition-from-the-late-neolithic-to-the-early-copper-age-using-faunal-analysis-from-two-balkan-region-early-copper-age-sites-veszt-bikeri-and-krsladany-bikeri-hungary monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330319906-V7J2NX49AM2M3GO1JGI7/img0.jpg 2007, November - Understanding the Transition from the Late Neolithic to the Early Copper Age Using Faunal Analysis from Two Balkan Region Early Copper Age Sites: Vesztő-Bikeri and Körösladany-Bikeri, Hungary Figure 1. A topographic map of central and southeast Europe. The shaded area depicts the location of the Körös Regional Archaeological Project study area in the Carpathian Basin in Hungary. The inset picture is a view of southeast Europe. This map was created by Daniel Sosna, Florida State University (Parkinson, et al. 2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330323263-0NVKYK7S0T1PB2VUKCDU/img1.jpg 2007, November - Understanding the Transition from the Late Neolithic to the Early Copper Age Using Faunal Analysis from Two Balkan Region Early Copper Age Sites: Vesztő-Bikeri and Körösladany-Bikeri, Hungary Figure 2. This aerial view depicts the close proximity of V&eacute;sztő-Bikeri (V-20) and (Köröslad&aacute;ny-Bikeri) K-14, located in the Carpathian Basin. The light ovals represent surface distribution (Parkinson, et al. 2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330330495-PNKXBM0GZOXAF7XCBDNR/img2.jpg 2007, November - Understanding the Transition from the Late Neolithic to the Early Copper Age Using Faunal Analysis from Two Balkan Region Early Copper Age Sites: Vesztő-Bikeri and Körösladany-Bikeri, Hungary Figure 3. This pie chart represents the presence of wild and domestic faunal remains found at V&eacute;sztő-Bikeri (V-20). Cattle represent the largest percentage. V-20 has more cattle than K-14. The sheep/goat category are the next largest percentage. The reason for the sheep/goat category and the separate sheep and goat category is that it is very difficult to differentiate the two based on the bones, therefore only those conclusively sheep or goat are placed in their own category. Domestic pig also represents a large portion of exploited animals. This chart also demonstrates that hunting has significantly dropped off due to the low percentages of wild animals. Aurochs, wild pig, and red deer contribute a very small percent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330335811-W1JMGYWRNQH8C9SQCSHN/img3.jpg 2007, November - Understanding the Transition from the Late Neolithic to the Early Copper Age Using Faunal Analysis from Two Balkan Region Early Copper Age Sites: Vesztő-Bikeri and Körösladany-Bikeri, Hungary Figure 4. This pie chart represents the presence of wild and domestic faunal remains found at Köröslad&aacute;ny-Bikeri (K-14). Unlike V-20, at K-14 sheep/goat represents the largest percentage of animals. Cattle come in a close second. Domestic pig contributes to third highest percentage of animals. Combining cattle and pig, there is a slight decrease at K-14. This chart also demonstrates that hunting has significantly dropped off due to the low percentages of wild animals. Aurochs, wild pig, and red deer contribute a very small percent. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510330426327-SBFZVKQU280D12DHRAI4/img4.jpg 2007, November - Understanding the Transition from the Late Neolithic to the Early Copper Age Using Faunal Analysis from Two Balkan Region Early Copper Age Sites: Vesztő-Bikeri and Körösladany-Bikeri, Hungary Figure 5. Contribution of Wild and Domestic Large Mammals over Time on the Great Hungarian Plain: "introduced" sheep and goat, "local" domesticated cattle and pigs, and large wild animals (aurochs, wild pigs, red deer) by cultural period. These charts show the trends in percentages from the Early Neolithic (EN) through the Early Copper Age. Sheep and goats are predominant in the Early Neolithic but their presence greatly diminishes from the Middle to the Late Neolithic. In the Early Copper Age, sheep and goat make a strong comeback. There are few cattle and swine in the EN and their numbers increase in the Middle Neolithic (MN) and drop slightly in the Late Neolithic (LN). In the Early Copper Age (ECA), cattle and swine increase again. Wild animals contribute only a small percent in the Early and increase slightly in the Middle Neolithic. In the LN there is a huge surge of wild animals, which represents increased hunting. In the ECA, wild animals drop off drastically. Data for EN, MN, and LN from Bartosiewicz 2005. https://www.jyi.org/2007-november/category/Features monthly 0.5 https://www.jyi.org/2007-november/category/Research monthly 0.5 https://www.jyi.org/2007-november/category/Science+News monthly 0.5 https://www.jyi.org/2007-october daily 0.75 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/the-beating-of-an-artificial-heart monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/annihilation-lasers-and-the-first-antimatter-molecule monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/rising-hospital-infections-a-growing-problem monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/too-much-sleep-can-kill monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/improving-the-diagnosis-and-treatment-of-alzheimers-disease monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/real-time-footage-of-dna-enzyme-interaction monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/elephants-to-buzz-off-bees-territory monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/marburg-virus-the-hidden-killer monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/will-the-ocean-become-a-cocktail-to-save-the-planet-from-global-warming monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/algorithmic-progress-in-neural-prosthetic-devices-for-paralyzed-and-amputated-patients monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/nanothreads-of-living-tissue-embark-in-new-direction monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/a-memory-of-neurobiology monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/popular-hiv-suppressing-drug-nelfinavir-adds-cancer-fighting-to-its-repertoire monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/paramedics-take-heat-from-emergency-departments monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/anticipation-of-sleep-benefits-heart monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/mapping-protein-evolution-one-fold-at-a-time monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/scientists-find-building-blocks-of-new-planet monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/intense-x-rays-produced-by-gas-falling-into-black-holes monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337961499-3RW07HB8HA4K54L308E8/image-asset.jpeg 2007, October - Intense X-Rays Produced by Gas falling into Black Holes Artist rendition of X-Rays emitted by gas falling into a black hole Image Courtesy: Miller, University of Michigan, Ann Arbor https://www.jyi.org/2007-october/2007/10/10/50th-anniversary-of-sputnik-korolev-the-mastermind-of-the-soviet-space-program monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337877909-IREL1W38449A29G5X3E5/img1+%281%29.jpg 2007, October - 50th ANNIVERSARY OF SPUTNIK - Korolev: The Mastermind of the Soviet Space Program Image Courtesy of Anatoly Zak https://www.jyi.org/2007-october/2007/10/10/informing-policy-in-the-worlds-largest-democracy monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/top-ten-most-important-astronomical-images monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337273511-NJHSX0J4RONR5IRC96FO/image-asset.jpeg 2007, October - Top Ten Most Important Astronomical Images The Hubble Deep Field https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337300270-A8GCZD7811YQB1K7KOAX/image-asset.jpeg 2007, October - Top Ten Most Important Astronomical Images COBE Data https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337332367-O66DLQO8EX5TQA42S8J2/img2.jpg 2007, October - Top Ten Most Important Astronomical Images First Photo from Space https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337360873-JNVQ1PPMRW0X7IURHWY5/img3.jpg 2007, October - Top Ten Most Important Astronomical Images Extrasolar Planet https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337391190-FIBVTDMQ63HBN27W7DOD/image-asset.jpeg 2007, October - Top Ten Most Important Astronomical Images Volcanoes on Io https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337412009-AM3E69JFQPC211F80VYQ/img5.jpg 2007, October - Top Ten Most Important Astronomical Images Supernova 1987A https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337429289-K931BZT4YNCW08FOOUDL/image-asset.jpeg 2007, October - Top Ten Most Important Astronomical Images The Twin Quasar https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337491859-J2B59LN7J8B7049V6F3N/img7.jpg 2007, October - Top Ten Most Important Astronomical Images The Bullet Cluster https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337513566-NV3QDIP9P8FI9T1UYI0G/image-asset.jpeg 2007, October - Top Ten Most Important Astronomical Images Protoplanetary Disks https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510337555857-7NYM58TP4WVMX7UW3UT5/image-asset.jpeg 2007, October - Top Ten Most Important Astronomical Images Pale Blue Dot https://www.jyi.org/2007-october/2007/10/10/review-articles-in-the-jyi monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/a-brief-history-of-sputnik monthly 0.5 2017-11-10 https://www.jyi.org/2007-october/2007/10/10/the-uncertainty-of-medicine monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336907682-1T32K8CKVL1BC590DDVD/image-asset.jpeg 2007, October - The Uncertainty of Medicine Atul Gawande in the OR. Copyrighted by Laura Hanafin, http://www.gawande.com https://www.jyi.org/2007-october/2007/10/10/a-review-of-treatment-options-for-hemophilia monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336688563-KF12BPLMTHM94JOXYVBZ/image-asset.jpeg 2007, October - A Review of Treatment Options for Hemophilia Figure 1 - Blood Coagulation Cascade: In the blood coagulation cascade factors VIII and IX play an important role in clot formation. The activated factors stimulate the conversion of other factors into their active state and so on, until fibrin fibers form a tight meshwork. Items marked by parentheses are also responsible for the activation step of indicated factors. Figure adapted from Germann and Stanfield (2005). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336753705-I3NQB4ZNBSZ20HGWTINS/image-asset.jpeg 2007, October - A Review of Treatment Options for Hemophilia Table 1: Advantages and Disadvantages of Treatment methods of Hemophilia https://www.jyi.org/2007-october/2007/10/10/halophilic-thermophilic-and-psychrophilic-archaea-cellular-and-molecular-adaptations-and-potential-applications monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336511009-SSLLWSJHXF9QFCFZ98WS/img0+%281%29.jpg 2007, October - Halophilic, Thermophilic, and Psychrophilic Archaea: Cellular and Molecular Adaptations and Potential Applications Table 1: Comparison of the distinguishing cellular and molecular properties of the archaeal, bacterial, and eukaryotic domains. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336540589-YT5F5P609M2LXUYGMEXL/image-asset.jpeg 2007, October - Halophilic, Thermophilic, and Psychrophilic Archaea: Cellular and Molecular Adaptations and Potential Applications Table 2: Definitions of halophilic, thermophilic, psychrophilic Archaea and potential applications of their respective biomolecules. https://www.jyi.org/2007-october/2017/11/10/valuation-of-clean-water-supply-by-willingness-to-pay-method-in-a-developing-nation-a-case-study-in-calcutta-india monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510335982432-FPGX8JXRVFNKUCHB9DE0/image-asset.jpeg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 1: Treatment and Distribution Cost of Water (INR / Kilo liter) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336001043-6QCMUU5KVTL18YLSELWL/image-asset.jpeg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 2: Socio – economic status of surveyed household https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336069237-FY7WA4KKWOF1V9GI0VG3/img2.jpg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 3: Descriptive statistics of the sample in the study https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336162235-O1D6FNPNVDKXSOWR0TX5/img3.jpg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 4: WTP estimates as a function of dwelling type https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336226191-RCM94UIH6BI992CFEFUI/img4.jpg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 5: WTP estimates for the different municipals https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336232619-ODFCJJJ53Z4L8NEMGP85/image-asset.jpeg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 6: Summary statistics, WTP and production costs for municipal wards in south Calcutta https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336303343-I8G6THXT6HHXL79IJLNB/image-asset.jpeg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Table 7: Un-standardized multiple regression result summaries https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336334692-Z1VN7AU820MWORY9R3OS/image-asset.jpeg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Figure 1: Relationship between WTP for Potable Water & Income (in INR) for Calcutta, India https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510336364861-50SK6OHFC4AG8651SRF2/img8.jpg 2007, October - Valuation of Clean Water Supply by Willingness to Pay Method in a Developing Nation: A Case Study in Calcutta, India. Appendix: Multiple regression result with household income, age of respondent, years of education, number of children in the household, and numbers of family members entered as independent variables. https://www.jyi.org/2007-october/category/Features monthly 0.5 https://www.jyi.org/2007-october/category/Research monthly 0.5 https://www.jyi.org/2007-october/category/Science+News monthly 0.5 https://www.jyi.org/2007-september daily 0.75 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/pregnancy-nightmares monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/stress-and-pregnancy monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/new-competition-for-the-energizer-bunny monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/relax-its-not-a-laser-using-ultrasound-beams-to-repair-lung-injuries monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/schizophrenia-genes-favoured-by-natural-selection monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/greenhouse-gases-put-the-lives-of-polar-bears-in-jeopardy monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/new-method-to-generate-nanoscaffolding-to-lead-to-improvements-in-titanium-implants-and-stents monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/role-playing-gene-in-schizophrenia-is-involved-in-more-brain-processes-than-previously-thought monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/saturn-moon-ready-for-its-close-up monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/banishing-hunger-in-a-jiffy-project-peanut-butter-fights-malnutrition-in-malawi monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/friendship-as-an-antidote-to-dating-violence monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/20-years-reflection-on-montreal monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/stalemate-stem-cell-research-policy monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2007/9/10/the-moebius-riddle monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510343402779-JIUS9LZ5KZS2C5I529L1/image-asset.jpeg 2007, September - The Moebius Riddle Courtesy of www.scientificamerican.com https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510343429564-P5VEWFD2WPMHKM81VIER/img1.jpg 2007, September - The Moebius Riddle Courtesy of www.abc.net https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510343470498-X89CDTC4ZCME4MT78HLF/img2.jpg 2007, September - The Moebius Riddle Courtesy of www.sciencenews.org https://www.jyi.org/2007-september/2007/9/10/challenging-a-theory monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2017/11/10/could-getting-help-get-easier monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342980010-3358KL6IRKZOL5DMYE2G/img0.jpg 2007, September - Could Getting Help Get Easier? Dr. Keith Lindor, M.D., Dean of Mayo Medical School. Image courtesy of: mayoresearch.mayo.edu/mayo/research/lindor_lab/ https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510343032453-74S14YNP0TS3CX9Z8J1D/image-asset.jpeg 2007, September - Could Getting Help Get Easier? Dr. Phil Gruppuso, M.D., Associate Dean of Warren Alpert Medical School. Image courtesy of: biomed.brown.edu/Faculty/G/Gruppuso.html https://www.jyi.org/2007-september/2017/11/10/editoral-for-crystal-structure-of-mn2-bound-escherichia-coli-l-arabinose-isomerase-ecai-implications-in-protein-catalytic-mechanism-and-thermo-stability monthly 0.5 2017-11-10 https://www.jyi.org/2007-september/2017/11/10/the-university-of-texas-southwestern-medical-center monthly 0.5 2017-11-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342623267-JP3NKJMQR7O9SVTW92B7/image-asset.jpeg 2007, September - The University of Texas Southwestern Medical Center Dale Chihuly Sculpture Image Courtesy of UT Southwestern Medical Center https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342655249-6Q6KQDKWOW49JWPY1YLM/img1.jpg 2007, September - The University of Texas Southwestern Medical Center Combined programs https://www.jyi.org/2007-september/2017/11/10/can-the-islm-model-truly-explain-macroeconomic-phenomena-1 monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341253885-JBGQ5OI3TUYMQYG74X4N/img0.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341282181-D333EAIY0KQ5IPZPV9QG/img1.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341312672-9Q94QZB6OOXR533VDAYG/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341344217-CMM251F1AKO4E32GDBQZ/img3.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 1; External equilibrium curve to determine the relation between the interest rate and income - Note: The upper right-hand section shows a LM curve that represents a positive relationship between the national income (Y) and interest rates (r). The LM curve is deprived from the lower right-hand section, the lower left-hand section and the upper left-hand section. The lower right-hand section shows a negative relationship between income (Y) and net exports. The lower left-hand section shows a 45 degree line that represents a relationship between net exports and net foreign investments. The upper left-hand section shows a negative relationship between net foreign investments and income (Y). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341393146-KBGYHC7NBLQPMXV0FNWD/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341438745-OHUQMR8KU4S55858M5DR/img5.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341483698-7E8GE9XY44JILAOTRHB2/img6.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341515239-51L8IMCIZWV5YR8GKHRP/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Equation 7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341551531-HRZ6XUTW8Z70AI9JBAOR/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Table 1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341580175-2K32LTSPYVSR03192K8U/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Table 2; Summary of test results - Note: EX denotes % change in real net export, π denotes inflation ratio (%), GDP denotes % change in real output, and GD denotes % change in real government deficit. The entries in panel A show the p-values for the Granger Causality tests testing the hypothesis that some variables are not predictable for real interest rates. The entries in panel C show responses in real interest rates. The entries in panel D show mean standard errors in forecasting real interest rates and Cholesky variance decomposition of the standard errors. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341612955-QOBOE5NZINP3UTT3QZK2/img10.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Table 3; Summary results for Hypothesis I - Note: the * in panel A denotes that the null hypothesis is rejected (predictive) at 10% significant level. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341655150-DLUNXJEI0K79RQPJG3RU/img11.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 2a - Note: the solid line shows impulse responses in real interest rates over 24 quarters due to a change in net exports. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. The scale is smaller compared to those in Figure 2b and 2c. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341750972-5Q5DGSQM3RBPKGQF732U/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 3a - Note: the solid line shows impulse responses in the real GDP over 24 quarters due to a change in real net exports. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341728789-FG6SHHMQ059G4JOJH36E/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 4b - Note: the solid line shows Cholesky variance decomposition (percentage points) of forecast errors, shown in Figure 4a, due to a change in real net exports. 95% Confidence Intervals are given by the dot lines. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341797690-UR0RQ3OV7LN7RJWTIWTS/img14.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Table 4; Summary results for Hypothesis II - Note: the * in panel A denotes that the null hypothesis is rejected (predictive) at 10% significant level. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341847426-1LLTB03HOO3J2O6Y2LJV/img15.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 2b - Note: the solid line shows impulse responses in real interest rates over 24 quarters due to a change in Inflation. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341881611-8BE7GESMO0N3BLBWHNEM/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 4c - Note: the solid line shows Cholesky variance decomposition (percentage points) of forecast errors, shown in Figure 4a, due to a change in Inflation. 95% Confidence Intervals are given by the dot lines. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341927881-3AYLZ89POXXP57TY3XUC/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 5 - Note: the "residuals" denote actual values minus estimated values from a VAR with 12 lags. The solid line shows "residuals" of real interest rates. The dot line shows "residuals" of Inflation. These lines represent the results between 1962 Q1 (13th quarter) and 2005 Q4 (188th quarter). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342043286-PIFOUFDVEKYYO1BM92MJ/img18.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 4d - Note: the solid line shows Cholesky variance decomposition (percentage points) of forecast errors, shown in Figure 4a, due to a change in the real GDP. 95% Confidence Intervals are given by the dot lines. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510341979192-8UUPP07JGV977I9MOCOJ/img19.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Table 5; Summary results for Hypothesis III - Note: the * in panel A denotes that the null hypothesis is rejected (predictive) at 10% significant level. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342079691-ZLKWBVAYRJSFLOPIX9PE/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 2c - Note: the solid line shows impulse responses in real interest rates over 24 quarters due to a change in the real GDP. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342151903-NHIDA33D08BDBBWSZHEI/img21.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 3b - Note: the solid line shows impulse responses in real investments over 24 quarters due to a change in the real GDP. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342191790-QK97E7ST7PQ2942ORLX6/img22.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Table 6; Summary results for Hypothesis IV - Note: the * in panel A denotes that the null hypothesis is rejected (predictive) at 10% significant level. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342223868-CXCPHM8H9GIXBEOKDWJ9/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 2d - Note: the solid line shows impulse responses in real interest rates over 24 quarters due to a change in the real government deficit. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. The scale is smaller compared to those in Figure 2b and 2c. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342301605-VWG02UW22VNSPBQVQWMM/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 4e - Note: the solid line shows Cholesky variance decomposition (percentage points) of forecast errors, shown in Figure 4a, due to a change in the real government deficit. 95% Confidence Intervals are given by the dot lines. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342334055-CQ10Q0Z2HSOXWAD0528C/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 3c - Note: the solid line shows impulse responses in real investments over 24 quarters due to a change in the real government deficit. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342361496-MAGGX7Z8KBANNTWS7Q8O/image-asset.jpeg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 3d - Note: the solid line shows impulse responses in the real GDP over 24 quarters due to a change in the real government deficit. 95% Confidence Intervals are given by the dot lines. The results are from a VAR with 12 lags. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510342387837-S5D9HRFFO67JMMRY3YVM/img27.jpg 2007, September - Can the IS/LM Model Truly Explain Macroeconomic Phenomena? Figure 4a - Note: the figure shows mean squared errors over 24 quarters in forecasting real interest rates. The results are from a VAR with 12 lags. https://www.jyi.org/2007-september/2007/9/10/crystal-structure-of-mn2-bound-escherichia-coli-l-arabinose-isomerase-ecai-and-implications-in-protein-catalytic-mechanism-and-thermo-stability monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510339830824-B5X03CYGNECNWO3NR3O8/img0+%281%29.jpg 2007, September - Crystal Structure of Mn2+-bound Escherichia coli L-arabinose Isomerase (ECAI) and Implications in Protein Catalytic Mechanism and Thermo-Stability article_1255_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510339901201-1EUG1DMJ3LHJP0S4GFVT/img1.jpg 2007, September - Crystal Structure of Mn2+-bound Escherichia coli L-arabinose Isomerase (ECAI) and Implications in Protein Catalytic Mechanism and Thermo-Stability article_1255_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510339962413-Y4HCJRHJH3L5BLY5SR51/img2.jpg 2007, September - Crystal Structure of Mn2+-bound Escherichia coli L-arabinose Isomerase (ECAI) and Implications in Protein Catalytic Mechanism and Thermo-Stability article_1255_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510340012547-INEXLZMSDP8E2M0WIPC1/image-asset.jpeg 2007, September - Crystal Structure of Mn2+-bound Escherichia coli L-arabinose Isomerase (ECAI) and Implications in Protein Catalytic Mechanism and Thermo-Stability article_1255_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510340050466-GKPGDKV7PT6D1U4NIHA0/img4.jpg 2007, September - Crystal Structure of Mn2+-bound Escherichia coli L-arabinose Isomerase (ECAI) and Implications in Protein Catalytic Mechanism and Thermo-Stability article_1255_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510340079505-6QXQDHFKH22G2QG436D1/image-asset.jpeg 2007, September - Crystal Structure of Mn2+-bound Escherichia coli L-arabinose Isomerase (ECAI) and Implications in Protein Catalytic Mechanism and Thermo-Stability article_1255_order_5 https://www.jyi.org/2007-september/category/Features monthly 0.5 https://www.jyi.org/2007-september/category/Research monthly 0.5 https://www.jyi.org/2007-september/category/Science+News monthly 0.5 https://www.jyi.org/2007-august daily 0.75 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/potential-diabetes-cure-grown-in-gmo-lettuce monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/zap-those-tumours-away monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/monkey-virus-yields-new-insight-into-evolution-of-hiv monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/coffee-boosts-bodys-anti-cancer-ability monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/easy-come-easy-go-for-breast-cancer-therapy monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/hope-for-allergy-sufferers monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/glial-cells-more-than-what-meets-the-afferent-neuron-of-the-eye monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/bacteria-do-not-add-to-aging monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/newly-discovered-planet-helps-explain-our-solar-system monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/gene-regulation-is-missing-link monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/deep-brain-stimulation-awakens-a-man-in-minimally-conscious-state monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/drink-up-more-evidence-for-the-power-of-green-tea monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/dna-vaccine-provides-new-hope-for-treatment-of-multiple-sclerosis monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/genetic-craving-for-a-drink-or-smoke monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/malaria-free-mosquitoes monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/natures-candles monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2007/8/10/using-digital-media-creatively-and-interactively monthly 0.5 2017-11-10 https://www.jyi.org/2007-august/2017/11/10/daily-patterns-in-pm25-ion-concentrations-in-claremont-california monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510355883200-2GLRCR2YUGJPOQK2T0WJ/img0+%281%29.jpg 2007, August - Daily Patterns in PM2.5 Ion Concentrations in Claremont, California article_1181_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510355909547-I92FRD98E9KDQPQHUOK8/img1.jpg 2007, August - Daily Patterns in PM2.5 Ion Concentrations in Claremont, California article_1181_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510355998206-CDPRV6L7N3736PQ4H1V4/img2.jpg 2007, August - Daily Patterns in PM2.5 Ion Concentrations in Claremont, California article_1181_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510356054577-KFP7G37CR8G35Z2Q7C0U/img3.jpg 2007, August - Daily Patterns in PM2.5 Ion Concentrations in Claremont, California article_1181_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510356076011-9DLNX8VTHWNY5ZEL7FZ8/img4.jpg 2007, August - Daily Patterns in PM2.5 Ion Concentrations in Claremont, California article_1181_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510356097859-M8RCV0M90SAYDPQFUFYV/image-asset.jpeg 2007, August - Daily Patterns in PM2.5 Ion Concentrations in Claremont, California article_1181_order_5 https://www.jyi.org/2007-august/2007/8/10/august-breast-feeding-awareness-month-guest-article-infant-feeding-dilemmas-for-hiv-positive-mothers-in-developing-countries-could-heat-treated-breast-milk-be-the-answer monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510353821052-8I3LZX7SABLGVF0EUXE9/img0.jpg 2007, August - AUGUST - BREAST-FEEDING AWARENESS MONTH - GUEST ARTICLE: Infant Feeding Dilemmas for HIV Positive Mothers in Developing Countries: Could Heat-treated Breast-milk be the Answer? Millions of HIV positive women in developing countries face the desperate dilemma- breastfeed their babies and risk HIV transmission or give infant formula and risk illness and possible death from diarrhea and other diseases https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510353882764-GACJUKFBL6HE6MDQAXBY/img1.jpg 2007, August - AUGUST - BREAST-FEEDING AWARENESS MONTH - GUEST ARTICLE: Infant Feeding Dilemmas for HIV Positive Mothers in Developing Countries: Could Heat-treated Breast-milk be the Answer? Figure 1: A community health worker uses simple, locally purchased materials to demonstrate a method of flash-heating milk in Kibera, a massive slum area outside of Nairobi, Kenya. Although the demonstration included temperature gauges, the technique can also be implemented without thermometers https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510353968513-QEJ3K5VHOVRYV0SA9SC7/img2.jpg 2007, August - AUGUST - BREAST-FEEDING AWARENESS MONTH - GUEST ARTICLE: Infant Feeding Dilemmas for HIV Positive Mothers in Developing Countries: Could Heat-treated Breast-milk be the Answer? Figure 2: Materials used for the demonstration included cow's milk, a locally purchased glass jar, a locally purchased aluminum pan, and a small charcoal stove that is commonly used for cooking. The temperature probes used in the test are not required in actual practice https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510353995853-OYJL1LP661YJ4XG3LXAI/image-asset.jpeg 2007, August - AUGUST - BREAST-FEEDING AWARENESS MONTH - GUEST ARTICLE: Infant Feeding Dilemmas for HIV Positive Mothers in Developing Countries: Could Heat-treated Breast-milk be the Answer? Figure 3: Log scale comparison of copies/mL of cell-free HIV-1 as detected by RT activity in unheated versus Flash-heated naturally infected breast milk samples (n=30) https://www.jyi.org/2007-august/category/Features monthly 0.5 https://www.jyi.org/2007-august/category/Research monthly 0.5 https://www.jyi.org/2007-august/category/Science+News monthly 0.5 https://www.jyi.org/2007-july daily 0.75 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/bacterial-protein-presents-clues-to-treating-cancer monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/what-to-do-when-preventative-measures-cause-harm-new-developments-with-vaccines monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/ranking-system-determines-landslide-risk monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/bodys-largest-organ-artificially-produced monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/studying-mutant-mice-through-mutant-non-gene-dna monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/frog-egg-cells-may-provide-the-magic-bullet-for-destroying-brain-tumors-egg-cells-may-provide-the-magic-bullet-for-destroying-brain-tumors monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/newspapers-lend-support-to-organ-transplantation monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/pay-taxes-be-happy monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/analyze-this-anger-helps-decision-making monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/scientists-find-new-language-between-nervous-system-cells monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/new-treatment-punches-holes-in-tumors monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/first-baby-created-from-lab-matured-egg monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/buddhist-techniques-still-hold-value-in-modern-day-neuroscience monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/does-older-mean-smarter monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/genetically-thin-cd38-enzyme-is-necessary-for-diet-induced-obesity monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/corn-syrup-no-worse-than-sucrose-study-shows monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/insect-cyborg-sentinels monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/internal-clock-and-light-exposure-regulate-plant-growth monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/stem-cells-aid-parkinsons-in-primates-but-only-temporarily monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/prior-brain-tumors-affect-school-performance monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/tumor-paint-illuminates-cancer-cells monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/studying-dna-damage-through-the-generations monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/osteoarthritis-slows-recovery-following-knee-surgery monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/stem-cell-therapy-for-type-i-diabetes monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/lymph-nodes-hold-clues-to-esophageal-cancer-recovery monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/study-may-lead-to-new-therapies-for-neurodegenerative-disease monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/chemotherapy-better-than-radiation-for-children-with-cancer monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/chronic-fatigue-syndrome-gaining-legitimacy monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/natural-selection-saves-majestic-butterfly monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/accelerated-brain-loss-documented-in-bipolar-disease monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/brain-connectivity-linked-to-susceptibility-to-peer-pressure monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/anti-angiogenic-drugs-a-chemotherapy monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/review-article-pathways-and-pathology-in-cell-nuclear-migration-and-anchorage monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2007/7/10/agrichar-saving-the-planet-with-black-earth monthly 0.5 2017-11-11 https://www.jyi.org/2007-july/2017/11/10/structural-changes-between-the-holo-and-femo-cofactorless-forms-of-the-molybdenum-iron-protein-of-nitrogenase monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360840443-PRKP4NRHBDF1HOPYT81N/image-asset.jpeg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360889262-3IYWJ6QH9BA8UK2TU099/img1.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360912697-SVLRAJ0N2XQLFXH4GVUY/img2.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360931910-PB0MXHI85CDPHD6Q3RGD/img3.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361004801-G22OT6MISY21CPFFETNZ/image-asset.jpeg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361046373-QUCJL0ORM36WQZ6BP44S/img5.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361065423-Y6KVVQM3ZBXD3UCCQMYU/image-asset.jpeg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361088120-EWKBVNV7DP8A27EHUAXM/img12.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361192549-NST1LW5719IQ1IRO79RC/img7.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361210798-KNGAWZRWGEBXQMC518RP/img13.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361235091-B2SNQTF14QW1526C6LHQ/image-asset.jpeg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361256754-8EFN82QRHWI6CGUKJH9X/img9.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361298887-95T8JK3111CNPGQQ18OY/img10.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361341451-JGD91K20GF6UUOLOD2E0/img11.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361365411-AOVD4KOOKV1PC13MT5SS/img14.jpg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510361405503-XOKJMSOP3Z4AGK51KQHQ/image-asset.jpeg 2007, July - Structural Changes between the Holo and FeMo Cofactorless Forms of the Molybdenum Iron Protein of Nitrogenase article_1118_order_15 https://www.jyi.org/2007-july/2017/11/10/synthesis-and-study-of-a-bimetallic-homogeneous-catalyst monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360346358-PKGX4DIUJT9UK2M97GHH/img0.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 1: Standard Example of a Hydroformylation Reaction https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360375924-E7AT7Z6T79P8KNX44VX5/img1.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 2: Steps of the Hydroformylation Reaction for (S)-naproxen https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360401225-OWF4HY2J5JZ4EZXPT3AR/img2.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 3: The overall reaction for the synthesis of the racemic and meso-et, ph-P4 ligand https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360425131-VZX0WDVP0KFQT8DBHP8Q/image-asset.jpeg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst article_1115_order_9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360453776-ZAEPLCLC77PNF3N4Q1E5/img10.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst article_1115_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360477377-KWEYK8Z6NY5EJWQXW90B/image-asset.jpeg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst article_1115_order_11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360512817-2GYIDICJ1OZF63R2NG8T/img12.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst article_1115_order_12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360575824-ANCD9D95LR0QX1Z4U7Y3/image-asset.jpeg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 5: The molecular structure of the catalyst precursor, et, ph-P4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360599292-2ZA6ID0L619WB969HKBS/img5.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 6: The diasteromeric, racemic and meso, et,ph-P4 ligands https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360623504-KFBPJIXW3NSQ4WWALXSA/img6.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 7: The 31P NMR of the Ph(H)PCH2P(H)Ph bridge shows chemical shifts (peaks) at -53.1 ppm and -54.1 ppm for the racemic and meso diastereomers, which assists in identifying the compounds in the bridge. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360655697-UV07ATDXHH49G3IV75TX/image-asset.jpeg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 8: The 31P NMR of the vinyldiethylphosphine sample shows a chemical shift (peak) at -17.804 ppm, which assists in identifying the compounds in the vinyldiethylphosphine. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360678602-3IJ69NP809PT7HK93OS0/img8.jpg 2007, July - Synthesis and Study of a Bimetallic Homogeneous Catalyst Figure 9: The 31P NMR of the racemic- and meso-et,ph-p4 ligand sample shows chemical shifts (peaks) at -25.1 ppm, -24.9 ppm, -24.5 ppm, -24.2 ppm, -16.7 ppm and -15.8 ppm, which assists in identifying the compounds in the racemic and meso ligand. https://www.jyi.org/2007-july/2007/7/10/the-interactive-aquarium-evaluating-the-effectiveness-of-interactive-interfaces-in-an-aquarium-visit monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359973397-XZYMRQE5KNE3VE47T2BU/img0+%281%29.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Figure 1: The interface of the Interaction Panel developed within the Interactive Aquarium project https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359997331-Y7V3ABTK5DG9816DGXEM/img1.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Figure 2: The placement of the interaction panel beside the aquarium. (Not to scale) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360015432-F1LR9MQBRYOBFVOX863B/img2.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Figure 3: The placement of the posters beside the exhibit. (Not to scale) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360036309-ISFWN9EUE8SYGZYRIUFO/img3.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Table 1: The top part of Table 1 shows the age group breakdown of the exhibit visitors and how many used the given information source. The rest of the table shows the results of the chi-square tests for independence between usage of the information source and age and between source type and usage. The statistic reported is the Yate's chi-square corrected for continuity. Bolded statistics indicate significance with a p value of less than 0.05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360061662-7VK4TLTI4TF4TIS1T8A4/img4.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Table 2: This table shows the age and gender breakdown of the surveyed participants https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360080193-M8EXUEMZB2AJ7EODBQJ5/image-asset.jpeg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Table 3: This table shows the reasons provided for using, stopping use and ignoring the interaction panel and posters and their frequencies as given by the survey results https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360110832-FZ87FRHPQSHQY24P66DO/img6.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Table 4: This table shows a summary of the mean Likert scores reported for each area. The table also shows the results of chi-square tests for independence between the type of information source presented and the survey scores. Single-factor ANOVA tests were used when comparing all four groups. Two-tailed t-tests were used when comparing only two groups. Bolded statistics indicate significance with a p value of less than 0.05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510360134101-VNAYPD0MOWEV9HRI3YVE/img7.jpg 2007, July - The Interactive Aquarium: Evaluating the Effectiveness of Interactive Interfaces in an Aquarium Visit Table 5: This table shows the tasks performed at each of the two types of information panel and their frequencies as given by the survey results https://www.jyi.org/2007-july/2017/11/10/using-the-creative-design-process-to-develop-illustrative-rendering-techniques-to-represent-information-quality monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358915210-0QUFVD7IS1XR899GM6GL/img0.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 1: A sample visualization from an emergency management application. The visualization is rendered in a realistic style throughout, granting equal emphasis to important and unimportant information https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358935718-CZX0XXWJHIRM5VM88ETR/image-asset.jpeg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 2: Unimportant areas of the visualization are now displayed as illustratively rendered. The areas of importance within the visualization are now emphasized and the context of the information is retained https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358963246-E2P7TGYUBB628HKAMPVX/img2.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 3: From left to right, examples in black and white of the sketch, paint, outline, and stipple techniques https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358988240-HCQM0BWD0SRRUF21X77C/img3.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 4: An example of the imagery presented to users in Study 1. From left to right, showing an example with a sketched region, a painted region, a stippled region, and an outlined region. Each technique was used in color and in black and white in the study https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359012347-BYGNH2MZHX9DJ20CWSLJ/image-asset.jpeg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 5: A lineup of images, displaying an increase in the intensity of application of the artistic rendering technique as the information quality decreases https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359047435-W3Z4SWPYTKDWHOZ4LV8R/img5.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 6: An image showing the bones of the human foot with some areas of low quality information, displayed with the sketch technique https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359087437-FW5N2EI5XRH3AGOFQZYL/img6.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Figure 7: A pair of images showing the bones of a human foot in different orientations. The same region (in this example the bones of the big toe & the adjacent toe) has been illustratively rendered with the stipple technique in both images https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359110859-HHSA2XPKYICA74IXUDZB/image-asset.jpeg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Table 1: The percentage of responses indicating that the illustrated region of the image conveyed low quality information https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359135563-TDO5SKPA9W0W2MF2MKLJ/img8.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Table 2: The number of correct answers by technique in Part 1 of the second user study https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359158390-7YO34V6JL7U9UGLJM02C/img9.jpg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Table 3: The error values (false positives and false negatives) and standard deviations by technique for Part 2 of the second user study https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510359181969-717WK393BXMTM3H5XCX3/image-asset.jpeg 2007, July - Using the Creative Design Process to Develop Illustrative Rendering Techniques to Represent Information Quality Table 4: The percentage of correct responses for Part 3, by technique, and the corresponding P-values as a result of the binomial distribution test https://www.jyi.org/2007-july/2017/11/10/development-of-charged-coupled-devices-for-precision-cosmology-and-the-supernova-acceleration-probe-satellite monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358098442-3Y83O00GSWP2QN7KNSI9/img0.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 1: Light travels through the expanding space of the universe, its wavelength is stretched by the exact amount that space has expanded. Thus, while it is traveling measurement of the apparent luminosity and spectrum of a SN Ia provides a direct measure of the size of the universe versus time. This technique is exactly that used by LBL researchers to discover dark energy; this figure shows their data https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358122938-5T842HB5EI2L25K6JMZQ/img1.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 2: In weak lensing, shapes of galaxies are measured. Large-N statistics extract lensing influence ("shear") from intrinsic noise. Dominant noise source is the (random) intrinsic shape of galaxies https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358143073-ZFBTK023B2999TESFEIG/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 3: Supernova Acceleration Probe satellite (SNAP) is a 2-meter space-based telescope scheduled to launch in 2013 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358165888-V71LEQJOUZVRCIAX84C6/img3.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 4: The advantages of the LBNL high-resistivity charged coupled devices (CCDs). Includes: sensitivity to a wider range of light energies and wavelengths, improved radiation tolerance (a requirement for reliable and robust operation in space), and improved control over spatial information https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358192238-N0YIOV0D48PB6M9TR7BM/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 5: Shows the effect of lateral charge diffusion in a back-illuminated CCD https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358264982-6USTBVGUJGG0N526MYVC/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 6: The apparatus shown is the pinhole projector. To perform characterization experiments, the CCD is illuminated by a light source external to the dewar. Light from a high-intensity General Electric bulb passes through a filter before it is focused onto a fiber optic cable bundle by means of a convex lens. A centering assembly holds the fiber optic cable in place inside a brass tube. The light illuminates a 10 μm pinhole, passes through a tube, and is collimated by a tube lens. The collimated light is then focused to about 1 μm on the CCD by a microscope objective, with a working distance of 34 mm https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358289944-8Z45U63CDJR4XCWU4BKJ/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 7: Illustrates the virtual knife edge scan technique https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358313240-V2759QHPPH2Q54XTESLC/img7.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 8: 9-point dither pattern https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358369948-QR2ZTDO9LW4B4LKHZDYP/img8.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 9a: Move an image across the CCD fractions of a pixel at a time and take a picture https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358389583-CNSH31Z8RMD53DZ574XX/img9.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 9b: Each exposure is slightly different https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358409022-A2E5BBYZBLJ05BE55J8Z/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 10: After all the dithered images are collected they are reconstructed to form a super-image https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358437601-IOHCCE5CYD9T3NWBC6LR/img11.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 11: During standard dithering every time the telescope is realigned charges fall on different parts of the CCD https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358458654-M9URWNRN32ZQIDRRLKD3/img12.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 12: Phase dithering generates the same results by changing the gate under which the charge is collected https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358555279-6MW6MHQSLVXN89HAT9EO/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 13a: The signal in an integration square as a projected spot is moved out of the region. The signal level in the region begins to attenuate as the spot leaves the region. Fitting a curve to this data reveals the size and profile of the spot https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358575542-M15QQHXPH8RBVEO6OZ92/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 13b: This curve represents the inverse derivative of Figure 13a. The dark blue line represents the data while the pink line represents a Gaussian fit to the data. The measured width of the Gaussian is σ= 7.5 μm https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358608213-5A9XCDADUQLKCJWXY9NH/img15.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 14a: The spot integration technique is used to measure the beam stability. Instead of maintaining an integration square in a defined region of the CCD, we integrate the spot signal at each step with the spot always in the center of the integration region https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358633563-VQXU319A0IU14X8VRBKV/img16.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 14b: The beam level is measured for a series of spots. The integrated signal is fit to a line and the fit residuals (± 2%) are plotted https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358660822-KJ0QG41SY2AM18HG15H2/img17.jpg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 15: Pixel uniformity measurements. Each curve represents a pixel as the spot is scanned across it. The signal is relatively constant as the spot is stepped across the pixels. The observed variations in peak pixel signals are ±2%. This variation is consistent with the variation in the beam signal stability https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510358679961-SOX5VW6IYWZV13S4EX1T/image-asset.jpeg 2007, July - Development of Charged-Coupled Devices for Precision Cosmology and the Supernova Acceleration Probe Satellite Figure 16: An illustration of dithering versus phase dithering. (a) this photo is a raw spot image without dithering. (b) this image shows a reconstructed superimage from nine images taken in a 9-point dither pattern. (c) this image shows a reconstructed superimage from nine images taken with only three pointings but with phase dithering to mimic the 9-point dither pattern. Note that the last two images are virtually identical https://www.jyi.org/2007-july/category/Features monthly 0.5 https://www.jyi.org/2007-july/category/Research monthly 0.5 https://www.jyi.org/2007-july/category/Science+News monthly 0.5 https://www.jyi.org/2007-june daily 0.75 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/shark-cartilage-does-not-treat-lung-cancer-study-shows monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/heavy-snoring-affects-neurotransmitter-involved-in-alzheimers monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/the-future-of-science-depends-on-you monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/stem-cell-therapy-may-treat-worlds-leading-cause-of-blindness monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/laser-technique-shows-cancer-on-inner-layers-of-skin monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/self-exploding-capsules-enable-timed-drug-delivery monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/robots-read-human-thoughts monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/new-research-provides-clues-to-eliminating-cancer-permanently monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/got-allergies-dont-try-to-wash-them-away monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/virus-able-to-transmit-genes-in-deafness-therapy monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/influence-of-protein-vivid-on-circadian-clocks monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/its-not-easy-seeing-green-improving-mice-vision-with-a-single-gene monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/6/10/growing-body-parts-artificial-blood-vessels-from-muscle-derived-stem-cells monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/one-more-reason-to-wear-bug-spray-mosquito-immunity-genes-studied monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/balance-organ-indicates-how-extinct-species-moved monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/blocked-by-buckyball-fullerenes-inhibit-allergic-response monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/genes-may-determine-asthma-medication monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/researchers-study-arctic-hydrothermal-vents monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/the-world-through-a-whisker-brain-plasticity-in-the-wake-of-sensory-loss monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2007/7/10/mdma-the-ecstasy monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510366353021-NYB5FD0APSOTVGYMDCG7/img0.jpg 2007, June - MDMA - The Ecstasy MDMA tablets for oral consumption. Image courtesy: erowid.org https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510366375652-95QHODQX2J5YVXTZ9GTW/image-asset.jpeg 2007, June - MDMA - The Ecstasy SERT (serotonin neuron) density measured by PET scan in baboon brains. The baboon on the right was given a neurotoxic dose of MDMA a year before the scan; the control baboon was given a placebo. Image courtesy: DEA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510366398187-E55QFO50KOML42WLKZ39/img2.jpg 2007, June - MDMA - The Ecstasy A highly controversial ranking of licit and illicit drugs, from "most dangerous" on the right to "least dangerous" on the left. Note that MDMA (ecstasy) is among the least dangerous. Image courtesy: The Lancet. https://www.jyi.org/2007-june/2007/7/10/maggot-medicine monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510366197810-NF7YKVMJEM1PM442AFQI/img0+%281%29.jpg 2007, June - Maggot Medicine "leave them, they will clean it, wait and see", maggots cleaning Maximus' wound in the film Gladiator' https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510366228825-RKO9E8H464H4BU5ADZMY/img1.jpg 2007, June - Maggot Medicine Maggots help healing by eating dead tissue Image Courtesy: BBC News https://www.jyi.org/2007-june/2007/7/10/the-plunge monthly 0.5 2017-11-11 https://www.jyi.org/2007-june/2017/11/10/optical-properties-of-aggregates-built-from-bcca-and-bpca-modeling monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365678961-OFCWBBZ5L3F34NUGDNJR/img0+%281%29.jpg 2007, June - Optical Properties of aggregates built from BCCA and BPCA Modeling article_1074_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365758907-PGU2SJ7YL17UMOT8SS3Q/img3+%281%29.jpg 2007, June - Optical Properties of aggregates built from BCCA and BPCA Modeling article_1074_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365774119-2XP8BSPVN55B7SH834HE/img1+%281%29.jpg 2007, June - Optical Properties of aggregates built from BCCA and BPCA Modeling article_1074_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365808723-K7AYSVQP54NDTG5W4RH3/img4+%281%29.jpg 2007, June - Optical Properties of aggregates built from BCCA and BPCA Modeling article_1074_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365830926-TJD7M7CPMKRZM0YT6CCT/img2+%281%29.jpg 2007, June - Optical Properties of aggregates built from BCCA and BPCA Modeling article_1074_order_2 https://www.jyi.org/2007-june/2017/11/10/identification-of-a-bacillus-amyloliquefaciens-ba-strain-able-to-bioremediate-methyl-tertiary-butyl-ether-mtbe-in-vitro-and-in-situ monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365310930-QTRZEI7BSECPLQWPHMYW/img0.jpg 2007, June - Identification of a Bacillus amyloliquefaciens (BA) strain able to bioremediate methyl tertiary-butyl ether (MTBE) in vitro and in situ Figure 1 – Growth of individual Bacillus amyloliquifaciens (BA) colonies (isolates 1 and 2) and B. licheniformis (isolates 3 and 4) on agarose containing MTBE (1,000 ppm vol/vol) or tert butyl alcohol (500 ppm vol/vol) as sole carbon sources https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365352471-F1DWPAR3GP9O0G27A7XD/img1.jpg 2007, June - Identification of a Bacillus amyloliquefaciens (BA) strain able to bioremediate methyl tertiary-butyl ether (MTBE) in vitro and in situ Figure 2 – Effect of MTBE on the growth of Bacillus amyloliquefaciens (BA) over a 12 hour incubation period https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365402437-R8FQNSP5CTQV742JZ6MJ/img4.jpg 2007, June - Identification of a Bacillus amyloliquefaciens (BA) strain able to bioremediate methyl tertiary-butyl ether (MTBE) in vitro and in situ Table 1 – Effect of 100 and 1,000 ppm on the growth of Bacillus amyloliquefaciens over a 12 hour incubation period https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365437739-SA9C873DO86YQF3RCD7C/img2.jpg 2007, June - Identification of a Bacillus amyloliquefaciens (BA) strain able to bioremediate methyl tertiary-butyl ether (MTBE) in vitro and in situ Figure 3 – Correlation between Bacillus amyloliquefaciens growth and reduction in MTBE levels https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510365461106-795X300AXS30PXOGPTI9/img3.jpg 2007, June - Identification of a Bacillus amyloliquefaciens (BA) strain able to bioremediate methyl tertiary-butyl ether (MTBE) in vitro and in situ Figure 4 – Gas chromatography/ mass spectrometry (GC/MS) assessment of rate of MTBE degradation of soils from four sites seeded with Bacillus amyloliquefaciens https://www.jyi.org/2007-june/category/Features monthly 0.5 https://www.jyi.org/2007-june/category/Research monthly 0.5 https://www.jyi.org/2007-june/category/Science+News monthly 0.5 https://www.jyi.org/2007-may daily 0.75 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/pain-drugs-dont-prevent-dementia-studies-suggest monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/ancient-global-warming-linked-to-volcanic-eruptions monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/new-ways-of-combating-antibiotic-resistance monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/new-nano-technology-brings-clearer-view-of-water monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/race-only-skin-deep-in-colorectal-cancer-survival monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/monkeys-provide-clues-to-how-antidepressents-work monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/kicking-the-brain-into-addiction-a-new-side-to-the-morphine-story monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/first-use-of-gene-therapy-to-treat-sight-disorder monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/prion-infectivity-explained-in-yeast-prions monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/hkqhoeze36ff1lrw92luxfgzszcovr monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/exercise-may-be-fountain-of-youth monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/new-method-developed-to-extract-biofuel-from-wood monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/11/genomic-variation-the-search-for-our-past-and-our-future monthly 0.5 2017-11-11 https://www.jyi.org/2007-may/2007/5/10/hawaiian-lowland-wet-forests-impacts-of-invasive-plants-on-light-availability monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375295387-KKKVCEEILHZ0MFFEL40K/image-asset.jpeg 2007, May - Hawaiian Lowland Wet Forests: Impacts of Invasive Plants on Light Availability Figure 1. Foliage height profiles in four control plots (A) and in four removal plots (B) at Keaukaha Military Reservation's Hawaiian lowland wet forest in Hilo, HI. The asterisks indicate significant difference between control and removal plots (nonparametric Wilcoxon test: P-value &lt; .0001). Data are means and standard error bars. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375319924-1JH7T7K8LE7BFH3BMRU0/img1.jpg 2007, May - Hawaiian Lowland Wet Forests: Impacts of Invasive Plants on Light Availability Figure 2. By treatment mean percent light transmittance (± standard error bars) at 1m and 6-8m heights. For both heights light transmittance between control and removal plots were significantly different (nonparametric Wilcoxon test: P-value &lt; 0.05). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375345184-GGV01DF2HU4FPPENX6UE/img2.jpg 2007, May - Hawaiian Lowland Wet Forests: Impacts of Invasive Plants on Light Availability Table 1. Average specific leaf area (SLA), % leaf nitrogen concentration on mass basis (Nmass), leaf construction costs on mass (CCmass) and area basis (CCarea), maximum net CO2 assimilation (Amax), light compensation points and light saturation points. P-values for comparisons amongst all three species; nonparametric Wilcoxon test. * = Statistically significant difference; different letters indicate significant differences amongst species. https://www.jyi.org/2007-may/2017/11/10/exploring-the-reliability-of-archaeological-site-survey-through-the-gis-based-analysis-of-surface-artifact-distribution-at-krsladany-14 monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510374864500-YQY57LTPB8J5N3TZ0VIW/img0.jpg 2007, May - Exploring the Reliability of Archaeological Site Survey through the GIS Based Analysis of Surface Artifact Distribution at Körösladany 14 Figure 1. This map illustrates the surface ceramic density and distribution of the K-14 site. Each block represents the amount of ceramic found in a particular square meter surveyed. The blue colors in this figure represent above average and high concentrations of ceramic. By looking at the higher concentrations, a large cluster is seen stretching from the northern area to the middle of the site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510374903085-Q7FMFJ7PGH8P4PEGIRGA/image-asset.jpeg 2007, May - Exploring the Reliability of Archaeological Site Survey through the GIS Based Analysis of Surface Artifact Distribution at Körösladany 14 Figure 2. Figure 2 reveals the location and distribution of confirmed Copper Age ceramics on the surface of K-14. Green indicates a presence of Tiszapolgar ceramics while blue indicates a high concentration. The areas of high concentration correlate with the high concentrations of all ceramics seen in Figure 1. The location of the Copper Age ceramics suggests which areas of the multilayered site are Copper Age in origin. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510374967713-CR0MHET8DY3OTAFZNAI3/img2.jpg 2007, May - Exploring the Reliability of Archaeological Site Survey through the GIS Based Analysis of Surface Artifact Distribution at Körösladany 14 Figure 3. In this figure, the location and distribution of faunal remains are shown. Shown in green and blue, the low amounts of bone indicate a less common artifact on the surface of the site. Still, the distribution pattern can be seen as similar to the distribution of the ceramics. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375029133-JM42I55VTFJFEBVUNQ6G/img3.jpg 2007, May - Exploring the Reliability of Archaeological Site Survey through the GIS Based Analysis of Surface Artifact Distribution at Körösladany 14 Figure 4. The above average and high concentrations of daub (burned earth) are shown in blue on this map. The distribution of daub reveals that the majority of high concentrations are in the northeastern areas of the site. These areas may have subsurface features such as burned houses, kilns, and middens. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375064091-MSKLXWBO9ZWALZB519M5/img4.jpg 2007, May - Exploring the Reliability of Archaeological Site Survey through the GIS Based Analysis of Surface Artifact Distribution at Körösladany 14 Figure 5. Figure 5 is a prediction model based on queries for possible subsurface features. The patterns within the units indicate areas which the computer marked as possible areas with burned house, houses, middens, and kilns. The illustration also shows the results of the magnetometry survey in brown lines and the 2005 excavation sites in labeled brown blocks. This model allows for the comparison of the various types of testing done on the K-14 site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375110607-LQ8GC3613VAQHBURU9B5/img5.jpg 2007, May - Exploring the Reliability of Archaeological Site Survey through the GIS Based Analysis of Surface Artifact Distribution at Körösladany 14 Figure 6. The results of the soil chemistry test can be seen in this figure. Yellow, orange, and red reveal the locations of the highest amounts of phosphates in the soil. Phosphates are important to this project because phosphates are released into soil during the decomposition of organic materials. Areas high in phosphates may reveal Copper Age middens or livestock areas. https://www.jyi.org/2007-may/2017/11/10/synthesis-and-galvanic-replacement-reaction-of-silver-nanocubes-in-organic-medium monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376416108-N88YL48CUC02AKTL5HNK/image-asset.jpeg 2007, May - Synthesis and Galvanic Replacement Reaction of Silver Nanocubes in Organic Medium article_963_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376434959-ICRC7DL8E20DFM5KM55B/img1.jpg 2007, May - Synthesis and Galvanic Replacement Reaction of Silver Nanocubes in Organic Medium article_963_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376518950-ZLVX1NNIY3Y3W1TBY281/image-asset.jpeg 2007, May - Synthesis and Galvanic Replacement Reaction of Silver Nanocubes in Organic Medium article_963_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376544001-KTOYHB2OYL94PR0G0ZUL/img3.jpg 2007, May - Synthesis and Galvanic Replacement Reaction of Silver Nanocubes in Organic Medium article_963_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376586284-V5ZG6ZSC8PCX97NZ7DYU/image-asset.jpeg 2007, May - Synthesis and Galvanic Replacement Reaction of Silver Nanocubes in Organic Medium article_963_order_4 https://www.jyi.org/2007-may/2017/11/10/intracellular-dynamics-of-bacteriophage-oslashx174-gene-expression monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375524339-OL4LPLC9Z3OGVPOJKO50/img0.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375590674-Z6GL40N4HW6YAOB1V5XB/img4.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375610835-OSZ5HFSH2P5BWKGU8ER8/img5.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375676064-RE3S2NFJB0XU7IYUMIAI/img10.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375734167-N7VO1AF5Q7WXZ0RPWVFS/image-asset.jpeg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression Equation 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375771414-03EFDP63GK0ZFTTOF4LZ/img12.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375825172-ZGE3RC4TYTB8WGO80WU1/img13.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375879584-3X1BRMA627Q33Y0EGM0L/img14.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510375946479-TRCU00WHYW9MGCMWHZCE/image-asset.jpeg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376005390-UF50K3YDU0FU1LVH32J5/img16.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376033768-ZRU7W81GJDQBYBIUPF9R/img1.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376072032-M0DQEGE200R0O2FR66KT/img2.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376127902-EI7L97LSBK4AYDBTWT3D/img3.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376180629-A1XCOKMQ90FC0Z0PSXLB/img7.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376198575-WHPRGMC9TUE843HIHC9Q/img8.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376224930-LWK3QXTDXMXTYWKIRIYO/img9.jpg 2007, May - Intracellular Dynamics of Bacteriophage øX174 Gene Expression article_1068_order_9 https://www.jyi.org/2007-may/2007/5/11/algaasgaas-heterojunction-prosthetic-retina monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378114359-A037DGZZ9OE5ULIHZ9V3/image-asset.jpeg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Figure 1: Sensor spectral response graph. The blue line, which peaks around 600 nm, represents the spectral response of the human eye while the purple line, peaking in the infrared region shows the spectral response of silicon. The yellow line represents the spectral response of GaAsAl which has a peak that encompasses that of the human eye. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378149351-MFTPPGAS2FVZVPU5QQHD/img1.jpg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Figure 2: Prosthetic retina structure. Each layer has a different doping concentration (see Table 1) to help the retina utilize as much sunlight as possible. This technique can result in much higher efficiencies. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378175974-7VENK7V6KT4MDCZZYVHX/image-asset.jpeg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Table 1: The left side of the table represents the contents of the five layers grown beginning with the substrate. The right side of the table contains the doping concentration of each layer grown. All n-type and p-type layers were doped with silicon and beryllium respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378208783-GKDVBS3NAVEF3UMVYAC5/img2.jpg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Figure 3: Voltage vs Current graph of the prosthetic retina with no light (red line) and sunlight power of AM1 (blue line). The location where the blue line crosses x-axis is called the open circuit voltage and where the line crosses the y-axis is called the short circuit current. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378236299-9YE90XB8M81UI1LCPXQI/img3.jpg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Figure 4: SEM image after 30 min of RIE w/photoresist mask. RIE etching produced vertical mesas (solar cells) that were approximately 10 µm high with vertical sidewalls and a very smooth surface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378263455-032W33NHRN69E5F18C34/image-asset.jpeg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Figure 5: SEM image after 45 min of RIE w/metal mask. RIE produced 18 µm deep sidewalls. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510378300569-1OVD2VV1N32JYSJZE4ZH/image-asset.jpeg 2007, May - AlGaAs/GaAs Heterojunction Prosthetic Retina Figure 6: The final prosthetic retina device was 2.5 mm2 in size and consisted of roughly 1900 solar cells giving a resolution of 503 dots/inch. The device is next to a dime to provide a size comparison. https://www.jyi.org/2007-may/2007/5/11/effects-of-body-size-on-reproduction-and-survival-in-the-prairie-vole-microtus-ochrogaster-is-bigger-better monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377823675-7A7K4D8NZNAXECMXU8U2/img0+%281%29.jpg 2007, May - Effects of body size on reproduction and survival in the prairie vole (Microtus ochrogaster): Is bigger better? article_1033_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377853299-ZMFWGIYK8OFFFSDBTM4T/img1.jpg 2007, May - Effects of body size on reproduction and survival in the prairie vole (Microtus ochrogaster): Is bigger better? article_1033_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377881033-31ZRL4TZVCHT08NKYZM0/image-asset.jpeg 2007, May - Effects of body size on reproduction and survival in the prairie vole (Microtus ochrogaster): Is bigger better? article_1033_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377905569-BSKQZKNJ3608F9Z66SAL/img3.jpg 2007, May - Effects of body size on reproduction and survival in the prairie vole (Microtus ochrogaster): Is bigger better? article_1033_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377929061-I33HJN0MVUH8EAXIS811/img4.jpg 2007, May - Effects of body size on reproduction and survival in the prairie vole (Microtus ochrogaster): Is bigger better? article_1033_order_4 https://www.jyi.org/2007-may/2017/11/11/fabricating-superconducting-quantum-interference-device-squid-nanostructures-for-single-spin-detection monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377428047-O91845ZHLZIEU8ECKYQ9/img0.jpg 2007, May - Fabricating Superconducting QUantum Interference Device, SQUID, Nanostructures for Single Spin Detection article_1027_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377516794-34WYZT0BL0INGW38EMX3/img1.jpg 2007, May - Fabricating Superconducting QUantum Interference Device, SQUID, Nanostructures for Single Spin Detection article_1027_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377540174-UFZRI6YGZWVT2VYRW8UX/image-asset.jpeg 2007, May - Fabricating Superconducting QUantum Interference Device, SQUID, Nanostructures for Single Spin Detection article_1027_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377560152-E0Z79461K29LURI0TOVA/img3.jpg 2007, May - Fabricating Superconducting QUantum Interference Device, SQUID, Nanostructures for Single Spin Detection article_1027_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377577110-TE3CMDVAH7G1B5N7DV5V/img4.jpg 2007, May - Fabricating Superconducting QUantum Interference Device, SQUID, Nanostructures for Single Spin Detection article_1027_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377601662-JRVZUTP5LG9WYHE4C30K/img5.jpg 2007, May - Fabricating Superconducting QUantum Interference Device, SQUID, Nanostructures for Single Spin Detection article_1027_order_5 https://www.jyi.org/2007-may/2017/11/11/research-and-development-of-electron-beam-lithography-using-a-transmission-electron-microscope-at-200-kv monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376982647-33E8JG6OP882E2S3VHAJ/image-asset.jpeg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377041748-9IY6CGNFIQVK1IWESHPR/img1.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377065878-KKX6BCXO7SOAL0ZFDG3G/img5.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377085818-BCQSY7LMXUTW3BDT6RDQ/img6.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377135124-O9JES4HD13SDJMSMW5LW/img7.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377153422-AJ8KEJIS3JQEKXQBEST9/img8.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377199266-WMM6J2THOFHP802SUKX2/img2.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377219492-YLTP0GNYZW7FS0QJXP4F/image-asset.jpeg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510377239849-49F2941K9N6PK96DGTBS/img4.jpg 2007, May - Research and Development of Electron-beam Lithography Using a Transmission Electron Microscope at 200 kV. article_1025_order_4 https://www.jyi.org/2007-may/2007/5/11/fabrication-and-characterization-of-mnasgaas-heterostructures-for-studies-of-one-dimensional-spin-transport monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376744141-YEFCVCJZ9ZM3H9KZP5NU/img0.jpg 2007, May - Fabrication and Characterization of MnAs/GaAs Heterostructures for Studies of One-Dimensional Spin Transport article_964_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376782802-VU1TPR0MQRQNC665UP6A/img1.jpg 2007, May - Fabrication and Characterization of MnAs/GaAs Heterostructures for Studies of One-Dimensional Spin Transport article_964_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510376802036-RQOKRGZWDMWXFOTAV5ZR/img2.jpg 2007, May - Fabrication and Characterization of MnAs/GaAs Heterostructures for Studies of One-Dimensional Spin Transport article_964_order_2 https://www.jyi.org/2007-may/category/Features monthly 0.5 https://www.jyi.org/2007-may/category/Research monthly 0.5 https://www.jyi.org/2007-may/category/Science+News monthly 0.5 https://www.jyi.org/2007-april daily 0.75 2017-11-11 https://www.jyi.org/2007-april/2007/4/11/hepatitis-a-virus-yields-clues-about-how-pathogens-survive-in-the-liver monthly 0.5 2017-11-11 https://www.jyi.org/2007-april/2007/4/11/diamonds-on-demand monthly 0.5 2017-11-11 https://www.jyi.org/2007-april/2007/4/11/the-great-debate-string-theory monthly 0.5 2017-11-11 https://www.jyi.org/2007-april/2007/4/11/how-it-works-the-evolution-of-3d-glasses-and-3d-technology monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510383045448-V8AUAQKRVJMHSZJZR8LA/img0.jpg 2007, April - How It Works: The Evolution of 3D Glasses and 3D Technology The View-Master is a form of the stereoscope, the first technology to popularize 3D viewing. Image courtesy of fisher-price.com. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510383066870-ISFF1YMMLS34TCSTP0BH/image-asset.jpeg 2007, April - How It Works: The Evolution of 3D Glasses and 3D Technology SI's latest Swimsuit Edition features anaglyph images. They remain popular largely because of their low cost. Image courtesy of SI.com. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510383099965-WCGHWX523HL7L6VTMLMM/img2.jpg 2007, April - How It Works: The Evolution of 3D Glasses and 3D Technology Polarizing lenses allow different images (green and blue arrows) to reach each eye. Image courtesy of howstuffworks.com. https://www.jyi.org/2007-april/2007/4/11/exercise-more-eat-more-weigh-less monthly 0.5 2017-11-11 https://www.jyi.org/2007-april/2007/4/11/differential-response-of-vibrio-vulnificus-isolates-from-south-texas-waters-to-oxidative-stress monthly 0.5 2018-11-11 https://www.jyi.org/2007-april/2017/11/11/a-correct-newton-raphson-and-a-better-halley monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382185772-5YZDTMYNJF5S708JFY0U/img0+%281%29.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382213286-L1EB5C9HB1JIZ15EHS1S/img1.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382251398-RICO95G56ZDGWH4U245Y/img2.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382302029-XPT8C6254S56M3HIOAH8/img3.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382334611-6OO9MHTECSAG6A5S3QG7/img4.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382364111-I32HJTXU7FBOWGSNHBOL/img5.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382398448-9ZO08WC0KVU0K096QVHA/img6.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382464767-EKKHEXPEQ5MW0HRW17RQ/img7.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382489630-DF8QJSAEQPBH1EI5S5IX/img8.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382520192-0XPH8I9CSSSBB3D1XRC4/img9.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382553875-PS17A2I7FVZW6O124BU0/img10.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382581398-KGYQKK9BEAPZKBSJ2J4V/img11.jpg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510382643813-RIIC2VL0S6DR12BCSNOQ/image-asset.jpeg 2007, April - A Correct Newton-Raphson and a Better Halley article_965_order_12 https://www.jyi.org/2007-april/2009/1/11/sensitivity-and-specificity-in-prostate-cancer-screening-methods-and-strategies monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381691679-RJA1WT27N89HQ2VRIE14/img1+%281%29.jpg 2007, April - Sensitivity and Specificity in Prostate Cancer Screening Methods and Strategies article_931_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381721231-U4SN5708L8X05HE4JSO5/img3.jpg 2007, April - Sensitivity and Specificity in Prostate Cancer Screening Methods and Strategies article_931_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381759687-406C2LH127IBG95SAZE9/image-asset.jpeg 2007, April - Sensitivity and Specificity in Prostate Cancer Screening Methods and Strategies article_931_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381792688-Z3MIMHZHXKK4TKFMCIAA/image-asset.jpeg 2007, April - Sensitivity and Specificity in Prostate Cancer Screening Methods and Strategies article_931_order_0 https://www.jyi.org/2007-april/2007/4/11/paleomeander-behavior-in-the-early-copper-age-of-the-great-hungarian-plain-vesztohungary monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381491713-HUCY5TCCVCV7SXJZMHHY/img0.jpg 2007, April - Paleomeander Behavior in the Early Copper Age of the Great Hungarian Plain: Veszt"o,Hungary Figure 1- Early Copper Age sites in Bekes County, Hungary ( Ecsedy, 1982) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381522368-Y7WGZQ4ISNJDK13NVGT1/img1.jpg 2007, April - Paleomeander Behavior in the Early Copper Age of the Great Hungarian Plain: Veszt"o,Hungary Figure 2- 2005 Coring sites in Bekes County, Hungary https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381546789-2BT773SAYJG9VU7VNE7L/img2.jpg 2007, April - Paleomeander Behavior in the Early Copper Age of the Great Hungarian Plain: Veszt"o,Hungary Figure 3- Selected core profiles from 2005 https://www.jyi.org/2007-april/2007/4/11/molecular-patterning-of-the-vertebrate-limb-and-implications-for-congenital-deformity monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380910667-OFX4FCGNL07NVM8W3U9P/img0+%281%29.jpg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 1: Conserved structures of the chick and mouse limb pattern. Adjacent to the shoulder, the stylopod will form the humerus in the forelimb or the femur in the hindlimb. The zeugopod will form the radius and ulna or tibia and fibula in the forelimb and hindlimb respectively. The distal autopod will give rise to the wrist and fingers or ankle and toes. Image modified from Niswander 2003. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380980189-UN72UHG1BY56G2SE6QDO/image-asset.jpeg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 2: The boundary between high and low R-fng expression specifies the position of the AER. The molecular details have yet to be fully established but, in Drosophila, Fgf signalling activates Notch in order to cause thickening of the ectoderm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381031202-XP7FWABQFYEPI259EHRB/img2.jpg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 3: According to the progress zone model, mesenchymal cells proliferate and exit the PZ proximally. At this point their autonomous clock' will stop having already specified the cell fate. Image modified from Saunders 2002. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381075854-S3D3YGSW6SLNFSNKC50N/img3.jpg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 4: The pattern of Hox gene expression changes along the promimodistal axis of the limb. Hox expression can be divided into three phases', each of which correspond to a limb element: stylopod, zeugopod or autopod. Image from Gilbert 2005 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381119901-85LZWSM4NR7F400H5JVZ/img4.jpg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 5: Sonic hedgehog (Shh) binds its receptor Patched (Ptc1) which activates the previously repressed transmembrane domain Smo. Derepression of Smo inhibits the proteolytic cleavage of activator Gli3. This prevents direct repression (and indirect repression through dHAND) of Shh. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381154827-BBO0A5RTQ01AVOSKMF1M/img5.jpg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 6: Secretion of Shh from the ZPA promotes forming expression which confers competence on mesenchymal cells for Gremlin. Gremlin then binds to, and antagonises, Bmp2 which facilitates secretion of Fgf4 from the AER. Fgf4 in turn up-regulates Shh. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510381193569-VX66TGHQ6HEJW0BXCU4S/img6.jpg 2007, April - Molecular Patterning of the Vertebrate Limb and Implications for Congenital Deformity Figure 7: Signals responsible for axis specification are inter-related so that the limb can be properly formed in three dimensions. Image from Niswander 2003. https://www.jyi.org/2007-april/2007/5/11/fabrication-of-metallic-nanoparticle-arrays monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380308963-UM5R4QMCS4VC3XUBW1AZ/img1+%281%29.jpg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 1. Diagram illustrates localized surface plasmon resonance (LSPR), a collective electron density oscillation caused by the electric field component of incoming light. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380355019-4IK8H4N5UJZNW05HA1AH/image-asset.jpeg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 2. Illustration of the process of nanoimprint lithography (NIL). a-c) A glass substrate is coated with a thin film of polymer and imprinted with a mold. d-e) The mold is removed and a thin layer of metal is then deposited onto the imprinted polymer layer. f) Acetone is used to lift-off any residual polymer. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380386471-QY85P36DST9DRBCETJDO/img0.jpg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 3. SEM images of nanoparticles fabricated using NIL. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380414494-5HDZ97LMGPKI91GL33PA/img3.jpg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 4. Schematic diagram of experimental setup used to perform optical extinction measurements. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380442448-YCN62P3T5P556T0WZY9E/img4.jpg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 5. Illustrates the shift in resonance as the thickness of the adhesion layer changes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380471199-8JRT0PWPMKU68MEA06CQ/img5.jpg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 6. Localized surface plasmon resonance shift induced by the change in height of the Au metal nanoparticle varies. Data are presented for square Au nanoparticles with in plane widths of ~110nm, and thicknesses of 10, 15, 20, 25, 30, and 35 nm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380492604-L5WVF429ULAC94GG5H7K/image-asset.jpeg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 7. Illustrates the resonance shift as the height of the Ag metal nanoparticle varies. Data are presented for square Ag nanoparticles with in plane widths of ~110nm, and thicknesses of 10, 20, 30 and 40 nm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510380515479-NY0H74272A1VXTJ3L3AM/img7.jpg 2007, April - Fabrication of Metallic Nanoparticle Arrays Figure 8. Localized surface plasmon resonance response to changes in the refractive index of the surface. Silver nanoparticles of smaller height exhibit the best sensing capabililties. https://www.jyi.org/2007-april/category/Features monthly 0.5 https://www.jyi.org/2007-april/category/Research monthly 0.5 https://www.jyi.org/2007-april/category/Science+News monthly 0.5 https://www.jyi.org/2007-march daily 0.75 2017-11-11 https://www.jyi.org/2007-march/2007/3/11/expediting-the-er-process-the-emergence-of-emergency-room-scribe-programs monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388860920-517IGLU20BCZ3DSLUU4Z/img0+%281%29.jpg 2007, March - Expediting the ER Process: The Emergence of Emergency Room Scribe Programs This is an X-ray image of a patient's metal right hip replacement. ER Scribes are constantly exposed to such medical technology, and therefore gain an advantage in reading X-rays upon entering medical school. Image courtesy the National Institute of Health, posted on Wikimedia Commons. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388884912-QVPMSMM6PMX87UFP2MF1/img1.jpg 2007, March - Expediting the ER Process: The Emergence of Emergency Room Scribe Programs A doctor checking a patient's blood pressure. The Scribe accompanies the physician during his/her encounters with patients and documents initial histories, procedures, and the progress of the patient among other things. Image courtesy the National Institute of Health, posted on Wikimedia Commons. https://www.jyi.org/2007-march/2007/3/11/land-ho-the-search-for-planets-outside-our-solar-system monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388730549-D8A3I6600FBEC8LHHW3G/img0.jpg 2007, March - Land Ho!: The Search for Planets Outside our Solar System Artist's conception of an ultra-short period planet (USPP), a type of exoplanet that is so close to its star (750,000 miles, or about three times the distance from the Earth to the Moon) that it completes a full orbit in 10.5 hours. (Credit: NASA, ESA and A. Schaller for STScI) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388751464-G5GEERB5SMTVHLETC86G/img1.jpg 2007, March - Land Ho!: The Search for Planets Outside our Solar System The only exoplanet to have been directly visualized: planet 2M1207b (red) orbits its star 2M1207 (blue). This image was captured by the European Southern Observatory's Very Large Telescope in 2005. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388780103-R2RBXR0WNZKSHG2VYMG7/img2.jpg 2007, March - Land Ho!: The Search for Planets Outside our Solar System One-half of the field of view of the Hubble Space Telescope in the Sagittarius Window Eclipsing Extrasolar Planet Search (SWEEPS), containing about 150,000 stars. The field is so crowded because the telescope must look past many stars to see the center of the galaxy, 26,000 light years away. (Credit: NASA, ESA, K. Sahu (STScI) and the SWEEPS science team) https://www.jyi.org/2007-march/2007/3/11/searching-for-extraterrestrials-an-undergraduates-tale monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388441352-ZA7PS986KJ2HWPG1LGZN/img0+%281%29.jpg 2007, March - Searching for Extraterrestrials: An Undergraduate's Tale A home computer running SETI@home software, available at http://setiathome.berkeley.edu/. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388465820-0ET82DS8837AAQC1X661/img1.jpg 2007, March - Searching for Extraterrestrials: An Undergraduate's Tale The STACEE heliostats and solar tower. Image courtesy: STACEE project https://www.jyi.org/2007-march/2007/3/11/space-race-ii monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388266106-OFDBJSATECIKKI765RNQ/image-asset.jpeg 2007, March - Space Race II Mock up of the Xerus rocket plane built by XCOR and run by Space Adventures (Space Adventures) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388291822-8HQRM2L36KOXVZZKF60B/img1.jpg 2007, March - Space Race II Conceptual Art for the WhiteKnightTwo and SpaceShipTwo at launch altitude. (Virgin Galactic) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388312503-S5KBE8H9S6L2POASOK5H/img0.jpg 2007, March - Space Race II The SS1/SS2 flight plan. (Virgin Galactic) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388330111-TL7H4AZIZL8S42CSIBRJ/img3.jpg 2007, March - Space Race II Anousheh Ansari in her space suit during pre-launch training. (Space Adventures) https://www.jyi.org/2007-march/2017/11/11/biodegradation-of-dinitrotoluene-by-pseudoxanthomonas-sp-ja40 monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387871809-QBPG9A7CVLHKO90VRZM8/img2+%281%29.jpg 2007, March - Biodegradation of Dinitrotoluene by Pseudoxanthomonas sp. JA40 Table 1. DNT Degradation Treatment and Controls at Aerobic Conditions https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387924822-GP83YOUWR7RC5DKCFIST/img3.jpg 2007, March - Biodegradation of Dinitrotoluene by Pseudoxanthomonas sp. JA40 Table 2. DNT Degradation Treatment and Controls at Anaerobic Conditions https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387956004-SRDMT4HDA1DV3P0R4HSM/img4.jpg 2007, March - Biodegradation of Dinitrotoluene by Pseudoxanthomonas sp. JA40 Table 3. DNT Aerobic Degradation by JA40 bacteria from 25 mL of Culture Media Sampled for Extraction on Days 14, 21, and 28 Percent DNT Remaining with Mean Standard Deviation for n = 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387988110-SGN5UBF8497W6EZI0XHN/img1.jpg 2007, March - Biodegradation of Dinitrotoluene by Pseudoxanthomonas sp. JA40 Figure 1. Anaerobic JA40 bacteria growth and DNT degradation, sampled on days 22 and 36 for n = 1. A) Percent DNT remaining in cultures composed of JA40+DNT+Glucose (●), DNT+Glucose (■), and JA40+DNT with no carbon source (▲). B) Bacterial growth readings taken at 600 nm for the cultures JA40+DNT+Glucose (●), DNT+Glucose (■), and JA40+DNT with no carbon source (▲). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388039843-VW063ZMU8K7NOYNE2CHH/img5.jpg 2007, March - Biodegradation of Dinitrotoluene by Pseudoxanthomonas sp. JA40 Table 4. DNT Anaerobic Degradation by JA40 bacteria from 15 mL of Culture Media Sampled for Extraction on Days 22 and 36 Percent DNT Remaining for n = 1. * DNT Levels Undetectable During LC-MS Analysis on Day 22 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510388071215-5TZ331XTPOXCPOZ3FJ0X/img0.jpg 2007, March - Biodegradation of Dinitrotoluene by Pseudoxanthomonas sp. JA40 Figure 2. Structures of the DNT metabolites 2-amino-4-nitrotoluene and 2, 4-dinitroaniline identified in aerobic and anaerobic culture media containing JA40. https://www.jyi.org/2007-march/2007/3/11/optical-properties-of-aggregates-built-from-bcca-and-bpca-modeling monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387557715-VXZ07LNJU0NRL43N6DTT/img0+%281%29.jpg 2007, March - Optical Properties of aggregates built from BCCA and BPCA Modeling article_936_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387583047-ZLP9DP0PMYOL7B0N979V/img1.jpg 2007, March - Optical Properties of aggregates built from BCCA and BPCA Modeling article_936_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387607886-QSTNZGIQNIWXX07XVW04/img2.jpg 2007, March - Optical Properties of aggregates built from BCCA and BPCA Modeling article_936_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387626150-27L4Q4796D0AZ8RS362J/img3.jpg 2007, March - Optical Properties of aggregates built from BCCA and BPCA Modeling article_936_order_3 https://www.jyi.org/2007-march/2017/11/11/the-fractal-dimension-and-charging-of-preplanetary-dust-aggregates monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386388594-RUJ3EFJNQMQCMI4O4ZHW/img10.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386451612-27UKLIFZOUZ2B3MBLL7C/img15.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386487104-3MPBK3I85ES6VK9PC6H0/image-asset.jpeg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386588334-BLPFC15HI71WIX3LUF3P/img17.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_17 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386624703-LJWINOX60M74XXTKFWLY/image-asset.jpeg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_17 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386655547-11FKLQH2HKUT94OX4QYG/img18.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386696747-6V8VWG0L1BESWUF1QULA/img2.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates Figure 4. The dipole magnitudes for both charging schemes in Coulomb-meters. The OML is plotted with crosses, and the conservation model is plotted with circles. The mean of both models is also plotted. The mean magnitude follows a roughly linear progression, but is presented on a semi-log plot for clarity between the orders of magnitude. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386732644-1KKRWG6HFN300TH0GRTT/image-asset.jpeg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates Figure 5. The surface potential given by the two charging methods in Volts. The OML potential is plotted with crosses, and the conservation model voltage is plotted with circles. The voltage is calculated using only the monopole term, and the distance from the monopole is obtained from the radius of maximum extent, i.e. the distance from the center of mass to the far side of the furthest dust grain. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386866850-TQO9VZJTNZ72P1T4ZMGJ/img4.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates Figure 6. The OML line of sight model would predict that both charging currents would have completely free lines of sight to the right of the center of the right sphere. The real regions where they have unobstructed currents are shown to be right of the dotted lines. The unobstructed region for the ions is smaller than the unobstructed region for the electrons. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386904380-R9CO5I7TRVECILJ6YUXA/img5.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates Figure 1. The fractal dimensions given by the spherically averaged density. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386954433-Q33A4FA9Z4RC4I7B86GO/img6.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386995860-H8DMGIIQ10IURUNQEW6E/img7.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387049265-F21I57AE6RBAZ8PG8RQ6/img8.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387086000-KU3IB7CIS3FNTXR07Q92/img14.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387233266-K1B3TS5LNL03N7R8MG9W/img0.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates Figure 2. The fractal dimensions given by the Hausdorff dimension. Fractal dimensions for like charged (a), neutral (b), and oppositely charged (c) particles are shown. The first generation is shown with triangles, the second with circles, and the third generation is marked with diagonal crosses. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387269031-DN9G2GPH4L3KRUUDFY1E/img1.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates Figure 3. The ratio of the total charge given by OML line of sight to the total conserved charge. The ratio follows a decreasing power law, indicating that as the aggregate grows, a larger proportion of the initial charge is lost. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387311246-5NCX74D8790ZBEOW8CHY/image-asset.jpeg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387355628-MYQ0US0JWU5BLR132B14/img11.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387393339-SR7ZZYTZXDWIEYE8DHUK/image-asset.jpeg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510387421028-MMZO0E7GR6O90ABPFMU9/img13.jpg 2007, March - The Fractal Dimension and Charging of Preplanetary Dust Aggregates article_933_order_13 https://www.jyi.org/2007-march/2007/3/11/statistics-of-turbulence-probed-by-h2o-masers-in-star-forming-regions monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386002580-D8TUFBJKHJSTKI7WQPOY/img0+%281%29.jpg 2007, March - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 1 – Two-point velocity correlation function for H2O masers in W49(North), plotted with a logarithmic bin size of 0.25. (a) Least-squares linear and second-order polynomial fits applied to the entire dataset. (b) Linear fits applied to three separation ranges (low, medium, and high-separation). Observational data from Gwinn (1994). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386038302-K20EUCAAY19RMUDH41AU/img1.jpg 2007, March - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 2 – Same as Fig. 1, for H2O masers in W51(Main). Data from Genzel (1981). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386061973-DOUACG9UL6YLIT7AFYRG/img2.jpg 2007, March - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 3 – Same as Fig. 1, for H2O masers in W51(North). Data from Imai (2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386099884-P0M59WX4VVRDIT6B3VPI/img3.jpg 2007, March - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 4 – Same as Fig. 1, for H2O masers in SgrB2(Main). Data from McGrath (2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386123820-3QO2OKM26N00EO9KK4SD/image-asset.jpeg 2007, March - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Fig. 5 – Same as Fig. 1, for H2O masers in SgrB2(North). Data from McGrath (2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510386150836-BWUXYXOFOT31PAKO9FIY/img5.jpg 2007, March - Statistics of Turbulence Probed by H2O Masers in Star Forming Regions Table 1 – Best-fit slopes for various ranges of maser pair separation and calculated fractal dimension for each region. https://www.jyi.org/2007-march/2017/11/11/pediatric-exclusivity-provision-of-1997-statistical-testing-for-its-efficacy-using-the-probit-model-1 monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510384863600-U60H0HSB1ULYWA5284QW/img2+%281%29.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model Figure 3: This is the marginal effect result for set 3. Out of 14 independent variables that were included for the significant test, only sales component had a significant value with he marginal effect of 0.94%. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510384906452-CP0J2LN83PU2S61FXCA8/img3.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model Figure 4: This is the marginal effect result for set 4. 7 of the variables were found significant. As seen above, Pfizer dummy variable has the largest marginal effect value which shows that its component is most likely to be in list 1 (success) than any other components. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510384958837-ZLKL0OWSM5GPQCCHV64X/img6.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model Table 1 shows the coefficients from the Probit regression analysis for the various pharmaceutical companies tested. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385013938-K36AZDKYA09XOFEFMC0R/img4.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model Figure 5: This is the marginal effect result for set 5. 9 of the variables were found significant. As seen above, Allergy has the largest marginal effect value which shows that its component is most likely to be in list 1 (success) than any other components. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385062478-VOXX2QZ3M25Z5SHHX58I/img5.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model Figure 6: This is the marginal effect result for set 6 which had 30 independent variables included in the equation for Probit model estimation. Out of 30 variables, 11 of them were found significant. As seen above, Allergy has the largest marginal effect value which shows that its component is most likely to be in list 1 (success) than any other components. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385109241-UQECXB26MYF7G74ZVBTG/img7.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model Table 2 depicts the marginal effect values for the pharmaceutical companies tested using the Probit Model. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385148856-OVDESPPWMRM1F1E4ZXKQ/img0.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385200375-TZ0D63MU7QXC51L0NNMQ/img1.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385255353-RTEB9GGICYM86AASLPOF/img13.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385359213-YTCK6L1EPI1H9DTL5SQK/img8.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385397063-NN7D4MS1X69I29ZJ46QN/img9.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385459628-1Y6260VGGKY49O75DP7M/img10.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385495192-O7NTPTV7TJ25K6QN82FC/img11.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385600006-4QSKFG5VF4TN8Y0LD2UM/img12.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385652529-ZUI97YMDFHZA4AV3ZT4R/img13+%281%29.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385694463-K9J2YG6CU6UPZBPRH2D9/img14.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510385803676-WYTP7ULZYGQ0NYDKK5JC/img15.jpg 2007, March - PEDIATRIC EXCLUSIVITY PROVISION OF 1997: Statistical Testing for its efficacy using the Probit Model article_926_order_15 https://www.jyi.org/2007-march/2017/11/11/population-genetic-structure-of-the-freshwater-mussel-lampsilis-siliquoidea-bivalvia-unionidae-in-the-darby-creek-watershed-central-ohio monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510384067090-96FD47BGNHR6ECA2IM7E/img0+%281%29.jpg 2007, March - Population Genetic Structure of the Freshwater Mussel Lampsilis Siliquoidea (Bivalvia: Unionidae) In the Darby Creek Watershed, Central Ohio article_944_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510384114031-IEWGNSX7AVZVS7S91RIX/img4.jpg 2007, March - Population Genetic Structure of the Freshwater Mussel Lampsilis Siliquoidea (Bivalvia: Unionidae) In the Darby Creek Watershed, Central Ohio article_944_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510384142479-86CYN69F5Q21C1HGZJ0B/img2.jpg 2007, March - Population Genetic Structure of the Freshwater Mussel Lampsilis Siliquoidea (Bivalvia: Unionidae) In the Darby Creek Watershed, Central Ohio article_944_order_2 https://www.jyi.org/2007-march/category/Features monthly 0.5 https://www.jyi.org/2007-march/category/Research monthly 0.5 https://www.jyi.org/2007-february daily 0.75 2017-11-11 https://www.jyi.org/2007-february/2007/2/11/olmec-writing-the-oldest-in-the-western-hemisphere monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390752334-KIZKV11GN3LBRF7WIV0G/img0.jpg 2007, February - Olmec Writing: The oldest in the Western Hemisphere https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390776734-0GL2K7BEUH8EYX59OIA3/img1.jpg 2007, February - Olmec Writing: The oldest in the Western Hemisphere Caption:Frontal view of Cascajal block, Veracruz, Mexico. Credit: Image (c) Science https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390792591-PBCN6DXOQDO1T464JL5X/image-asset.jpeg 2007, February - Olmec Writing: The oldest in the Western Hemisphere Caption: Side view of Cascajal block, Veracruz, Mexico. Credit: Image courtesy of Stephen Houston https://www.jyi.org/2007-february/2007/2/11/mind-over-matter-how-to-think-yourself-healthy monthly 0.5 2017-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390942017-N1WB52MLG7HA3LGXBA57/img1+%281%29.jpg 2007, February - Mind over matter: how to think yourself healthy From "Studies of Advanced Stages of Meditation in the Tibetan Buddhist and Vedic Traditions. I: A Comparison of General Changes" Alex Hankey * TM refers to transcendental meditation, a particular meditative tradition used in both Hindu and Buddhist cultures https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390977887-6X1IYN4K6A64U9856670/image-asset.jpeg 2007, February - Mind over matter: how to think yourself healthy From "Studies of Advanced Stages of Meditation in the Tibetan Buddhist and Vedic Traditions. I: A Comparison of General Changes" Alex Hankey https://www.jyi.org/2007-february/2017/11/11/a-computational-investigation-of-a-biologically-revelant-rearrangementsignificanceofmolecular-structureandorbital-interactionsasrelatedtothetransformationofamodelendoperoxideintoahydr-k2njy monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390033837-0LFA7EYTKO8D8E0OKWAM/img0+%281%29.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390250186-2UC5LZAAKT5UG8ZTM3QR/image-asset.jpeg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390274209-4CK9JGUGFNFNYD4HN4NN/img3.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390332981-OZW2W5URC8YFF1UPTSHB/img8.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390359380-1HVGU40SLDL97NZW0FE8/img4.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390407298-HT6X4U84FUTGQ77ISGAR/img5.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390431641-9Q7UI1EJR0FOJYZEMEAL/img6.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390450936-7LJK17Y7MRSINK9UPB80/img7.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510390510577-CKX8UF5SHHZG6YWWGHCS/img1.jpg 2007, February - A Computational Investigation of a Biologically Relevant Rearrangement:SignificanceofMolecular StructureandOrbital InteractionsasRelatedtotheTransformationofaModelEndoperoxideintoaHydroperoxideProduct article_897_order_1 https://www.jyi.org/2007-february/2007/2/11/bioprotective-properties-of-turmeric-an-investigation-of-the-antioxidant-and-antimicrobial-activities monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389727348-KH6ASAOB0WEJST7X8K9Q/img2+%281%29.jpg 2007, February - Bioprotective properties of Turmeric: An investigation of the antioxidant and antimicrobial activities Table 1 Bacterial Strains used in this investigation3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389777070-HFBQ5CIAZPO27K0NW9P0/img0.jpg 2007, February - Bioprotective properties of Turmeric: An investigation of the antioxidant and antimicrobial activities Figure 11. Total antioxidant capacity of turmeric extract compared to green tea, garlic and two other spice extracts. The assay compared extracts prepared using an identical protocol. The quantitative antioxidant capacity of turmeric (H1), green tea, garlic and other extracts was measured spectrophotometrically based on the reduction of Mo (VI) to Mo (V) and the subsequent formation of green phosphate/Mo (V) complex measured at 695 nm. Data are means +/- SD. Control reactions (containing solvent only) showed minimal conversion of Mo (VI) to Mo (V) under standard reaction conditions (equivalent to less than 1mmol α-tocopherol/g). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389804433-X9ZEMDEVY6ZRWKEOJJ3I/image-asset.jpeg 2007, February - Bioprotective properties of Turmeric: An investigation of the antioxidant and antimicrobial activities Figure 2. Antioxidant activity using the β-carotene-linoleate model2. The graph shows the decrease in absorbance of β-carotene in the presence of turmeric extract, the BHA standard and in the absence of either compound (control) with the coupled oxidation of β-carotene and linoleic acid. The Student t-test indicates p https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389829753-SOQV4LGGDN8W617LLAVS/img3.jpg 2007, February - Bioprotective properties of Turmeric: An investigation of the antioxidant and antimicrobial activities Table 2. Comparative percent Antioxidant activity using the β-carotene-linoleate model4. Antioxidant activity was quantified using the formula described by Jayaprakasha et al. (2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389851187-2L95KVI6GVXTBH9EUJSV/img4.jpg 2007, February - Bioprotective properties of Turmeric: An investigation of the antioxidant and antimicrobial activities Table 3. Antimicrobial Testing: MIC5 values represent the minimum amount of extract (measured in micrograms/ml) required to inhibit the growth of bacteria under standard incubation conditions of 37&ordm;C and 24 hours of incubation period. https://www.jyi.org/2007-february/2017/11/11/examining-morphological-characteristics-of-triggerfish-a-three-dimensional-reconstruction-of-skeletal-and-muscular-features-of-rhinecanthus-rectangulus monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389410998-JJV46ES9X3733ZWAA7IP/img0.jpg 2007, February - Examining morphological characteristics of triggerfish: a three-dimensional reconstruction of skeletal and muscular features of Rhinecanthus rectangulus. Figure 1: Plastinated slice (frontal sectioning: perpendicular to dorsal-ventral axis) from the posterior, hypaxial region of R. rectangulus showing relative locations of the pterygiophores, trunk muscle, and median fin muscle groups. The red muscle groups along the vertebral column show a distinct pigmentation in comparison to other muscle groups. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389433585-TH22IRVDA2OZILES1U36/img1.jpg 2007, February - Examining morphological characteristics of triggerfish: a three-dimensional reconstruction of skeletal and muscular features of Rhinecanthus rectangulus. Figure 2: Three-dimensional rendering of skin surface (grey, transparent), vertebral column (yellow) and myotome (white) showing indentations where lateral red muscle is present. The myotome shows the W-shape typical of trunk muscle in fishes. Posterior direction is to the right and projecting into the image. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389493096-H0JC7TKAIE2I9AAQR2W3/img2.jpg 2007, February - Examining morphological characteristics of triggerfish: a three-dimensional reconstruction of skeletal and muscular features of Rhinecanthus rectangulus. Figure 3: Model depicting six sets of pterygiophores, depicted in blue, along the median fins between the neural spines. The ridges on the pterygiophores provide support to the muscles of the dorsal and anal fins. Posterior direction is to the left. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389535529-VRNC0R1X67ZJP9U2BB0V/img3.jpg 2007, February - Examining morphological characteristics of triggerfish: a three-dimensional reconstruction of skeletal and muscular features of Rhinecanthus rectangulus. Figure 4: Three-dimensional model showing the relationship between possible sets of erector muscle bundles, depicted in orange and red, along the median fins. These two muscle groups lie adjacent to each other connecting the pterygiophore to a fin ray base. Posterior direction is to the left. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510389561407-ITSEH5M2M8QHG9FTNDWK/image-asset.jpeg 2007, February - Examining morphological characteristics of triggerfish: a three-dimensional reconstruction of skeletal and muscular features of Rhinecanthus rectangulus. Figure 5: Dorsal view showing the relationship between possible erector, in orange and red, and depressor muscle groups, depicted in green and yellow. The depressors lie superficially to the erectors, and together they form a group of four bundles associated with each pterygiophore and fin ray. https://www.jyi.org/2007-february/category/Features monthly 0.5 https://www.jyi.org/2007-february/category/Research monthly 0.5 https://www.jyi.org/2007-january daily 0.75 2017-11-11 https://www.jyi.org/2007-january/2007/1/11/why-is-there-something-instead-of-nothing monthly 0.5 2017-11-11 https://www.jyi.org/2007-january/2017/11/11/literature-review-insights-into-formulating-a-protective-malarial-medicine monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391847223-KBZAE2Q0XPQB84JZLYSE/img0.jpg 2007, January - Literature Review: Insights into Formulating a Protective Malarial Medicine Figure 1. Schematic Representation of the Malarial Parasite's Life Cycle. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391906748-XFO8UEFZK9XBNIN9WVY2/img1.jpg 2007, January - Literature Review: Insights into Formulating a Protective Malarial Medicine Figure 2. Factors affecting the ultimate disease outcome in Malarial infection. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391985304-VK71XMF9PO5YKO5SCSXM/img2.jpg 2007, January - Literature Review: Insights into Formulating a Protective Malarial Medicine Figure 3. Immune Responses elicited during different stages of the Malarial parasite's life cycle. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391992972-XI1R1JQJQEQZ0V77MDXY/img3.jpg 2007, January - Literature Review: Insights into Formulating a Protective Malarial Medicine Figure 4. Stage-wise distribution of the antigenic profile of the Malarial parasite. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391998537-9EJHQ7M0YIM6PLI6IT6X/image-asset.jpeg 2007, January - Literature Review: Insights into Formulating a Protective Malarial Medicine Figure 5. Different types of malarial vaccines, their antigenic composition and essential features. https://www.jyi.org/2007-january/2017/11/11/literature-reviewconjugated-linoleic-acid-prospects-and-problems-for-human-health-promotion monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391492134-3XEDQWYATQTWTPJ4R6GM/img0+%281%29.jpg 2007, January - Literature Review: Conjugated Linoleic Acid: Prospects and Problems for Human Health Promotion article_881_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391514514-O30YALJN2VXO9J63ZVWY/img1.jpg 2007, January - Literature Review: Conjugated Linoleic Acid: Prospects and Problems for Human Health Promotion article_881_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391543449-BOR6H5FX9ZYBPN9V6GH3/img2.jpg 2007, January - Literature Review: Conjugated Linoleic Acid: Prospects and Problems for Human Health Promotion article_881_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391599522-KIRC1BD1ABAFHYNY24MY/image-asset.jpeg 2007, January - Literature Review: Conjugated Linoleic Acid: Prospects and Problems for Human Health Promotion article_881_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391645485-ZUJZDVN6XSKQO99XAVDH/img4.jpg 2007, January - Literature Review: Conjugated Linoleic Acid: Prospects and Problems for Human Health Promotion article_881_order_4 https://www.jyi.org/2007-january/2007/1/11/shell-transition-dependence-of-12-particle-yukawa-clusters monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391226142-7UM86YFS6RFU0V4XYU6Z/img2.jpg 2007, January - Shell-Transition Dependence of 12-Particle Yukawa Clusters article_883_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391271048-7H5SXQAEN0UTGUJIX8X9/image-asset.jpeg 2007, January - Shell-Transition Dependence of 12-Particle Yukawa Clusters Figure I. Voronoi construction for the cluster N = 10. The upper row shows three orientations of the ground state; the lower row shows three orientations of a metastable (excited) state. White cells are quadrilaterals, gray cells are pentagons, and dark cells are hexagons. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391247941-OZFI2BCPL34SDZKJ7PKO/img3.jpg 2007, January - Shell-Transition Dependence of 12-Particle Yukawa Clusters article_883_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391296063-WN8P1LE4RYFQGV13ATY9/img1.jpg 2007, January - Shell-Transition Dependence of 12-Particle Yukawa Clusters Figure II. Difference in potential energy between one-shell and two-shell states of 12-particle system at various Debye lengths https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510391319277-5J3LZ6AL641T240K63MW/img4.jpg 2007, January - Shell-Transition Dependence of 12-Particle Yukawa Clusters Table I. Potential energy for the one and two-shell states of a 12-particle system calculated for various Debye lengths. https://www.jyi.org/2007-january/category/Features monthly 0.5 https://www.jyi.org/2007-january/category/Research monthly 0.5 https://www.jyi.org/2006-december daily 0.75 2017-10-25 https://www.jyi.org/2006-december/2017/10/25/searching-for-missing-mass monthly 0.5 2017-10-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508908064975-A5QF0UG1YLV2RPBW5WG7/image-asset.jpeg 2006, December - Searching for Missing Mass Composite image of the Bullet cluster showing ordinary matter as red and total mass in blue. Image courtesy: NASA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508908076151-ADRNUCZD540TH01F5UH7/Fig2_Dec06_5.jpg 2006, December - Searching for Missing Mass article_867_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508908082413-M5KD4HY4XDKQWCFVRF6Q/image-asset.jpeg 2006, December - Searching for Missing Mass Image of Abell 1689, a galaxy cluster which exibits gravitational lensing that may be due to dark matter. Image courtesy: NASA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508908091385-Q1OBUEAX3W3LHSYSJHCA/Fig4_Dec06_5.jpg 2006, December - Searching for Missing Mass A chart showing the breakup of matter in the universe, of which dark matter comprises 25%. Image courtesy: NASA https://www.jyi.org/2006-december/2017/10/25/microbial-assessment-of-effective-earthworm-management-trials-for-restoration-of-an-urban-temperate-forest-site monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508907405779-3VNC44NJ1EZ69144D12O/image-asset.jpeg 2006, December - Microbial assessment of effective earthworm management trials for restoration of an urban temperate forest site article_866_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508907412586-X3BG1OJTT1DH25EA989I/Tab2_Dec06_4.jpg 2006, December - Microbial assessment of effective earthworm management trials for restoration of an urban temperate forest site article_866_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508907534701-9TE0DK0EB9D9TEX93RPY/image-asset.jpeg 2006, December - Microbial assessment of effective earthworm management trials for restoration of an urban temperate forest site article_866_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508907514939-YX9I6BJD7RRXDR72DZKJ/image-asset.jpeg 2006, December - Microbial assessment of effective earthworm management trials for restoration of an urban temperate forest site article_866_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508907526657-03SKJLIQ0BYTRB0T6NUH/image-asset.jpeg 2006, December - Microbial assessment of effective earthworm management trials for restoration of an urban temperate forest site article_866_order_1 https://www.jyi.org/2006-december/2017/10/25/water-quality-of-estuarine-ponds-in-hilo-hawaii-monitoring-of-nutrients-benthic-organisms-and-bacteria monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906659594-4GJS79ZA0RIBHEXQTBHH/Fig2_Dec06_3.jpg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906600215-ZLGDEK239Q8W843SQQDT/Fig1_Dec06_3.jpg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906729181-5T2Z1VHA9TY6ECH1G6BO/Fig3_Dec06_3.jpg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906737416-FU3XPXH6EDS2TBQGCNK2/image-asset.jpeg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906750512-XXSVRZMYZCH7S1J1JHL5/image-asset.jpeg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906877213-XAY5R9SZI88WZY1432IB/Fig5_Dec06_3.jpg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906883731-5QR6E7KRO51GAVEH191J/Fig6_Dec06_3.jpg 2006, December - Water Quality of Estuarine Ponds in Hilo, Hawaii: Monitoring of Nutrients, Benthic Organisms and Bacteria article_865_order_5 https://www.jyi.org/2006-december/2017/10/25/identification-phylogenetic-characterization-and-preliminary-bioactivity-screening-of-bacteria-isolated-from-suberites-zeteki-a-hawaiian-sponge monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508906122584-WM36P78CTU90PN0CSCNG/Fig1_Dec06_2.jpg 2006, December - Identification, Phylogenetic Characterization, and Preliminary Bioactivity Screening of Bacteria Isolated from Suberites zeteki, a Hawaiian Sponge Figure 1. Media plate inoculated with six isolates displaying varying coloration, including opaque white to grey, orange-yellow and pink. https://www.jyi.org/2006-december/2017/10/25/the-design-and-use-of-engineered-antibodies-novel-therapeutic-magic-bullets monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508905553139-X9UBPRGRDUWZI475VIHL/Fig1_Dec06_1.jpg 2006, December - The Design and Use of Engineered Antibodies: Novel Therapeutic Magic Bullets Title: Increased tumor killing in multivalent fragment designs Caption: PET scans showing tumor volume indicate the increased tumor killing displayed by multivalent diabodies in comparison to other multivalent antibody based therapies (minibodies and single chain fragments). Reference: Holliger et al. 2005 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508905567875-J9NPVGIN5P7Q8P4LGVPU/Fig2_Dec06_1.jpg 2006, December - The Design and Use of Engineered Antibodies: Novel Therapeutic Magic Bullets Title: Comparison of Penetrance through Blood Levels Caption: Graph showing the increased penetrance (higher tumor/blood ratio) of antibody fragments (diabodies and minibodies) and specifically the effectiveness of multivalent fragments to infiltrate tumors in comparison to single chain fragments and whole immunoglobulins. Reference: Holliger et al. 2005 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508905584703-I5SBS3MB0EM185G6JYDP/Fig3_Dec06_1.jpg 2006, December - The Design and Use of Engineered Antibodies: Novel Therapeutic Magic Bullets Title: Comparison of Persistance through Blood Levels Caption: Graph showing the increased persistence (higher % of blood levels) of antibody fragments with the addition of each PEG molecule. Reference: Chapman et al. 1999 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508905593990-WM1LI8PMF4ESGRO0JTJO/Fig4_Dec06_1.jpg 2006, December - The Design and Use of Engineered Antibodies: Novel Therapeutic Magic Bullets Title: Effect of anti-IgE Antibodies on Free IgE levels Caption: Anti-IgE antibodies greatly reduce the amount of free IgE molecules that can bind Fc receptors on tissue mast cells Reference: Milgrom et al. 1999 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508905610273-F7PNH44ORCG5MPWBXCCN/Fig5_Dec06_1.jpg 2006, December - The Design and Use of Engineered Antibodies: Novel Therapeutic Magic Bullets Title: Effect of anti-EGFR Antibodies in sustaining tumor Caption: Anti-EGFR treated tumor cells (white circles) display a much more contained growth charactersitic in comparison to normal untreated tumor cells Reference: Lorenzo et al. 2004 https://www.jyi.org/2006-december/category/Features monthly 0.5 https://www.jyi.org/2006-december/category/Research monthly 0.5 https://www.jyi.org/2006-november daily 0.75 2017-10-25 https://www.jyi.org/2006-november/2017/10/25/greasoline-finding-your-fuel-in-fast-food monthly 0.5 2017-10-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508904898607-FSYK3TKC3XBE1IDXGX0Y/Fig1_Nov06_7.jpg 2006, November - Greasoline: Finding your fuel in fast food article_837_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508904907809-QZCCBRMHY40XHL04RAPM/Fig2_Nov06_7.jpg 2006, November - Greasoline: Finding your fuel in fast food article_837_order_1 https://www.jyi.org/2006-november/2017/10/25/the-buzz-with-stem-cells monthly 0.5 2017-10-25 https://www.jyi.org/2006-november/2017/10/24/laboratory-culture-of-the-soft-coral-carijoa-riisei monthly 0.5 2017-10-25 https://www.jyi.org/2006-november/2017/10/24/identification-of-prophages-in-hawaiian-coastal-water-isolates-of-staphylococcus-aureus monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508903702333-WG61W9WYC57LB2NNEO06/Table+1 2006, November - Identification of Prophages in Hawaiian Coastal Water Isolates of Staphylococcus Aureus article_844_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508903728348-V0L90FN5ZIDSRSEEP165/Figure+1 2006, November - Identification of Prophages in Hawaiian Coastal Water Isolates of Staphylococcus Aureus article_844_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508903745265-GZK3II74ASUX283FCIXF/Figure+2 2006, November - Identification of Prophages in Hawaiian Coastal Water Isolates of Staphylococcus Aureus article_844_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508903764377-195QQK34KCR7Y8XV3IRB/Table+2 2006, November - Identification of Prophages in Hawaiian Coastal Water Isolates of Staphylococcus Aureus article_844_order_3 https://www.jyi.org/2006-november/2017/10/24/design-of-airlift-bioreactor-for-continuous-copepod-egg-collection monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508900658099-CEDMSUVOKC7SAEP8YUS5/Figure+1 2006, November - Design of Airlift Bioreactor for Continuous Copepod Egg Collection Figure 1: Prototype bioreactors I and II in full operation. In prototype I (left), the adult chamber is the large chamber on the right side of the reactor. In prototype II (right), the adult chamber is smaller and on the left of the reactor. The airlift column on the left side of prototype I is notably connected to the adult chamber by two openings in the wall separating the airlift column from the adults (more visible in Figure 2), whereas in prototype II the airlift column is completely surrounded by four walls. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508900676024-G77430CAUOHNJL6X4TCN/Figure+2 2006, November - Design of Airlift Bioreactor for Continuous Copepod Egg Collection Figure 2: The Femlab models of each prototype reactor and the two-phase regions. The two-phase regions are defined to model the buoyant driving force of the bubble flow on the saltwater medium and can be seen in each model as rectangular boxes within the airlift columns. The presence of the two openings connecting the airlift column to the adult chamber in prototype I is likely responsible for the disparity between flow fields determined through dye experiments and through simulation in prototype I. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508900691258-SNR95DJVGHUO0O95CWOX/Figure+3 2006, November - Design of Airlift Bioreactor for Continuous Copepod Egg Collection Figure 3: The flow fields of prototypes I and II as predicted by Femlab. The flow field shown for each prototype model is represented by both a directional vector field (a directional arrow at each point) and a color map representing the relative magnitudes of the velocity at each point. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508900709428-W8KJ2MQIE49PNO8ZZPDH/Figure+4 2006, November - Design of Airlift Bioreactor for Continuous Copepod Egg Collection Figure 4: Dye tracking studies of the revised prototype II built to a 15 liter pilot scale reactor. Photos courtesy of Kyle Vanderlugt. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508900828964-RLB8H6WOUWXHIJL8EA4Y/Table+1 2006, November - Design of Airlift Bioreactor for Continuous Copepod Egg Collection Table 1: Dye tracking data for the 15 liter pilot scale bioreactor fabricated from the revised designed of prototype II. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508900725204-L8IC3DJHX863U1ZBP4UF/Figure+5 2006, November - Design of Airlift Bioreactor for Continuous Copepod Egg Collection Figure 5: The flow solution given by Femlab for the new prototype design. A close-up view of the egg collection chamber in the redesigned prototype demonstrates the prediction that eggs will enter at a high velocity but will quickly be decelerated to remain in the chamber. https://www.jyi.org/2006-november/2017/10/25/mutagenesis-studies-of-molecular-interactions-between-mycoplasma-arthritidis-mitogen-and-its-receptor-hla-dr1 monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508904210660-4EN7L166WO1QQ9030PX8/Fig5_Nov06_5.jpg 2006, November - Mutagenesis Studies of Molecular Interactions Between Mycoplasma Arthritidis Mitogen and its Receptor HLA DR1 Figure 5. MAM/HLA-DR1 complex molecule with mutant sites. The red and green represent the part used for mutagenesis in this study; while the yellow represents the additional surface area of MAM in contacts with HLA-DR1. https://www.jyi.org/2006-november/category/Features monthly 0.5 https://www.jyi.org/2006-november/category/Research monthly 0.5 https://www.jyi.org/2006-october daily 0.75 2017-10-25 https://www.jyi.org/2006-october/2017/10/24/jyi-special-issue-manuscripts-from-uconns-reu-in-chemistry monthly 0.5 2017-10-25 https://www.jyi.org/2006-october/2017/10/24/treadmill-in-a-tube-a-solution-to-the-nations-obesity-crisis monthly 0.5 2017-10-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508899407711-2UJVIS0MLAD2NX6Q0O4E/Fig1_Oct06_8.jpg 2006, October - Treadmill in a tube, a solution to the nation's obesity crisis? Above: The first ten amino acids of ghrelin. https://www.jyi.org/2006-october/2017/10/24/now-you-see-me-now-you-dont-the-road-to-invisibility monthly 0.5 2017-10-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508899097150-CWMZ4Y711W1TPM2FBBVJ/Fig1_Oct06_7.jpg 2006, October - Now You See Me, Now You Don't: The Road to Invisibility Light flow around an object, concealing the object within. Image courtesy of BBCnews.com https://www.jyi.org/2006-october/2017/10/20/clti8wan00m6zfmahwbi9xswxybaja monthly 0.5 2017-10-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508513668223-6U02N2VUFQ1A2TN8RDWS/Figure+1 2006, October - Peptidic Nanoparticles for Repetitive Antigen Display Figure 1: The oligo sequence of the combination of epitope HIV_common and HIV-ep2, along with the corresponding restriction enzymes and amino acid information. The length of the combined epitope is 134 base pairs. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508513704568-NTHS7HUY0D2RG9ZNR61F/Figure+2 2006, October - Peptidic Nanoparticles for Repetitive Antigen Display Figure 2: Agarose gel of the annealing of HIV DNA oligomers. The gel shows that the annealed oligomers traveled slower than the single forward or reversed oligomers, which was expected. The molecular weight marker on the first lane did not fully reveal the actual sizes of the oligomers due to the short run time of this particular gel. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508513737038-H9GD4ZUEKTPWC0OJRVT2/Figure+3 2006, October - Peptidic Nanoparticles for Repetitive Antigen Display Figure 3: Agarose gel of the extracted pH2_3b plasmids. The 3000 bp fragments represent the vector. The 134 bp fragments correspond to the HIV inserts. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508513763465-7JW2GX23QTYENAHVA6V3/Figure+4 2006, October - Peptidic Nanoparticles for Repetitive Antigen Display Figure 4: Result of DNA sequencing in forward (5' to 3') direction. The shaded region corresponds to the DNA sequence on the HIV oligomers, which matched the original viral DNA perfectly. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508513812669-G7RSN9WHMBI1U5UIIZHM/Figure+5 2006, October - Peptidic Nanoparticles for Repetitive Antigen Display Figure 5: SDS PAGE showing the purification result. The 14.4 kDa bands indicated presences of the monomers (MW 14.2 kDa). However, close examination showed 3 visible bands around the 14.4 kDa region indicating that some degradation occurred. The bands at 42 kDa may be trimers, which also appeared in the purification results of the P_3a core peptides (without viral extensions). https://www.jyi.org/2006-october/2017/10/20/effects-and-mechanisms-of-action-of-leptin-on-cardiomyocytes monthly 0.5 2017-10-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508512329459-LLAJH8E3ULKC3CUN7PTH/Table+1 2006, October - Effects and Mechanisms of Action of Leptin on Cardiomyocytes article_808_order_0 https://www.jyi.org/2006-october/2017/10/24/synthesis-and-characterization-of-well-defined-immiscible-polylactide-block-copolymers-and-their-stereocomplexes monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508898407999-6D1VM1ZG0QFVRZ1456NX/image-asset.jpeg 2006, October - Synthesis and Characterization of Well-defined Immiscible Polylactide Block Copolymers and Their Stereocomplexes article_819_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508898418584-RIUTWEKIMC7BR6J3YCRW/Fig2_Oct06_6.jpg 2006, October - Synthesis and Characterization of Well-defined Immiscible Polylactide Block Copolymers and Their Stereocomplexes article_819_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508898497511-2GNSTLVB3TNJUCQVIAYT/Fig3_Oct06_6.jpg 2006, October - Synthesis and Characterization of Well-defined Immiscible Polylactide Block Copolymers and Their Stereocomplexes article_819_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508898550783-8CIBEQ21GL6K0LDXGLA3/Fig4_Oct06_6.jpg 2006, October - Synthesis and Characterization of Well-defined Immiscible Polylactide Block Copolymers and Their Stereocomplexes article_819_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508898567551-6484NXK7FK91USLQFOOJ/Fig5_Oct06_6.jpg 2006, October - Synthesis and Characterization of Well-defined Immiscible Polylactide Block Copolymers and Their Stereocomplexes article_819_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508898754314-PAQW1AXW5GATMSEVJ3WT/Fig6_Oct06_6.jpg 2006, October - Synthesis and Characterization of Well-defined Immiscible Polylactide Block Copolymers and Their Stereocomplexes article_819_order_6 https://www.jyi.org/2006-october/2017/10/24/improving-oxepineglycal-selectivity-in-the-ring-closing-metathesis-route-to-carbohydrate monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508897605815-OHH7PH5P0FA8A339Q9RI/Fig1_Oct06_5.jpg 2006, October - Improving Oxepine: Glycal Selectivity in the Ring Closing Metathesis Route to Carbohydrate article_816_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508897615982-ZOLNJG4YSE08IBZG1V7F/Fig2_Oct06_5.jpg 2006, October - Improving Oxepine: Glycal Selectivity in the Ring Closing Metathesis Route to Carbohydrate article_816_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508897626439-RHP8KE9S4EQ28YWQNSLR/Fig3_Oct06_5.jpg 2006, October - Improving Oxepine: Glycal Selectivity in the Ring Closing Metathesis Route to Carbohydrate article_816_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508897637137-Q4F9YUR7FGEM1D8O669X/Fig4_Oct06_5.jpg 2006, October - Improving Oxepine: Glycal Selectivity in the Ring Closing Metathesis Route to Carbohydrate article_816_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508897649415-BIYWWHX5KMULMWSA4A86/Fig5_Oct06_5.jpg 2006, October - Improving Oxepine: Glycal Selectivity in the Ring Closing Metathesis Route to Carbohydrate article_816_order_5 https://www.jyi.org/2006-october/2017/10/24/fatigue-crack-growth-in-2324-aluminum-alloy monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894464885-OFS999ABMG6B0NY22WN0/Fig1_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894535300-0IQLBM99UMI04UY70Y7W/Fig2_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894549853-WTZ21GWFW34KBOE34QRM/Fig3_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894691378-WGSE4P332JYXX7KG8VD1/Fig4_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894722566-CUHSZDH4QNR09JEVT5BG/Fig5_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894882920-QTS3BK8SAMB0LZSESY9T/Fig7_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894869838-6XR0EJHM5RJMRY23F3RD/Fig6_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508894994602-LU8X8830GFSOTSKFU5RI/Fig8_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_27 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895022003-FKFVUDZNFQFJM0ZU9GGD/Fig9_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895037997-DYOC7Q8I6X1YCTTQZ4BY/Fig10_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895055244-3P7WDG3ID5VNLE6SJGPL/Fig11_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_29 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895234761-0IUXQASDWEKWO4YFB9EN/Fig12_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895299377-VC6IDVHR7C3LG7OZ5Z43/Fig13_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895332129-FUICBG83A0CPWYK5LUXJ/Fig14_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895475117-MD4AS04OJ6GK5ODQ00T0/Fig15_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895517790-AP1ZBLHH8HBGH3WK7TFF/Fig16_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895695903-KTHRL9C53L8SH8VUIXZS/Fig17_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy Figure 17: Graphical Comparison of Current Experiment versus Previous https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895792100-33008DIPWCLA8X7LF9VF/Fig18_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895810980-27A89FDP94C4RYNS5O32/Fig19_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508895871620-E26CKKDUH8HKH96FT23Y/Fig20_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896180417-AVB6N2X7NOSIV5ESYEXQ/Fig21_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896273702-EPF7RCY4VN22DAHJEJNQ/Fig22_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896287790-IM63AZKW3TWEKWW3VGN0/Fig23_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896298679-74F3KWLQPQ8F36LEAG2V/Fig24_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896470417-5BECN5T1TRJCCPPWIZFL/Fig25_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896614508-2KNC8H8YLY2DVH4L6WUD/Fig26_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy In these equations, ΔP is the average force and Δ&del; is the average displacement. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896628449-L7NPV50LE279FF6PYRHX/Fig27_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_17 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896643982-BAPB74UKKN2819MK4XRN/Fig28_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896806042-HRM5G4VD4EOM3JQD54A5/Fig29_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896818176-IIL1EFLFU1H6TVCI8B77/Fig30_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy article_813_order_20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508896829989-3TSDER6IKEK7S9TUCKFX/Tab2_Oct06_4.jpg 2006, October - Fatigue Crack Growth in 2324 Aluminum Alloy Table 2: MATLAB Load Program Descriptions https://www.jyi.org/2006-october/2017/10/20/studying-ph-dependence-of-a-peptide-modification-with-an-n-hydroxysuccinimide-ester-using-mass-spectrometry monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508543287466-8FALN0FB13G07CJ6WASI/Scheme 2006, October - Studying pH Dependence of a Peptide Modification with an N-hydroxysuccinimide Ester Using Mass Spectrometry article_817_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508543302735-DN7NJ3MFJ89TS0Q8ZKLY/Figure+1 2006, October - Studying pH Dependence of a Peptide Modification with an N-hydroxysuccinimide Ester Using Mass Spectrometry article_817_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508543323279-X2BUJEQHAS01DFHKMPVQ/Figure+2 2006, October - Studying pH Dependence of a Peptide Modification with an N-hydroxysuccinimide Ester Using Mass Spectrometry article_817_order_2 https://www.jyi.org/2006-october/category/Features monthly 0.5 https://www.jyi.org/2006-october/category/Research monthly 0.5 https://www.jyi.org/2006-september daily 0.75 2017-10-16 https://www.jyi.org/2006-september/2017/10/15/prey-selection-by-chaoborus-in-the-field-and-laboratory monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508121438380-7L119LDB1SEFK7187MZA/Figure+1 2006, September - Prey Selection by Chaoborus in the Field and Laboratory FIGURE 1. Photomicrographs of Chaoborus (A) predators and common zooplankton prey: Bosmina (B), Daphnia (C), copepods (D) and rotifers (E). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508121494219-9VEB079X1B7RA8Y7CULR/Figure+2 2006, September - Prey Selection by Chaoborus in the Field and Laboratory FIGURE 2. The density of Chaoborus larvae in the water column (A) and sediment (B) of Campus Lake, Jackson Co. IL on 11, Sep. 2004 at different sampling times during a 24 hour survey. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508121509947-O24I2YD618FJII4J19UR/Figure+3 2006, September - Prey Selection by Chaoborus in the Field and Laboratory FIGURE 3. Selectivity of 19 Chaoborus larvae with prey in their guts from 06:00 on 11 Sep. 2004 in Campus Lake. Selectivity was calculated from the proportion of prey taxa in their guts compared to the proportion of the same prey in the lake. The dashed line at 0.5 indicates the value of no selection. Values above 0.5 indicate positive selection for the prey item, while values below 0.5 indicate selection against the prey item. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508121523469-P4NH2GBPWSUP7Z12MQ0X/Table+1 2006, September - Prey Selection by Chaoborus in the Field and Laboratory TABLE 1. Predation rates (prey Chaoborus-1day-1) of field collected and laboratory fed Chaoborus larvae from Campus Lake, Jackson, Co., Illinois, USA. Field collected animals were obtained from a 06:00 collection and represent the feeding rate over the previous 24 h, while laboratory rates are standardized for 24h. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508121542214-TSJDT52SHDIUMAIQJM3Y/Figure+4 2006, September - Prey Selection by Chaoborus in the Field and Laboratory FIGURE 4. Selectivity (α) of Chaoborus larvae for a laboratory experiment in which larvae were presented with copepod and Daphnia prey. Mean selectivity (A) for each prey type (bars represent  1 standard error); selectivity for copepods (B) and selectivity for Daphnia (C). https://www.jyi.org/2006-september/2017/10/15/tsn689o8uj4fhw35ukyo1mf3in9lgw monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120679627-HQZOH5T5JLZLGQXJKOU7/image-asset.jpeg 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120696192-Y5IJ0ORRT1UT5H3DLTK1/image-asset.jpeg 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120736170-9PO6KSDLXJLDA1IRL1U0/image-asset.jpeg 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120711931-8SW9HNEFIQJPP3WX31KT/image-asset.jpeg 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120749410-JRTC5OXIFL1JRJDMB6CR/image-asset.jpeg 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120956629-9PCSOUMGZ18X6PQ7789V/image-asset.jpeg 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508120971414-J8V34EYDKWQ5IP38NRYE/Appendix+B 2006, September - Nocturnal vs. Diurnal Insect Diversity Within the Tropical Montane Forest Canopy article_778_order_2 https://www.jyi.org/2006-september/category/Research monthly 0.5 https://www.jyi.org/2006-august daily 0.75 2017-10-16 https://www.jyi.org/2006-august/2017/10/15/magnetic-nanoparticles-enhance-medical-imaging monthly 0.5 2017-10-16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508119770728-SHFJ3SWIIMTU3NOXSRZD/Figure+1 2006, August - Magnetic Nanoparticles Enhance Medical Imaging Left - Non-enhanced T1-weighted image brainstem infarct (arrow) Right - Images 48 h (D) following SPIO infusion Image courtesy of: Annals of Biomedical Engineering, Vol. 34, No. 1, January 2006 pp. 23–38. https://www.jyi.org/2006-august/2017/10/15/8wsx2esc1i7wcb81yy9gdk6tf6xb7l monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508118977417-DPGUXT008ZU4JOY9FM5N/Figure+1 2006, August - The Use of Artificial Neural Networks in the Study and Improvement of Connectivity in Neural Synaptic Promoters in Alzheimer's Disease States Figure 1: a) Model of a Hopfield learning algorithm under the influence of recurrent neural network architectures. Recurrent neural networks have been shown to be the closest to modeling associative memory in the brain than any other neural network architecture given that the neurons bi-directionally connect as human neurons do and not linearly. b) This schematic depicts a network with hidden layers (E4-E9; extra layers of neurons). This network increases the accuracy and processing power of a network. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508118995058-NWXPCGEZWRCEUFNP92YR/Figure+2 2006, August - The Use of Artificial Neural Networks in the Study and Improvement of Connectivity in Neural Synaptic Promoters in Alzheimer's Disease States Figure 2: a) This depicts the first artificial neuron model developed by McCulloch-Pitts. This model has no information weights (synapses) and a threshold function (u) needed to be satisfied for the neuron to fire. There are 5 outputs (x1.xn+m) and an output represented by d1. b) Perceptron network is typical network architecture of a single layer. This is the most primitive of network architectures. In this figure, three inputs (x1.xn) are given into the network with designated information weights (w1.w3) acting as synapses. The circular representation depicts the node (nerve cell) of the network. The subsequent output is designated as y. c) This figure depicts higher order two-tier perceptron network architecture. There is present the same number of inputs, but an increase in the number of nodes (neurons) and thus, more connections. This network will yield three outputs. Compared to Figure1a, there are more number of connections thus increasing the processing power and accuracy. d) Here we show a three-tier network with four inputs and two outputs resembling a typical Back-Propagation (BP) network architecture. There are more layers of neurons compared to previous figures because of the increase in inputs. BP is unique in that errors that are produced in the network are filtered back into the processing unit to improve the accuracy of the network, leading to the "unsupervised" learning environment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508119017346-N0LER5HFCHEMEHLFT4TC/Table+1 2006, August - The Use of Artificial Neural Networks in the Study and Improvement of Connectivity in Neural Synaptic Promoters in Alzheimer's Disease States article_756_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508119034577-C7RSJG427T74WJ8ZYSCU/Figure+3 2006, August - The Use of Artificial Neural Networks in the Study and Improvement of Connectivity in Neural Synaptic Promoters in Alzheimer's Disease States Figure 3: A set of figures, numbered that show the progressive network performance vs. the number of connections that we continuously damaged. The damage was done through random synaptic pruning and was done at an increasing rate in order to determine the network's sustainability and robustness. The last two figures, figures e and f show the overall comparison of the Hopfield one with Hopfield-1 healthy network versus Hopfield 2 healthy network, and one with Hopfield-1 healthy network versus the various percentages of damaged networks https://www.jyi.org/2006-august/2017/10/12/qfznrqvn3qz7m9ht7xqj87eyd36if8 monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507853827339-UKFSIZNRVHLMYVX6G4WB/Figure+1 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 1: The five-node Beowulf cluster, Jaguar planning diagram and during testing phase. The cluster consisted of four identical, computational nodes and a head node. Each computational node was designed only to run calculations; user access was only available through SSH by submitting parallel calculations. The head node had a modified hardware and software setup to accommodate user interaction and networking. A Network File System (NFS) through the head node allowed the computational nodes to access and modify files available to all other nodes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916293783-YGNVCBMH21GWXK5AYZ3B/Figure+2 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 2: The internal configuration of a single node of the Beowulf cluster, Jaguar. Each node had a FIC PT2006 motherboard, 64 megabytes of RAM, a 2 gigabyte harddrive, an S3 ViRGE video card, and a 3Com network interface card. Each node had a minimal hardware configuration so it could devote the maximum amount of system resources to running calculations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916317268-AIP5MK6A6F43X5JOED0Y/Figure+3 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 3: Time differences between MPI implementations when testing the timing function MPI_Wtime. The blue line shows the time required to run the function MPI_Wtime using the MPICH implementation using 1, 3, and 5 processors; the red line is the times required when using LAM-MPI. The function MPI_Wtime measures the "wall" time or clock time when called; if the function is called two in succession, the difference between recorded values represents the added latency to time any call. The call times were measured while running the cluster using one, three, and five nodes; no significant timing differences exist with increasing number of nodes. Although LAM-MPI does show slightly lower values, the difference is negligible when factored into other timing values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916336736-V5EVF29ENPVZQ2C2A9DA/Figure+4 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 4: Time differences between MPI implementations for "global" calls. The lines with solid markers indicate the tests run using MPICH, while the lines with empty markers were with LAM-MPI. The global communications calls broadcast (MPI_BCAST, blue lines), scatter (MPI_SCATTER, red lines), and reduce (MPI_REDUCE, green lines) all effectively transmit data from in a multi-node fashion using a minimal number of calls. MPI_BCAST sends one piece of data from one node to all others; MPI_SCATTER breaks a data into small pieces and sends a unique piece to each node; and MPI_REDUCE allows one node to receive data from all other nodes and perform a given operation on the data. MPICH and LAM-MPI have some relative differences in execution time for varying number of processors, although MPI_REDUCE for LAM-MPI does stand out when compared to the same function for MPICH. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916359396-W3B6RXL69MIN0IZIVKW3/Figure+5 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 5: Time to communication completion in MPI implementations for selected, non-global communications methods. The lines with solid markers indicate the tests run using MPICH, while the lines with empty markers were run with LAM-MPI. The point-to-point communications methods send, receive (MPI_SEND and MPI_RECV, red lines), and combined send/receive (MPI_SENDRECV, blue lines) are used to more efficiently transmit data between nodes; these methods are used when the data only needs to be transferred between two nodes. MPI_SEND sends data from one node to another; the receiving node executes MPI_RECV to prepare to receive the data; MPI_SENDRECV can be used to concurrently send and receive data. MPI_SENDRECV, when used properly, can speed communications; the timing differences between MPICH and LAM-MPI for calls to MPI_SENDRECV is of note. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916397612-KF0U5U1Y5ZLMKGONUYP5/Figure+6 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 6 and Figure 7 (single caption for two figures): Comparative times to parallel program completion for computing resultant vector by matrix multiplication using different MPI implementations. The red lines are data taken when using LAM-MPI and the blue lines are from using MPICH. The comparative computational times with increasing data sets can be seen in the differences of the two curves with increasing data sets. This parallel program calculates the resultant matrix from a vector by matrix multiplication; the program recorded times for calls made to the functions MPI_SCATTER (Figure 3.3) and MPI_REDUCE (Figure 3.4) using five nodes. MPI_SCATTER breaks up the data and sends out chunks to individual nodes. For MPI_SCATTER, the two implementations show no significant differences on varying datasets. In reduction and sum with MPI_REDUCE, the two implementations show noticeable differences, especially as the size of the dataset increases. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916413376-UZWL5XJA4EOE17W2RJWI/Figure+7 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507916429198-BOMXOSWGGYWMAGDJJ9GO/Figure+8 2006, August - A Comparison of LAM-MPI and MPICH Messaging Calls with Cluster Computing Figure 8: Comparative times for calls to MPI_REDUCE(sum) when used to compute the value of pi using an integral. The figure shows the slight differences in time when running MPI_REDUCE with increasingly large data sets. Parallel versions of numerical computations can quickly and efficiently solve a complex mathematical equation to many degrees of accuracy. The calculation of an integral based on the trapezoid rule, which uses functional values and an interpolating function to calculate the area under a curve, is an ideal example for a parallel program. The parallel program assigns each node a range of values to compute for the integral, and the sum of values from each node represents the total area under the curve. The small amount of data being sent between nodes probably accounts for the discrepancy between the times for MPI_REDUCE in this figure and those in Figure 3.4. https://www.jyi.org/2006-august/2017/10/12/literature-review-a-21st-century-epidemic-childhood-obesity-in-north-america monthly 0.5 2018-11-11 https://www.jyi.org/2006-august/category/Features monthly 0.5 https://www.jyi.org/2006-august/category/Research monthly 0.5 https://www.jyi.org/2006-july daily 0.75 2017-10-12 https://www.jyi.org/2006-july/2017/10/11/blink-breathe-and-break monthly 0.5 2017-10-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507773892493-WWSB6FVV21TBYNYXUAV6/Figure+1 2006, July - Blink, Breathe, and Break The Micro-environment glasses that help to prevent quick drying of eyes during computer use. (soon commercially available) https://www.jyi.org/2006-july/2017/10/11/what-happens-during-a-coma monthly 0.5 2017-10-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507773575263-GJWN9HKDHDCXFO97U4S0/Figure+1 2006, July - What happens during a coma? Picture taken from: http://www.cbsnews.com/stories/2005/08/05/earlyshow/series/main760296.shtml https://www.jyi.org/2006-july/2017/10/11/the-planetary-standstill-a-word-without-a-definition monthly 0.5 2017-10-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772774461-0HPH1PPCZMKO397HRFB2/Figure+1 2006, July - The planetary standstill: A word without a definition. Figure 1. The fading definition of planet https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772794950-16K07UJ4686W3B94YNUH/Figure+2 2006, July - The planetary standstill: A word without a definition. Figure 2. An icy rock or an object worthy of planethood'? An artist's rendition of the view from distant 2003 UB313. Image credit: NASA Jet Propulsion Laboratory https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772808019-DAC8G8PI34719ASL8452/Figure+3 2006, July - The planetary standstill: A word without a definition. Figure 3. A young Clyde Tombaugh at the Lowell Observatory ca. 1931. Image Credit: New Mexico State University Library Archives https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772821072-8YZZFCO8HWECS889BQGT/Figure+4 2006, July - The planetary standstill: A word without a definition. Figure 4. Sizing up Pluto: major satellites of various planets in the solar system. From left-top: Ganymede (Jupiter), Titan (Saturn), Callisto (Jupiter); from left-bottom Io (Jupiter), The Moon (Earth), Europa (Jupiter), Triton (Neptune), Pluto (lower). Image Credit: NASA Jet Propulation Laboratory https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772840802-ZBIQ1LUMQRY3J8XS1FPM/Figure+5 2006, July - The planetary standstill: A word without a definition. Figure 5. Pluto and other comparatively large celestial bodies in the solar system. Other noteworthys missing from image: 2003 EL61, 2003 UB313, 2005 FY9. Image Credit: NASA, JPL, R. Hurt https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507772856211-04C4I2MYPK50FN2GKYY2/Figure+6 2006, July - The planetary standstill: A word without a definition. Figure 6. At a distant 14.5 billion km, Pluto and its moon, Charon, are captured by the Hubble Space Telescope. NASA describes this as the "clearest view yet of the distant planet." Image Credit: Dr. R. Albrecht, ESA/ESO Space Telescope European Coordinating Facility; NASA https://www.jyi.org/2006-july/2017/10/11/clashes-wars-and-plastic-surgery monthly 0.5 2017-10-12 https://www.jyi.org/2006-july/category/Features monthly 0.5 https://www.jyi.org/2006-may daily 0.75 2017-10-12 https://www.jyi.org/2006-may/2017/10/11/waters-unexpected-self-loathing monthly 0.5 2017-10-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507771625773-7G02WJDWQNGZ380LIAJE/Figure+1 2006, May - Water's Unexpected Self-Loathing Figure 1. The structure of ice. Source: ibchem.com. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507771654679-H69LK5IKW2GK3DKVSN0A/Figure+2 2006, May - Water's Unexpected Self-Loathing Figure 2. The old picture of ice on platinum (with dangling OH's). Source: Ogasawara, et al. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507771675952-SVPXFKKOZ6EVEATQVX9U/Figure+3 2006, May - Water's Unexpected Self-Loathing Figure 3. The new picture of ice on platinum (with bent-over OH's). Source: Ogasawara, et al. https://www.jyi.org/2006-may/2017/10/11/cure-for-the-common-everything-celebrating-240-years-of-american-chocolate monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507731132402-9DF0DD976XBFQZY0NL8T/Figure+1 2006, May - Cure for the Common Everything: Celebrating 240 Years of American Chocolate https://www.jyi.org/2006-may/2017/10/11/media-review-a-short-history-of-nearly-everything-by-bill-bryson monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507730927582-97ABUSU73RE8PQ3YXH7P/Figure+1 2006, May - MEDIA REVIEW - A Short History of Nearly Everything by Bill Bryson https://www.jyi.org/2006-may/2017/10/11/review-early-childhood-caries-risk-and-prevention-in-underserved-populations monthly 0.5 2018-11-11 https://www.jyi.org/2006-may/category/Features monthly 0.5 https://www.jyi.org/2006-may/category/Research monthly 0.5 https://www.jyi.org/2006-april daily 0.75 2017-10-11 https://www.jyi.org/2006-april/2017/10/11/antimicrobial-nation-the-benefits-and-drawbacks-of-the-domestic-war-on-germs monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507730217646-BOF7330VQZZR65J8SK25/Figure+1 2006, April - Antimicrobial Nation: The Benefits and Drawbacks of the Domestic War on Germs Figure 1. A lab technician assesses the results of an antibiotic susceptibility test. Image Courtesy: CDC. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507730230152-RU9UB2PWNF7LAF043XO8/Figure+2 2006, April - Antimicrobial Nation: The Benefits and Drawbacks of the Domestic War on Germs Figure 2. The biology behind what occurs when you wash your hands with antimicrobial soaps is a complex and important issue. Image Courtesy: CDC/Kelly Thomas. https://www.jyi.org/2006-april/2017/10/11/the-skinny-on-life-extension monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507729546104-SKM0VZ99SKDPRJSCORL7/Figure+1 2006, April - The Skinny on Life Extension Figure 1. Reducing an animal's daily intake of calories extends their lifespan. For example, rats whose feeding is restricted have been found to live up to 76% longer than rats who can eat all they want. Researchers are now trying to determine whether the same effect can be found in humans. Graphic by Adam Frank. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507729564063-CECL1M8U43U19CV1UOW9/Figure+2 2006, April - The Skinny on Life Extension Figure 2. Caloric restriction does not mean eating less of the same old junk foods you always ate, but eliminating empty calories in favor of more nutrient-dense foods, like vegetables. Graphic by Adam Frank. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507729577755-J57EEPAWTKK7COLR4PCL/Figure+3 2006, April - The Skinny on Life Extension Figure 3. DHEA: the most abundant hormone in the body. This hormone is implicated in a huge array of body processes, including the immune response, cancer resistence, stress, diabetes, high blood pressure, memory, and fatigue. DHEA levels decline with age, and studies have found that lower levels of DHEA mean higher risk of death. https://www.jyi.org/2006-april/2017/10/10/media-review-a-primates-memoir-a-neuroscientists-unconventional-life-among-the-baboons-by-robert-m-sapolsky monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507692575961-2379QSJU3GXOCNFGX8WA/Figure+1 2006, April - MEDIA REVIEW – A Primate's Memoir: A Neuroscientist's Unconventional Life Among the Baboons, by Robert M. Sapolsky https://www.jyi.org/2006-april/2017/10/10/the-guided-missiles-or-the-guided-micelles monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507692149927-Q51LJXULWZONPSZSVUEX/Figure+1 2006, April - The "Guided Missiles", or the "Guided Micelles"? Figure 1. Nanoparticles releasing the contained drug at the exact site of tumor. https://www.jyi.org/2006-april/2017/10/10/academic-worry-as-a-predictor-of-sleep-disturbance-in-college-students monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507691575547-JUNVCDKVOUPKN5FDW1DO/Table+1 2006, April - Academic Worry as a Predictor of Sleep Disturbance in College Students Table 1. Means and standard deviations for SAW items. (n = 55; SAW = Sleep Disturbance Ascribed to Worry Scale). https://www.jyi.org/2006-april/category/Features monthly 0.5 https://www.jyi.org/2006-april/category/Research monthly 0.5 https://www.jyi.org/2006-march daily 0.75 2017-10-11 https://www.jyi.org/2006-march/2017/10/10/on-the-mountains-high-altitude-sickness-in-nepal monthly 0.5 2017-10-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507690003078-S8ZGTIP914EEPDDILYKV/Figure+1 2006, March - On the Mountains: High Altitude Sickness in Nepal Figure 1. Pilgrims gather on the lakeside of Gosainkunda to take holy dip in the holy lake. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507690022865-Y8390EGVMDEXPRIQQ7JY/Figure+2 2006, March - On the Mountains: High Altitude Sickness in Nepal Figure 2. A small hamlet in the Nepalese Himalaya. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507690042533-L4HEL89XMPHEA9NYJ1I4/Figure+3 2006, March - On the Mountains: High Altitude Sickness in Nepal Figure 3. Medical students during their trek in high altitude. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507690063068-UZZQS3F3SRURI5FZRFY9/Table+1 2006, March - On the Mountains: High Altitude Sickness in Nepal Table 1. Symptoms of AMS, HACE, and HAPE. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507690082421-UBIF979WD3BVUU1F5AUE/Table+2 2006, March - On the Mountains: High Altitude Sickness in Nepal Table 2. The Golden Rules of AMS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507690098975-I7CLP1748C97WXZS00EC/Figure+4 2006, March - On the Mountains: High Altitude Sickness in Nepal Figure 4. A village on the lap of mountain. https://www.jyi.org/2006-march/2017/10/10/use-of-ilap-plates-as-a-new-rapid-screening-method-for-the-evaluation-of-various-human-recombinant-coproporphyrinogen-oxidase-mutants-with-wider-possible-applications monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667496349-IKRNOOTKM54UFWCX5LVL/Figure+1 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Figure 1. SDS-PAGE (12% gel) analysis of specificity of iLAP Plates. Lane A: Standard copro'gen oxidase. Lane B: iLAP sample of human WT recombinant 6x-His-tagged copro'gen oxidase (20 microliters). Lane C: Wild type E. coli (20 microliters) without WT recombinant human 6x-His-tagged copro'gen oxidase. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667567959-UNR3OL4WGMAD74D0XOO6/Figure+2 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Figure 2. HPLC Chromatogram for Activity of Human Recombinant 6x-His-Tag Copro'gen Oxidase and Representative Mutant Copro'gen Oxidase Enzyme. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667618078-F85YREG8XLSU4X9B0U20/Figure+3A 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Figure 3A. C-III Incubation after Copro'gen Oxidase Isolation using Nickel Affinity Chromatography. Each point is the mean of two replicates. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667637784-FW4SENJW5IZQUOACGYSQ/Figure+3B 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Figure 3B. C-III Incubation after Copro'gen Oxidase Isolation using iLAP Plates. Each point is the mean of two replicates. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667713935-SWK93EXD6GITNVZUT2OE/Figure+4 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Figure 4. SDS-PAGE Analysis of Lysine Mutants and Human WT Enzyme After Purification Using Nickel Affinity Chromatography (Gel 1) or iLAP Plates (Gel 2). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667750198-JKG11SI8ZX940U4BV9L7/Figure+5 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Figure 5. Activity of Wild-Type and Mutant CO after Purification using Nickel Affinity Chromatography (A) and iLAP Plates (B). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667798251-LZB3LOOTARBVZF4VY4LE/Table+1 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Table 1. Evaluation of Specifically Bound Protein to iLAP Plates. Specifically Bound Protein using E. coli Cells Grown at 37 degrees C. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507667815755-1NJITR4BWG4M1TPXEMUY/Table+2 2006, March - Use of iLAP Plates as a New Rapid Screening Method for the Evaluation of Various Human Recombinant Coproporphyrinogen Oxidase Mutants with Wider Possible Applications Table 2. Evaluation of Specifically Bound Protein to iLAP Plates. Specifically Bound Protein using E. coli Cells Grown at Room Temperature. https://www.jyi.org/2006-march/category/Features monthly 0.5 https://www.jyi.org/2006-march/category/Research monthly 0.5 https://www.jyi.org/2006-february daily 0.75 2017-10-10 https://www.jyi.org/2006-february/2017/10/10/media-review-nerve-endings-the-discovery-of-the-synapse-by-richard-rapport monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507666484439-ICSKFASLTSBSFAXN17VL/Figure+1 2006, February - MEDIA REVIEW - Nerve Endings: The Discovery of the Synapse by Richard Rapport Figure 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507666505240-DCM1FDY6FD4BBP9533AB/Figure+2 2006, February - MEDIA REVIEW - Nerve Endings: The Discovery of the Synapse by Richard Rapport Figure 2. Santiago Ramon y Cajal. Image Courtesy: La Universidad Complutense de Madrid. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507666530923-RTGLXMX20A9608EMGLUH/Figure+3 2006, February - MEDIA REVIEW - Nerve Endings: The Discovery of the Synapse by Richard Rapport Figure 3. Camillo Golgi. Image Courtesy: The Nobel Foundation. https://www.jyi.org/2006-february/2017/10/10/media-review-time-love-memory-a-great-biologist-and-his-quest-for-the-origins-of-behavior-by-jonathan-weiner monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507666004063-YI5C834D5WZ0YP21GTOB/image-asset.jpeg 2006, February - MEDIA REVIEW - Time, Love, Memory: A Great Biologist and His Quest for the Origins of Behavior by Jonathan Weiner https://www.jyi.org/2006-february/2017/10/10/brownfield-remediation-for-urban-health-a-systematic-review-and-case-assessment-of-baltimore-maryland monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507664620765-S8X9CVFF4XWVBXXC5LPW/Figure+1 2006, February - Brownfield Remediation for Urban Health: A Systematic Review and Case Assessment of Baltimore, Maryland Figure 1. Distribution of major vacant commercial and industrial properties (greater than or equal to 1 acre in size) and degree of brownfield contamination in southeast Baltimore. Source: Litt JS, Tran NL, Burke TA (2002). "Examining Urban Brownfields through the Public Health 'Macroscope,'" Environmental Health Perspectives 110 (2):183-93. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507664703152-N6PZ86IR5H5V66CGC3A3/Figure+2 2006, February - Brownfield Remediation for Urban Health: A Systematic Review and Case Assessment of Baltimore, Maryland Figure 2. Brownfield sites in southeast Baltimore, with top 10 hazard-score sites highlited. Source: Litt JS, Tran NL, Burke TA (2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507664764427-ZDQ9V7PC2N9I3ZH70DC5/Figure+3 2006, February - Brownfield Remediation for Urban Health: A Systematic Review and Case Assessment of Baltimore, Maryland Figure 3. Census tracts shaded with respective brownfield hazard zones (dark=3). Source: Litt JS, Tran NL, Burke TA (2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507664831016-1O9TIGSB6048FPJ8L14N/Figure+4 2006, February - Brownfield Remediation for Urban Health: A Systematic Review and Case Assessment of Baltimore, Maryland Figure 4. Odds ratios of mortality rates, stratified by various causes of death, between different brownfield hazard zones, in persons less than or equal to 45 years old, 1990–1996. *Note: multivariate adjustment of OR done for factors of population age, area of census tract, and significant SES indicators. Source: Litt JS, Tran NL, Burke TA (2002). https://www.jyi.org/2006-february/category/Features monthly 0.5 https://www.jyi.org/2006-february/category/Research monthly 0.5 https://www.jyi.org/2006-january daily 0.75 2017-10-10 https://www.jyi.org/2006-january/2017/10/10/the-small-frontier-exploring-the-atomic-landscape monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507643040197-2GB258AO243YBUGCOEHG/Figure+1 2006, January - The "Small Frontier" : Exploring the Atomic Landscape Figure 1. Electron waves on a metal surface. Image Courtesy of National Center of Competence in Research (NCCR) on Nanoscale Science, Switzerland. https://www.jyi.org/2006-january/2017/10/8/polychlorinated-biphenyls-pcbs-in-fish-roe monthly 0.5 2018-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507436745387-IFIK6GVDEYFH7D7P9LDN/Figure+1 2006, January - Polychlorinated Biphenyls (PCBs) in Fish Roe Figure 1. As part of the quality assurance plan of this project, a standard reference material (SRM 1974B) was analyzed. Total PCB concentrations for the evaluated SRM were compared to those reported by NIST. Error bars for the NIST values represent standard deviations of the mean for replicate analyses. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507594241614-AHHMPUKFZZULACYF5WTS/Figure+2 2006, January - Polychlorinated Biphenyls (PCBs) in Fish Roe Figure 2. Total PCB concentrations for each roe sample are shown on a ng/g wet weight basis (top) and on a lipid normalized basis (bottom). Under both the wet weight and lipid normalize basis, American paddle fish roe contained the highest levels of PCBs. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507594414575-I0WJH9XW6G69XMGWPTRA/Figure+3 2006, January - Polychlorinated Biphenyls (PCBs) in Fish Roe Figure 3. Total PCBs were compared to the lipid percent of the caviar (paddlefish value not shown). The positive linear regression line suggests that lipid content of roe is a large factor in determining the PCB concentration. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1507594598013-5AJNO8UE9YIDKMR97H8X/Table+1 2006, January - Polychlorinated Biphenyls (PCBs) in Fish Roe Table 1. Comparison of the sum of PCB congeners 28, 52, 101, 138, 153, and 180 in purchased caviar purchased from U.S. suppliers (this study) to those reported by Kr&uuml;ger and Pudenz* (2002). https://www.jyi.org/2006-january/category/Features monthly 0.5 https://www.jyi.org/2006-january/category/Research monthly 0.5 https://www.jyi.org/2005-december daily 0.75 2017-11-05 https://www.jyi.org/2005-december/2005/12/5/an-aging-marvel-nasas-space-shuttles-golden-years monthly 0.5 2017-11-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913710695-5VS4R2LHDSRHAUZVMEOF/image-asset.jpeg 2005, December - An Aging Marvel: NASA's Space Shuttle's "Golden Years" Figure 1. Original Design Sketch for Space Shuttle. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913741562-R1C7W56KQDGPB2FUSACB/img1.jpg 2005, December - An Aging Marvel: NASA's Space Shuttle's "Golden Years" Figure 2. Orbiter Enterprise is ferried from test site to test site using a modified Boeing 747. Image courtesy NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913771554-FJIU6WKDRHPIVJJR3OAQ/image-asset.jpeg 2005, December - An Aging Marvel: NASA's Space Shuttle's "Golden Years" Figure 3. Launch of STS-1, Shuttle Columbia on April 12, 1981. Image courtesy NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913807027-H1GM2X64V5MLZH30XNFJ/image-asset.jpeg 2005, December - An Aging Marvel: NASA's Space Shuttle's "Golden Years" Figure 4. Cut-away diagram of the orbiter component of the STS. Image courtesy NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913833079-OYOK10SINIFL51DKEFXH/image-asset.jpeg 2005, December - An Aging Marvel: NASA's Space Shuttle's "Golden Years" Figure 5. Diagrams and Statistics of the fully assembled Space Shuttle. Image courtesy NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913878891-POAOZOSF2MFCAC4J2J7Y/image-asset.jpeg 2005, December - An Aging Marvel: NASA's Space Shuttle's "Golden Years" Figure 6. Flight patch from STS-107. Image courtesty NASA. https://www.jyi.org/2005-december/2017/11/5/targeting-the-hiv-1-reverse-transcriptase-integrase-p27-by-expression-of-rnai-oligonucleotides-from-engineered-human-artificial-chromosome monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912472710-G9E4OOFEEVGOJWAC7MLL/img0+%281%29.jpg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 1. Life cycle of HIV-1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913316497-U55YNXMH6WII974P7LZK/img9.jpg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Table 1. Current drugs used to treat HIV-1 and their adverse effects. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912508395-86T9NUOXQ4IS9B6SR0OV/img1.jpg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 2. HAC (greenish red in color). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912642771-QQT0HHXEBFOBZD34ZKHQ/image-asset.jpeg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 3. Model of Engineered HAC. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912704925-RER8PZYSU4U2K4OB9QMX/image-asset.jpeg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 4. Regular Transcription and Translation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912745608-E6PPGBFE7Z836RVGL3OL/image-asset.jpeg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 5. Antisense RNA Mechanism. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912859611-JG3HL3UHVU72DL1OUZKZ/img5.jpg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 6. Action of Dicer. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913062536-4N9I0TQNK28ZQA31WAX1/img6.jpg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 7. Protein sequence of gp120. Residues 307-330 are highly conserved in all HIV-1 Isolates. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913156784-VC7LJ4W19VCH19JIPS0B/img7.jpg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 8. Step-by-step process involved in Reverse Transcription. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509913282284-ZMSTAFOXYJP4BO1YZH2U/image-asset.jpeg 2005, December - Targeting the HIV-1 Reverse Transcriptase, Integrase, P27, By Expression of RNAi Oligonucleotides from Engineered Human Artificial Chromosome Figure 9. Mechanism of integration. https://www.jyi.org/2005-december/2017/11/5/morphological-changes-and-patterns-of-gene-expression-in-drosophila-embryological-development-a-novel-computational-approach-for-discovering-function-of-genes-of-unknown-function monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911450042-AZ327DRADWWVCIN5P2U5/img7.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Table 1. Certain Pair-rule genes likely to be important in germ band extension. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911519132-OLRY12UAVS7FKRQSM8UJ/img0.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 1. Transformation equation: Fink et al. video time plotted against BDGP time at corresponding stage. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911577465-JZGCVPYA3JMF4FVXVJ89/img1.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 2. Alignment of embryo morphology to stage A. Stage 6 B. Stage 12e C. Stage 13l. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911648436-O8LQADXW8R98VQ6G7997/img2.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 3. BDGP Time Course Microarray Scale (Tomancak et al. 2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911747633-PBZPYXTQXRCL141AQYAU/image-asset.jpeg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Table 2. Correlation matrices for directional extension, directional expansion, directional retraction, and directional expansion, extension, and retraction. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911805216-PY0JOLEEKQ59GJRRFTVU/img3.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 4. Germ band area vs. adjusted hours past fertilization. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911856378-5QHVVIZ3FQ9SJR19S8OR/img4.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 5. Ratio of each event occurring in each hour A. Fraction of total directional germ band extension vs. hours past fertilization B. Fraction of total directional germ band expansion vs. hours past fertilization C. Fraction of total directional retraction vs. hours past fertilization D. Fraction of total directional germ band extension, expansion, and retraction vs. hours past fertilization. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509911963247-L3YJ4GWYN8I12ZW77XNM/img5.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 6. Number of highly correlated genes (.8 correlation or higher) with directional extension, directional expansion, directional retraction, and directional extension, expansion, and retraction. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509912016074-CYZTD94CTY0UZN62WAFB/img6.jpg 2005, December - Morphological Changes and Patterns of Gene Expression in Drosophila Embryological Development: A Novel Computational Approach for Discovering Function of Genes of Unknown Function Figure 7. Correlation values vs. weighted peak value (MAX(1:12)-MIN(1:12)/(SUM(1:12)) for genes with 0.6 correlation or higher. https://www.jyi.org/2005-december/category/Features monthly 0.5 https://www.jyi.org/2005-december/category/Research monthly 0.5 https://www.jyi.org/2005-november daily 0.75 2017-11-05 https://www.jyi.org/2005-november/2005/11/5/its-alive-harnessing-the-powers-of-tissue-engineering monthly 0.5 2017-11-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509924719063-8GVZAAWIXGWKLVUNRUH7/img0.jpg 2005, November - It's Alive! Harnessing the Powers of Tissue Engineering Figure 1. Prasad Shastri holding a petri dish containing bone cells. Photo courtesy Daniel Dubois. https://www.jyi.org/2005-november/2005/11/5/drug-addiction-a-forgotten-memory monthly 0.5 2017-11-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509924247691-UBW3TI04AM97YGLAQ3CP/img0+%281%29.jpg 2005, November - Drug Addiction: A (Forgotten) Memory? Figure 1. Powder cocaine. Rats addicted to powder cocaine can overcome their addiction by interrupting the memories associating the drug with environmental cues. But could such a therapy work on humans? Images Courtesy of US Drug Enforcement Administration. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509924296128-QCJRSC7M6LKPKKKQ6CQ8/img1.jpg 2005, November - Drug Addiction: A (Forgotten) Memory? Figure 2. The various forms of memory. Image Courtesy: J.P. Card of University of Pittsburgh. https://www.jyi.org/2005-november/2005/11/5/study-nature-not-books-cockerell-and-the-amateur-naturalist monthly 0.5 2017-11-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923723656-6EG8XBNOHQ5FSXUB7XK3/img0.jpg 2005, November - Study Nature, Not Books: Cockerell and the Amateur Naturalist Figure 1. T.D.A. Cockerell. Image Courtesy: University of Colorado Museum of Natural History. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923791557-20N2BS3Q52PUQFBWD6FR/img1.jpg 2005, November - Study Nature, Not Books: Cockerell and the Amateur Naturalist Figure 2. Shale and tuff at Florissant, Colorado. Cockerell spent many years studying the delicate insect and plant fossils preserved in these Eocene lake shales at Florissant. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923855216-NKH3WO01H77A6KXI55JQ/img2.jpg 2005, November - Study Nature, Not Books: Cockerell and the Amateur Naturalist Figure 3. Cockerell's grave in Boulder, Colorado, is inscribed: "Naturalist – Humanitarian – Teacher" to pay homage to the many facets of his life. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923917012-ZYACC4WEGXPWFSHOFZ73/img3.jpg 2005, November - Study Nature, Not Books: Cockerell and the Amateur Naturalist Figure 4. Cockerell was one of the founders of the University of Colorado Museum, which remains an important research and education facility today. https://www.jyi.org/2005-november/2017/11/5/review-mechanisms-of-bacterial-pathogenesis-and-targets-for-vaccine-design monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509922750896-JCSMVFCLX3ZRANFM3FVT/img0+%281%29.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Table 1. Gram-negative bacterial secretion pathways. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509922930322-1L65SMU37XOARN6OUSOE/img1.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Figure 1. Mechanism of action of cholera toxin (AB toxin subtype). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923035017-ZENAWS8X7Y2BONIZFIBG/img5.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Equation 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923103702-DHI5994KSPLYKI899ODJ/img6.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Equation 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923177757-NUBDK1Y906XCMPCMVPF7/img7.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Equation 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923317458-95Q8KVSKRLQB8OWQV4H5/img2.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Figure 2. Enteropathogenic E.coli (EPEC) adhere to epithelial cells using a type 3-secretion system. Tir inject Tir into the host cell membranes, where it serves as a receptor for Intimin on the bacterial surface. Subsequently, actin cytoskeleton is concentrated beneath adherent organisms, raising the bacterium onto a pedestal on the cell surface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509923390060-HQP2CLA06IY0CADB5YLK/img3.jpg 2005, November - REVIEW: Mechanisms of Bacterial Pathogenesis and Targets for Vaccine Design Figure 3. Shigella mediated induction of apoptosis. These pathogens inject factors into host cells via type 3 secretion systems that activate caspases, which then trigger cellular apoptosis and death. This "silent death" avoids the action of inflammatory responses normally associated with cytolytic death, presumably providing the pathogen with an advantage. https://www.jyi.org/2005-november/2005/11/5/review-pharmacogenomic-frontiers-in-medicine-and-race monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509922239408-RF9CFTNFX9O0ZJ6DPX27/image-asset.jpeg 2005, November - REVIEW: Pharmacogenomic Frontiers in Medicine and Race Figure 1. A model for understanding pharmacogenomic and pharmacogenetic approaches towards studying variable drug response. Individual squares represent genes that affect drug response. The entire 8X8 ensemble represents 64 genes involved in determining drug response. Each color represents one underlying mechanism. Red may represent drug metabolism; blue, drug transport; green, drug excretion; etc. Squares of the same color represent all the genes involved in one particular mechanism. Pharmacogenomics considers all 64 squares (i.e., all mechanisms and the respective genes). Pharmaco-genetics approaches drug response one mechanism at a time or one gene at a time. In order to understand drug response, both the big picture (all 64 squares) at the level of the genome as well as the fine details at the level of the allele must be considered. Thus, the two disciplines are tightly intertwined, and nomenclature is often interchangeable, with pharmaco-genomics often representing both sciences. In the clinical setting, pharmacogenomics can (1) identify patients at high risk for adverse drug responses and (2) optimize therapy for each patient by tailoring medicine. In addition, pharmacogenomics can speed up drug development by selecting feasible drug targets, reducing clinical trial sizes, and increasing safety of the trials. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509922306314-RIY2W1IQIBZ7DLQVNM79/img1.jpg 2005, November - REVIEW: Pharmacogenomic Frontiers in Medicine and Race Figure 2. Genetic polymorphisms can alter individual drug responses by interfering with drug metabolism. By identifying patients with polymorphisms that negatively interact with specific drugs, physicians can avoid harmful side-effects and optimize therapy. https://www.jyi.org/2005-november/category/Features monthly 0.5 https://www.jyi.org/2005-november/category/Research monthly 0.5 https://www.jyi.org/2005-october daily 0.75 2017-11-06 https://www.jyi.org/2005-october/2005/10/6/returning-to-flight-continuing-to-what monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999845318-BP21983M942RAFAC7T8N/img0.jpg 2005, October - Returning to Flight, Continuing to What? Figure 1. Space Shuttle Discovery launches. Image Courtesy: NASA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999874596-9MLKV48DEZ6XQ5M9TUAP/image-asset.jpeg 2005, October - Returning to Flight, Continuing to What? Figure 2. The space shuttle lands safely on 9 August 2005. Image Courtesy: NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999901859-NUB3QD7KBWGEPZ9V5LMD/img2.jpg 2005, October - Returning to Flight, Continuing to What? Figure 3. Space Shuttle crew for the Return to Flight mission. In front: Eileen M. Collins (right), commander; Wendy B. Lawrence, mission specialist; and James M. Kelly, pilot. In back are mission specialists: Stephen K. Robinson (left), Andrew S. W. Thomas, Charles J. Camarda, and Soichi Noguchi. Image Courtesy: NASA. https://www.jyi.org/2005-october/2005/10/6/the-future-of-communications-the-next-revolution-in-applications-of-quantum-physics monthly 0.5 2017-11-06 https://www.jyi.org/2005-october/2005/10/6/isolation-and-plasmid-analysis-of-vancomycin-resistant-staphylococcus-aureus monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509998921127-G2RDD9QRSJAQ6KL25W3V/img0.jpg 2005, October - Isolation and Plasmid Analysis of Vancomycin-Resistant Staphylococcus Aureus Figure 1. Filter plates on mannitol salts agar yielded growth of small, yellow colonies of Gram-positive, cocci bacteria. (Top: Filter plate on bank note D67708529A, collected from snack cart outside hospital; Bottom: Filter plate on bank note C19248359F, collected from hospital gift shop). Pictures taken with 4.0 megapixel digital camera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509998973983-42WXPXNLO8RV9BQNR55L/image-asset.jpeg 2005, October - Isolation and Plasmid Analysis of Vancomycin-Resistant Staphylococcus Aureus Table 1. Growth of NB107 and NB122 in different concentrations of vancomycin. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999011411-9SO36Q206TM31FG0UERJ/image-asset.jpeg 2005, October - Isolation and Plasmid Analysis of Vancomycin-Resistant Staphylococcus Aureus Figure 2. Growth of strains NB107 and NB122 on mannitol salts supplemented with 0.0025 mg vancomycin per ml of mannitol salts solution. Pictures taken with 4.0 mega pixel digital camera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999035440-OX9JMZ57RVERFVGAC9AQ/img3.jpg 2005, October - Isolation and Plasmid Analysis of Vancomycin-Resistant Staphylococcus Aureus Figure 3. Gel of plasmid isolations. Lanes 1-4 represent NB122 without AO, NB107 without AO, NB122 with AO, and NB107 with AO, respectively, grown in solution with 0.018 mg vancomycin per ml. (Note: red box on gel shows the band of plasmid DNA from NB122 grown without AO.) https://www.jyi.org/2005-october/2017/11/6/review-advanced-glycation-end-products-ages-in-hyperglycemic-patients monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999272470-GJ9RVS2TUVD1JMPSTCZU/img0+%281%29.jpg 2005, October - REVIEW: Advanced Glycation End-products (AGEs) in Hyperglycemic Patients Figure 1. Structure of fluorophore P (Pentosidine). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999352108-PQ2ZRGDZ7XCEFLZAW2QZ/img1.jpg 2005, October - REVIEW: Advanced Glycation End-products (AGEs) in Hyperglycemic Patients Figure 2. Structure of carboxyl methyl lysine (CML). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999401700-H6H6ALUN5QT64SIWIAAY/img2.jpg 2005, October - REVIEW: Advanced Glycation End-products (AGEs) in Hyperglycemic Patients Figure 3. Structure formed by glycation of lysine residues in protein, fructoselysine (FL). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509999453372-XIXEPFP45MC205JIWCCR/img3.jpg 2005, October - REVIEW: Advanced Glycation End-products (AGEs) in Hyperglycemic Patients Figure 4. Aminoguanadine (AG), a structurally identified AGE inhibitor. https://www.jyi.org/2005-october/category/Features monthly 0.5 https://www.jyi.org/2005-october/category/Research monthly 0.5 https://www.jyi.org/2005-september daily 0.75 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/restoration-or-destruction-the-controversy-over-wolf-reintroduction monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172835165-ZINJ0WE2AAPPCL5B8YX7/image-asset.jpeg 2005, September - Restoration or Destruction: The Controversy over Wolf Reintroduction Figure 1. Noble animal or savage killer? A collared wolf from the Druid pack, Yellowstone National Park. Courtesy of NPS/Doug Smith. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172860530-GWMA6OZGCMKVC8RDHTYN/image-asset.jpeg 2005, September - Restoration or Destruction: The Controversy over Wolf Reintroduction Figure 2. Anti-wolf sentiments are strong. Protestors carry signs at a wolf open house in Helena, Montana. Much of the rhetoric of the anti-wolf movement is scientifically unsound, but pro-wolf activists also promote misconceptions. Courtesy of NPS/Norm Bishop. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172882198-INKGM9GD0JMP22RGYD69/image-asset.jpeg 2005, September - Restoration or Destruction: The Controversy over Wolf Reintroduction Figure 3. Native American prayer and blessing for wolves. Marcia Frazier, a Cherokee, and John Potter, an Objibwa, bless the arrival of wolves at Blacktail pen in Yellowstone National Monument. Courtesy of NPS/Jeanne Johnson. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172901127-2X4Z4CKA4257N1FAYSCI/image-asset.jpeg 2005, September - Restoration or Destruction: The Controversy over Wolf Reintroduction Figure 4. Beaver carrying twigs in Yellowstone National Park. Since wolf reintroduction in Yellowstone, beavers have had more trees for food and shelter, and their population has increased. Courtesy of NPS/Jim Peaco. https://www.jyi.org/2005-september/2005/9/8/science-and-storms-predicting-the-unpredictable monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/media-review-stiff-the-curious-lives-of-human-cadavers monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/in-search-of-a-quick-fix-the-controversy-behind-the-ailing-chesapeake-oysters monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172344633-F8WA4N56S5CSEP1B4HQV/img0+%281%29.jpg 2005, September - In Search of A Quick Fix: The Controversy Behind the Ailing Chesapeake Oysters Figure 1. Oyster Aquaculture Pens. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172431654-V4XPZYE3I88KL3MYXKUT/img1.jpg 2005, September - In Search of A Quick Fix: The Controversy Behind the Ailing Chesapeake Oysters Figure 2. Harvesting Oysters. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172439972-5QO8QP1S1DV0HY1D6AHG/img2.jpg 2005, September - In Search of A Quick Fix: The Controversy Behind the Ailing Chesapeake Oysters Figure 3. Wild Oysters. https://www.jyi.org/2005-september/2005/9/8/a-quest-to-understand-the-spices-of-life-the-antimicrobial-powers-of-spices monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172109060-BUUZQF4KK441KKURZH1F/image-asset.jpeg 2005, September - A quest to understand the spices of life: the antimicrobial powers of spices Figure 1. Paul Sherman: Spice Researcher. Spices were a change of pace for evolutionary biologist Paul Sherman, who usually focuses his research on natural selection and animal social behavior and is famous for his work on naked mole rats. Photo Courtesy of Frank DiMeo/Cornell University Photography. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172129239-4YNUJ8LWFCAS0F0PRPAB/img1.jpg 2005, September - A quest to understand the spices of life: the antimicrobial powers of spices Figure 2. Spices come from various woody shrubs and vines, trees, aromatic lichens, and the roots, flowers, seeds, and fruits of herbaceous plants. Cookbooks generally do not distinguish between herbs, which are usually used in their fresh state, and spices, which are generally dried before use. Photo courtesy of Thomas Neuhaus, Neuhaus Features. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172147882-XS9DYPYQB74K2ZRXXBDZ/img2.jpg 2005, September - A quest to understand the spices of life: the antimicrobial powers of spices Figure 3. Garlic and onion have powerful antimicrobial properties and grow in every country that was sampled in the study by Sherman and Billings. (Courtesy Stock.XCHNG). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172170191-U8YDI3M24KTE99F0TIL4/img3.jpg 2005, September - A quest to understand the spices of life: the antimicrobial powers of spices Figure 4. Relationship between mean annual temperature of the countries studied and the average number of spices called for per recipe of that country. As these data show, spice use increases with temperature. (Data modified from Billing and Sherman, 1998). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510172190987-AIOTR6TJPOPL4Z6Y7WBR/image-asset.jpeg 2005, September - A quest to understand the spices of life: the antimicrobial powers of spices Figure 5. Antimicrobial properties of 30 spices. The left-most spices represent the greatest inhibition of bacteria, with garlic, onion, allspice, and oregano all killing 1.0 (100%) of bacteria. The top line indicates all spices above that point kill at least 75% of bacteria, the next line indicating at least 50% of all bacteria inhibited. (Sherman and Billing, Bioscience). https://www.jyi.org/2005-september/2005/9/8/the-evolution-of-gene-nomenclature-from-white-to-defb24 monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510162063202-0LVFP4UJCQHVSULXB3HV/image-asset.jpeg 2005, September - The Evolution of Gene Nomenclature: From white to Defb24 Figure 1. T. H. Morgan with fly drawings. Courtesy of The Archives, California Institute of Technology. https://www.jyi.org/2005-september/2005/9/8/a-critique-of-the-uss-response-to-the-threat-of-bioterrorism monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/biochemical-techniques-to-produce-transgenic-plants monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510161640140-367PFMJLRLM7F63RZSTI/img0.jpg 2005, September - Biochemical Techniques to Produce Transgenic Plants article_484_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510161678507-083FQC11SC1SDCA3MOB6/image-asset.jpeg 2005, September - Biochemical Techniques to Produce Transgenic Plants article_484_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510161702297-SU6073UKIDQTKOR722ME/img2.jpg 2005, September - Biochemical Techniques to Produce Transgenic Plants article_484_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510161732958-KFWO4R2J37S3J269TL99/image-asset.jpeg 2005, September - Biochemical Techniques to Produce Transgenic Plants article_484_order_3 https://www.jyi.org/2005-september/2017/11/8/changing-of-the-guard-the-hubble-telescope-yields-to-the-next-generation monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510160108134-4VDB03RWGGMHWKHHKQA8/image-asset.jpeg 2005, September - Changing of the Guard: The Hubble Telescope Yields to the Next Generation article_483_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510160128357-Q50BTI8L3X6PRDJM81NX/image-asset.jpeg 2005, September - Changing of the Guard: The Hubble Telescope Yields to the Next Generation article_483_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510160150062-DGKV8NA062QZSWU0LLE6/img2.jpg 2005, September - Changing of the Guard: The Hubble Telescope Yields to the Next Generation article_483_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510160175481-GG3BOLR2UB1D9XG01GPW/img3.jpg 2005, September - Changing of the Guard: The Hubble Telescope Yields to the Next Generation article_483_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510160227247-BL84B01DG0HGQ3XHYBSN/img4.jpg 2005, September - Changing of the Guard: The Hubble Telescope Yields to the Next Generation article_483_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510160300262-UPVOE7WPEXFUE23XDPDL/img5.jpg 2005, September - Changing of the Guard: The Hubble Telescope Yields to the Next Generation article_483_order_5 https://www.jyi.org/2005-september/2005/9/8/82dsa4jjcv5c8vjzz4rpoiasjqa51t monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159760013-FHZ88PAC3EDD4II5X4UR/img0.jpg 2005, September - Microarray: A Technique Review article_490_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159802083-6KP3OTHEYB169SNCC2LZ/image-asset.jpeg 2005, September - Microarray: A Technique Review article_490_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159835919-G8NYHH2I1FYMUJGBMCZQ/image-asset.jpeg 2005, September - Microarray: A Technique Review article_490_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159881879-IN9HH5R1F05J0VBDTQVK/img3.jpg 2005, September - Microarray: A Technique Review article_490_order_3 https://www.jyi.org/2005-september/2005/9/8/sputnik-fellow-traveler-takes-america-for-a-ride monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/terrorism-vs-scientific-diligence-the-race-to-understand-and-contain-anthrax monthly 0.5 2018-11-03 https://www.jyi.org/2005-september/2017/11/8/the-science-of-fixing-stuff-or-if-i-can-do-quantum-mechanics-then-i-can-make-that-thing-stop-leaking monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159369940-SO24LJ55L4LC8CDO0537/img0+%281%29.jpg 2005, September - The Science of Fixing Stuff -or- If I Can Do Quantum Mechanics, Then I Can Make That Thing Stop Leaking article_487_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159423006-MGTCGTO2X261NQA29T5P/img1.jpg 2005, September - The Science of Fixing Stuff -or- If I Can Do Quantum Mechanics, Then I Can Make That Thing Stop Leaking article_487_order_1 https://www.jyi.org/2005-september/2005/9/8/regulation-of-gene-expression-a-new-role-for-an-alzheimers-protein monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510159201489-ZXNTN5MLI27CXG6JNL5F/image-asset.jpeg 2005, September - Regulation of Gene Expression: A New Role For an Alzheimer's Protein? article_505_order_0 https://www.jyi.org/2005-september/2005/9/8/defining-stem-cells monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/proteomics-pushing-the-frontiers-of-genomics monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/ethics-and-politics-biology-and-capitalism-the-case-of-human-embryonic-stem-cell-research-in-america monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/seeing-double-an-introduction-to-twinning monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/two-months-in-the-basement-research-opportunities-for-undergrads monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/8/thinking-out-of-the-box-the-intriguing-field-of-darwinian-medicine monthly 0.5 2017-11-08 https://www.jyi.org/2005-september/2005/9/7/gleevec-highlighting-the-power-of-rational-drug-design monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/string-theory-symmetry-in-multiple-dimensions monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/the-human-body-beneath-the-sea monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510085370214-0GV0PA8HKOWZ6JQBKF28/image-asset.jpeg 2005, September - The Human Body Beneath the Sea article_495_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510085389313-I2XYAUCMS4X7IU8I1ZF3/image-asset.jpeg 2005, September - The Human Body Beneath the Sea Table 1. Pressure and Volume Dependence on Depth https://www.jyi.org/2005-september/2017/11/7/betwixt-and-between-a-semester-in-turkey monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084797429-F8LUJ16QDUQ9GVGWIOUL/image-asset.jpeg 2005, September - Betwixt and Between: A Semester in Turkey article_492_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084867071-U5KWMG51VG2GGMGXZZLB/image-asset.jpeg 2005, September - Betwixt and Between: A Semester in Turkey article_492_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084886956-KK9IDEAZS25CVUQ8F1BG/img2.jpg 2005, September - Betwixt and Between: A Semester in Turkey article_492_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084952916-CWSC279392H36M9MNKIP/image-asset.jpeg 2005, September - Betwixt and Between: A Semester in Turkey article_492_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084981046-S3HAGVJT47I8PPMTY2LV/image-asset.jpeg 2005, September - Betwixt and Between: A Semester in Turkey article_492_order_4 https://www.jyi.org/2005-september/2005/9/7/theres-something-in-the-water-a-look-at-disinfection-by-products-in-drinking-water monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/smallpox-historical-review-of-a-potential-bioterrorist-tool monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084330920-V47UFAAIROGG3M8DNL9N/image-asset.jpeg 2005, September - Smallpox: Historical Review of a Potential Bioterrorist Tool article_528_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084388430-6Q69M2L3VCEC1HQ7HJOW/image-asset.jpeg 2005, September - Smallpox: Historical Review of a Potential Bioterrorist Tool article_528_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084417912-TF4S2PJMH1QN1U09P38F/image-asset.jpeg 2005, September - Smallpox: Historical Review of a Potential Bioterrorist Tool article_528_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084466305-U9MGHJWXSZSS3TGA3Y8B/image-asset.jpeg 2005, September - Smallpox: Historical Review of a Potential Bioterrorist Tool article_528_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084492557-KJ3ETODX09NAUAQCOCH7/img4.jpg 2005, September - Smallpox: Historical Review of a Potential Bioterrorist Tool article_528_order_4 https://www.jyi.org/2005-september/2005/9/7/the-human-genome-project-progress-toward-understanding-our-genetic-material monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/journalist-to-science-writer-jennifer-donovan-discovers-her-passion monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510084014392-9OQ8O15ZMHL121IHWW8H/image-asset.jpeg 2005, September - Journalist to Science Writer: Jennifer Donovan Discovers Her Passion article_525_order_0 https://www.jyi.org/2005-september/2005/9/7/homeopathy-the-art-of-micro-dosage monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510083862094-NNQGWW5OGKSENH9W6IEJ/image-asset.jpeg 2005, September - Homeopathy: The Art of Micro-dosage article_523_order_0 https://www.jyi.org/2005-september/2005/9/7/rodent-parvoviruses-non-human-viruses-that-affect-human-health monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510083629640-K72C5Y5OSDSMVLLNS8CW/img0+%281%29.jpg 2005, September - Rodent Parvoviruses: Non-human Viruses That Affect Human Health article_522_order_0 https://www.jyi.org/2005-september/2005/9/7/alzheimers-disease-a-brief-history-and-avenues-for-current-research monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/hungering-for-help-genetically-modified-foods-and-the-developing-world monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/thoughts-on-presenting-a-poster-science-sun-and-sea-world-at-the-2002-spring-american-chemical-society-meeting monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/in-search-of-darkness-the-quest-to-observe-one-of-natures-most-curious-astronomical-constructions monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/camille-mojica-rey-like-many-of-her-colleagues-did-not-plan-on-being-a-science-writer monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082946258-8Z5UBK6AO1MTA662FPE6/img0+%281%29.jpg 2005, September - Camille Mojica Rey, like many of her colleagues, did not plan on being a science writer. article_515_order_0 https://www.jyi.org/2005-september/2005/9/7/macgyvers-in-the-making-a-how-to-guide-for-starting-your-own-science-enrichment-program monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082638525-WESGMW28KBRUE5SRMB8B/image-asset.jpeg 2005, September - MacGyvers in the Making: A How-To Guide for Starting Your Own Science Enrichment Program article_514_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082662442-F5P089N5VCYF5CTSKEE8/img1.jpg 2005, September - MacGyvers in the Making: A How-To Guide for Starting Your Own Science Enrichment Program article_514_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082683594-4BRWWGBTANMJH48KQ91W/image-asset.jpeg 2005, September - MacGyvers in the Making: A How-To Guide for Starting Your Own Science Enrichment Program article_514_order_2 https://www.jyi.org/2005-september/2005/9/7/merging-chinese-traditional-medicine-into-the-american-health-system monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082452542-DNNXH4VK0B3CNKNGSK46/image-asset.jpeg 2005, September - Merging Chinese Traditional Medicine into the American Health System The yin-yang symbol (Courtesy of www.newton.mec.edu) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082483393-4UEXKXSPKI0Z5YCM2QCB/image-asset.jpeg 2005, September - Merging Chinese Traditional Medicine into the American Health System Laminaria (kun bu in Chinese), thought in Chinese medicine to alleviate ailments relating to the liver and kidneys. (Courtesy of www.chineseherbs.com) https://www.jyi.org/2005-september/2005/9/7/looks-can-be-deceiving-the-case-of-escherichia-coli monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082160037-Z5UD5G47YI2X8VB8FTS9/img0.jpg 2005, September - Looks can be deceiving: the case of Escherichia coli article_532_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082180911-ODBYR13CE3ZTR80OGE9G/image-asset.jpeg 2005, September - Looks can be deceiving: the case of Escherichia coli Left: E. coli cells are rod-shaped and flagellated. Right: E. coli colonies grow readily on an agur plate. Courtesy of University of Wisconsin-Madison Department of Bacteriology, 2002, http://www.bact.wisc.edu/Bact330/lectureecoli https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510082205693-T3AG5C4TF2UW45HPI08Y/image-asset.jpeg 2005, September - Looks can be deceiving: the case of Escherichia coli article_532_order_2 https://www.jyi.org/2005-september/2005/9/7/so-you-wanna-be-an-astronomer monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/looking-good-the-psychology-and-biology-of-beauty monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081781023-010I00Q73O8C3HC1IDTH/img0+%281%29.jpg 2005, September - Looking Good: The Psychology and Biology of Beauty Model Cindy Crawford, an example of symmetry Image courtesy of www.cindy.com https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081811189-1U1S18JKZEWO0G15WWUQ/image-asset.jpeg 2005, September - Looking Good: The Psychology and Biology of Beauty Female zebra finches prefer males with symmetric colorings. Image courtesy of www.finchworld.com/zebra.html https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081831259-RMIT2EH7MF7EXCG3ZSWG/image-asset.jpeg 2005, September - Looking Good: The Psychology and Biology of Beauty Sizing up the wasit-to-hip ratio: In general, men prefer women with a low WHR. Image courtesy of health.discovery.com https://www.jyi.org/2005-september/2005/9/7/exploring-the-botox-fad monthly 0.5 2017-11-07 https://www.jyi.org/2005-september/2005/9/7/static-electricity-toxic-dust-and-the-red-planet-how-nasa-is-preparing-to-send-humans-to-mars monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081258416-FJ2BKFJO77G1GW89SLV1/img3.jpg 2005, September - Static Electricity, Toxic Dust, and the Red Planet: How NASA is Preparing to Send Humans to Mars article_535_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081305263-CHBOGJILPYOFLM44AYZ1/image-asset.jpeg 2005, September - Static Electricity, Toxic Dust, and the Red Planet: How NASA is Preparing to Send Humans to Mars article_535_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081337433-7JGS0GFVFHWCMS5P02K0/img1.jpg 2005, September - Static Electricity, Toxic Dust, and the Red Planet: How NASA is Preparing to Send Humans to Mars article_535_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081422234-H3WLNPYI555GMCGZGIIK/image-asset.jpeg 2005, September - Static Electricity, Toxic Dust, and the Red Planet: How NASA is Preparing to Send Humans to Mars article_535_order_2 https://www.jyi.org/2005-september/2017/11/7/science-on-the-radio monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510081004645-C91JK3JU4OI8JWSDANEW/img0+%281%29.jpg 2005, September - Science on the Radio Bob McDonald, host of CBC Radio Quirks and Quarks Photo by Ren&eacute;e I.A. Mercuri https://www.jyi.org/2005-september/2005/9/7/cant-get-enough-of-umami-revealing-the-fifth-element-of-taste monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080760105-18DI1BBNS0UYF7MQ2CVQ/image-asset.jpeg 2005, September - Can't Get Enough of Umami: Revealing the Fifth Element of Taste Figure 1. Only pinches of MSG are enough to induce maximum pleasantness in food. The International Glutamate Organization presented studies in which about 0.6% MSG in clear soup and 0.37% MSG in fried rice yielded optimum umami flavor. Source: International Glutamate Organization (www.glutamate.org) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080785934-9A85VZ2VTK6VNWGXAFBU/image-asset.jpeg 2005, September - Can't Get Enough of Umami: Revealing the Fifth Element of Taste Figure 2. Free glutamate induces umami flavor in many common foods. Source: International Glutamate Organization (www.glutamate.org). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080819800-759IP43OXERGJGKXF3ZD/img2.jpg 2005, September - Can't Get Enough of Umami: Revealing the Fifth Element of Taste Figure 3. Distribution of glutamate presence in the human body. The brain and the muscles are most hungry for glutamate for two crucial functions: neurotransmission and cell metabolism. Glutamate is a non-essential amino acid, meaning it is made in the body as well as ingested with food, resulting in its abundancy and great demand in our body. Source: International Glutamate Organization (www.glutamate.org). https://www.jyi.org/2005-september/2005/9/7/dont-let-west-nile-take-a-bite-out-of-you monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080485859-BM5U2J7E8O3MNZO54ZJF/image-asset.jpeg 2005, September - Don't Let West Nile Take A Bite Out of You! Figure 1. Reported cases of West Nile Virus in the United Sates in 2003 (data current as of October 22, 2003). Numbers in parentheses correspond to the number of human cases per state. Source: Centers for Disease Control and Prevention. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080505218-YACDN2I7ORWW2W8P441R/img1.jpg 2005, September - Don't Let West Nile Take A Bite Out of You! Figure 2. Some steps to prevent the spread of West Nile Virus. From left to right: remove standing water from outdoor containers, use mosquito repellent containing DEET, wear long shirts and spray clothing with insect repellent to deter mosquitoes. Source: Centers for Disease Control and Prevention. https://www.jyi.org/2005-september/2005/9/7/food-for-thought monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080323833-WK0LOJW220M47IGR3ASB/img0.jpg 2005, September - Food For Thought! Figure 1. Peanuts and peanut-containing foods are commonly known sources of food allergies. Source: Scott Bauer/United States Department of Agriculture. https://www.jyi.org/2005-september/2005/9/7/florida-manatees-on-the-brink-of-extinction monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510080176745-GVY7UEHFWLNBAUP0BRM9/image-asset.jpeg 2005, September - Florida Manatees: On the Brink of Extinction Florida manatee (Trichechus manatus). Source: U.S. Fish and Wildlife Service/Galen Rathbun. https://www.jyi.org/2005-september/2005/9/7/fear-not-traveling-salesmen-dna-computing-is-here-to-save-the-day monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079952589-WT9KL6UL7YVAEZN53JV9/img0.jpg 2005, September - Fear Not Traveling Salesmen, DNA Computing is Here to Save the Day Figure 1. A sample traveling salesman problem involving the shortest path connecting all cities. Arrows indicate the direction that someone can travel. For example, a voyager can leave Atlanta and arrive in St. Louis, and vice versa. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079982394-EPVZNANMJ0VY6BED80OC/image-asset.jpeg 2005, September - Fear Not Traveling Salesmen, DNA Computing is Here to Save the Day Figure 2. Molecular realization of an automaton. An input DNA molecule (green/blue) provides both data and fuel for the computation. Software DNA molecules (red/purple) encode program rules, and the restriction enzyme FokI (colored ribbons) functions as the automaton's hardware. A finite-state automaton that analyzes its input (a list of a's and b's) according to program rules depicted as labeled arrows, ends the computation in S0 if the input has an even number of a's and in S1 otherwise. Source: Weizmann Institute of Science. https://www.jyi.org/2005-september/2005/9/7/risks-of-smallpox-vaccination-give-cause-for-concern monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079712340-4RLY2EFXSRTRYOW7R64X/image-asset.jpeg 2005, September - Risks of smallpox vaccination give cause for concern Electron micrograph of variola, the virus that causes smallpox. Source: CDC/Fred Murphy; Sylvia Whitfield. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079756264-NYDIJYGAR9GXMRYNQ4WJ/image-asset.jpeg 2005, September - Risks of smallpox vaccination give cause for concern Smallpox vaccination kit. Dryvax smallpox vaccine with diluent (top) and bifurcated needle for delivery (bottom). Source: CDC. https://www.jyi.org/2005-september/2005/9/7/a-new-medical-breakthrough-wart-to-do-when-verruca-vulgaris-attacks monthly 0.5 2017-11-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079510319-Z2SD57JWAGSZZTLSFR8F/image-asset.jpeg 2005, September - A New Medical Breakthrough: Wart to do when Verruca vulgaris Attacks Figure 1. Warts affect three out of every four people, making them the most common dermatological complaint after acne. Courtesy of WebMD, Hunterdon Healthcare System.) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079543314-QQ5LCA9W1I5CBSR0ONWT/image-asset.jpeg 2005, September - A New Medical Breakthrough: Wart to do when Verruca vulgaris Attacks Figure 2. Duct tape is composed of three layers. A layer of fabric mesh (2) is enveloped by a layer of rubber-based adhesive (1) and a layer of polyethylene plastic (3). Courtesy of Duct Tape Guys. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510079568552-NJR1DT5VKV9BH6JUGL66/img2.jpg 2005, September - A New Medical Breakthrough: Wart to do when Verruca vulgaris Attacks article_546_order_2 https://www.jyi.org/2005-september/2005/9/6/male-vs-female-gender-conflict-as-an-evolutionary-force monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003808087-0U4YEY2K4WPH9A76MX0G/image-asset.jpeg 2005, September - Male vs. Female: Gender Conflict as an Evolutionary Force article_545_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003837742-T5KQ1NQPOYJGRDVLOE98/image-asset.jpeg 2005, September - Male vs. Female: Gender Conflict as an Evolutionary Force article_545_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003865737-CPY73KTURQVQDEHM37JL/img2.jpg 2005, September - Male vs. Female: Gender Conflict as an Evolutionary Force article_545_order_2 https://www.jyi.org/2005-september/2005/9/6/lava-lamp-moon-the-search-for-life-on-europa-may-just-have-gotten-easier monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003528964-JZ7PTUG3EXTJBBF7LVD5/image-asset.jpeg 2005, September - Lava Lamp Moon: The Search for Life on Europa May Just Have Gotten Easier Lenticulae: The odd reddish splotches in the center of this image may be the key to finding life on Europa. The splotches, or lenticulae, may represent areas of warm water from Europa's underground ocean. (Click to view larger image) Courtesy of Galileo Project, NASA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003571706-A4K0JVT3G37LJ8A322U2/image-asset.jpeg 2005, September - Lava Lamp Moon: The Search for Life on Europa May Just Have Gotten Easier Jagged and broken surface: In addition to extensive ice ridges, enormous blocks of ice chaotically break Europa's surface. This image shows mountains of ice on the small moon. (Click to view larger image) Courtesy of Galileo Project, NASA https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003601917-EDB2IUKC0C325FKXF9GH/image-asset.jpeg 2005, September - Lava Lamp Moon: The Search for Life on Europa May Just Have Gotten Easier Ice ridges: Europa's surface is like a giant ball of twine - but each thread is a ridge of solid ice, kilometers high. This image shows many intersecting ice ridges. (Click to view larger image) Courtesy of Galileo Project, NASA https://www.jyi.org/2005-september/2017/11/6/banana-vaccines-a-conversation-with-dr-charles-arntzen monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003153787-9ODN7JR3IKZCEMM4Q9IF/img0.jpg 2005, September - Banana Vaccines: A Conversation with Dr. Charles Arntzen Dr. Charles Arntzen displays some of his vaccine-carrying tomatoes. (Photo courtesy of Arizona State University and the Flinn Foundation) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003202774-AE4H00FQBDPB57KZXXWT/image-asset.jpeg 2005, September - Banana Vaccines: A Conversation with Dr. Charles Arntzen article_543_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510003233242-9FYXZYD7C0ZU0JWQLSCM/image-asset.jpeg 2005, September - Banana Vaccines: A Conversation with Dr. Charles Arntzen Will these bananas one day replace vaccination with needles? (Photos courtesy of the Botanical Society of America and Disaster Relief) https://www.jyi.org/2005-september/2005/9/6/happy-meals-in-kitty-hawk-how-the-wright-brothers-spawned-a-burger-nation monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002757318-B4GDUGW4MU5R4EURJMG6/img0+%281%29.jpg 2005, September - Happy Meals in Kitty Hawk: How the Wright Brothers Spawned a Burger Nation First flight - Orville Wright leaves the ground in the first manned, fully steerable, propelled aircraft Dec. 17, 1903. He is watched by his brother Wilbur and their friend, John Daniels, who took the photograph. Image courtesy of the Wright Brothers Aeroplane Company and Museum of Pioneer Aviation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002804568-Z45BL7RRTPQG560MNG02/image-asset.jpeg 2005, September - Happy Meals in Kitty Hawk: How the Wright Brothers Spawned a Burger Nation Thomas Midgley was a chemist who discovered leaded gasoline and Freon - both of which have had profound effects on our lives today. Drawing courtesy of University of Pennsylvania Library. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002837339-PH79LUXZOTVS8Y0LC6OP/image-asset.jpeg 2005, September - Happy Meals in Kitty Hawk: How the Wright Brothers Spawned a Burger Nation Household refrigerators were just entering the market in the 1920s. These refrigerators used poisonous gases as coolants, and caused several deaths. Their dangers led to the discovery of Freon, a nontoxic coolant. Image from the Association of Home Appliance Manufacturers. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002859354-MQT35Y6VCL9D4RZRMALL/image-asset.jpeg 2005, September - Happy Meals in Kitty Hawk: How the Wright Brothers Spawned a Burger Nation Ray Kroc, once a paper cup salesman, founded the McDonald's fast-food empire in the 1950s. Photo courtesy www.mcdonalds.com. https://www.jyi.org/2005-september/2005/9/6/physics-first-in-science-education-reform monthly 0.5 2017-11-06 https://www.jyi.org/2005-september/2005/9/6/yams-of-fortune-the-uncontrolled-birth-of-oral-contraceptives monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002294149-I8T38WOXKJP9BVLQIDG7/image-asset.jpeg 2005, September - Yams of Fortune: The (Uncontrolled) Birth of Oral Contraceptives Russell Marker during his years at Pennsylvania State University Courtesy of Pennsylvania State University https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002356293-QMWJGHUZMTXRLG7R3ORU/image-asset.jpeg 2005, September - Yams of Fortune: The (Uncontrolled) Birth of Oral Contraceptives Figure 1: An overview of the menstrual cycle. Progesterone is critically important in controlling this progression of events and thus the ability to medically manipulate progesterone led to the development of birth control. Courtesy of Holistic Online https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002391652-LDCZWZYTFZ6AMHD9ELPU/image-asset.jpeg 2005, September - Yams of Fortune: The (Uncontrolled) Birth of Oral Contraceptives Figure 2: The molecular structure of diosgenin, the precursor for progesterone isolated from yams Courtesy of www.friedli.com/herbs/phytochem/ glycosides.html https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002418875-EGW00EOVJ7TACSCFSH89/image-asset.jpeg 2005, September - Yams of Fortune: The (Uncontrolled) Birth of Oral Contraceptives Figure 3 : Veracruz, Mexico, in the eastern region of Mexico, was the source of Marker's wild yams Courtesy of http://shunya.net/Pictures/Mexico/mexico-map.jpg https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510002447448-XNYYP3G6NUEXQ6PD4Y6G/img4.jpg 2005, September - Yams of Fortune: The (Uncontrolled) Birth of Oral Contraceptives Oral Contraceptives - "the Pill" that developed out of Marker's work Courtesy of University of Arizona Campus Health https://www.jyi.org/2005-september/2017/11/6/identification-of-dna-sequences-of-long-terminal-repeat-retrotransposons-in-maize monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001262531-P0Q9YZTA2VQPX0UK4E3L/img0+%281%29.jpg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Table 1. 130 Zea mays BAC sequence. This table gives a breakdown of how many genes and LTRs were found in a given accession number. The summary table demonstrates the entire length of the one hundred and thirty sequence (18,893,776 bps). From this there were only 291 genes and 1088 LTRs found. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001321042-87USE7NJAXXIBLOZRUKE/img1.jpg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Table 2. LTR Frequency. This table gives a numerical breakdown of the most common LTRs found. Ji was the most common with 371 occurrences, followed by Huck and Opie with 267 and 212 respectively. The remaining 238 LTRs were assorted. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001408038-8655U69JF3NKNZ69MUSH/img2.jpg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Figure 1. Graph of LTR Frequency. Graphical depiction of the data presented in Table 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001431786-NH2XZVUJ4P07IWY7ZN77/image-asset.jpeg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Figure 2. Copia and Gypsy element familes. Here is a tree diagram depicting element type. Ji, Opie, Prem, Victim, Fourf, and Hopscotch are all Copia elements. Huck, Grande, Cinful Tekay, Milt, Reina, and Magillan are all Gypsy elements. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001459086-WGR8YC32QEHXKC4PL0M2/image-asset.jpeg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Figure 3. Structural comparison of Copia, Gypsy, and Retroviruses. This figure demonstrates the structural differences between Copia and Gypsy element, and then compares them to retroviruses. Gag is an intracellular packaging of the RNA transcript. EN is an endonuclease associtated with the integration into the genome. RT is a reverse transcriptase. Prot is a protease. Int is an intergase that mediates the specific DNA cleavage required for excision and integration. When these elements are compared to retrovirus it is apparent that they are very similar. Retroviruses contain all these components and one more; Env which is an envelope protein.   https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001494545-A22YJJIS0BROHBH7I5KR/img5.jpg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Figure 4. Phylogenic analysis of LTRs from AC148165 to AC148243. This diagram is comprised of the LTRs from accession numbers AC148165 to AC148243. LTRs of a common ancestor cluster together. A number is assigned after the element to identify the many variations (e.g. Ji1, Ji2, etc.). All the Ji's are grouped together. However, there is some deviation. Grande4 is in the middle of a Huck cluster. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001529303-38MXIFFNSCZQCA88LSSM/image-asset.jpeg 2005, September - Identification of DNA Sequences of Long Terminal Repeat Retrotransposons in Maize Figure 5. Physical map. This map is for AC150631. The total length of this BAC sequence is 178354 bps. This shows that LTRs are distributed randomly and that not every sequence will contain genes. BLAST and LTR_STRUC contained different results from one another, however both are correct. The positive and negative annotation refers to the direction in which it is transcribed. https://www.jyi.org/2005-september/2005/9/6/effect-of-cadmium-on-the-growth-of-chlamydomonas monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000984931-P951IEWZU22YVZQ5ELJ1/image-asset.jpeg 2005, September - Effect of cadmium on the growth of Chlamydomonas Figure 1. Growth of Chlamydomonas reinhardtii in 100 ml of 3 M medium with vitamins containing CdCl2 at different concentrations (0-100 mg/L). Error bars represent standard deviations. Curves were fit by regression analysis. A) 0 mg/L CdCl2; (Control); B) 10 mg/L CdCl2; C) 25 mg/L CdCl2; D) 50 mg/L CdCl2; E) 75 mg/L CdCl2; F) 100 mg/L CdCl2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001011623-64WEZWEF4FS0MXQZFCB2/img1.jpg 2005, September - Effect of cadmium on the growth of Chlamydomonas Figure 2. Chlorophyll content of Chlamydomonas reinhardtii in 100 ml of 3 M medium with vitamins containing CdCl2 at different concentrations (0-100 mg/L). Error bars represent standard deviations. Curves were fit by regression analysis. A) 0 mg/L CdCl2 (Control); B) 10 mg/L CdCl2; C) 25 mg/L CdCl2; D) 50 mg/L CdCl2; E) 75 mg/L CdCl2; F) 100 mg/L CdCl2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510001037205-UR53OTHNH91CQUIKK9EI/image-asset.jpeg 2005, September - Effect of cadmium on the growth of Chlamydomonas Table 1. pH values in Chlamydomonas reinhardtii cultures with various concentrations of CdCl2 (0-100 mg/L) after 14 days. https://www.jyi.org/2005-september/2005/9/6/analyzing-nucleosome-repositioning-and-positioning-on-the-ph05-promoter-photochemically monthly 0.5 2017-11-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000522035-2OPK7IRJL3Q0BY99HFT3/img0+%281%29.jpg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 1. Nucleosome. Model of a nucleosome that includes the octamer of four different classes of histones and 147bp of DNA (Chromosome Organization 2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000547960-LMAGPKSXERQNEH1N8J84/img1.jpg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 2a. DNA sequence for yH4 wild type. DNA sequence for the yH4 prior to mutation. Letters in bold represent amino acids that the DNA codes for. Yeast histone H4 will be mutated to have the amino acid C, cysteine, on the 47th base pair instead of serine (S). Figure includes amino acid methionine, as 1st amino acid, which is why figure presents mutation on 48th base pair. Methionine will be removed in this protocol. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000588720-UIERGYUOJHV5QPW9UUM0/image-asset.jpeg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 2b. DNA sequence for yH2B wild type. DNA sequence for the yH2B prior to mutation. Letters in bold represent amino acids that the DNA codes for. Yeast histone H2B will be mutated to have the amino acid C, cysteine, on the 59th base pair instead of glutamine (Q). Figure includes amino acid methionine, as the first amino acid, which is why the figure presents mutation on the 60th base pair. Methionine will be removed in this protocol. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000633718-14ULR9KBP7XU924X8OI9/image-asset.jpeg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 3. The pET-28a+ plasmid vector. The pET-28a+ plasmid vector was the vector for yH2B, yH2A, and yH4. During PCR (when amplifying and mutating the sequence for yH2B and yH4 plasmids), mutated primers were inserted at the restriction sites Xho1 158 and Xba1 335. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000673977-GF7R2CXW9X27NCSK7IZI/image-asset.jpeg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 4. 1% Agarose gel for yH4 mutant. After purifying the mutant plasmid, the plasmid was run on a gel with a standard to verify the presence of DNA and its concentration. Two yH4 plasmids were mutated in the experiment; A, B, and C represent one copy at different volumes, while A1, B1, C1 represent the other copy. The first copy was later the one chosen to be used to make the octamer. The standard (-306 HTLV promoter DNA) was added in different concentrations: 5, 10, 20, 50, and 100 ng. It was concluded that the yH4 plasmid DNA was about 100 ng/ul by comparing A' with the standard bands of DNA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000707755-M3KX3EY7OCJZCZ34IBFF/image-asset.jpeg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 5. 1% Agarose gel for yH2B mutant. After purifying the mutant plasmid, the plasmid was run on a gel with a standard to verify the presence of DNA and its concentration. A, B, and C represent the different volumes of plasmid loaded (1 ul, 2 ul, and 4 ul). The standard (-306 HTLV promoter DNA) was added in different concentrations: 5, 10, 20, 50, and 100 ng. It was concluded that the yH2B mutant plasmid DNA was about 20 ng/ul by comparing A' with the standard bands of DNA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000734864-OLA2SPZHUSAY3DEPY892/image-asset.jpeg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 6. Sequenced yH4 mutant. Results of sequencing the yH4 after PCR and plasmid isolation. Notice the codon and amino acid change on the 48th base pair (the 47th when methionine on 1st bp is removed); the amino acid has been changed from a serine to a cysteine. Mutation was successful. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000768538-VNGLTA9L7KDXPVEMKDMD/img7.jpg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 7. Sequenced yH2B mutant. Results of sequencing the yH2B after PCR and plasmid isolation. Notice the codon and amino acid change on the 60th base pair (59th when methionine on 1st bp is removed); the amino acid has been changed from a glutamine to a cysteine. Mutation was successful. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000794315-Y80QQFXC7P54OBA2IU2Q/img8.jpg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 8. SDS Page gel for expression of xH2B. The expression of the positive control xH2B was successful. M represents the SDS PAGE Biorad marker used. The thick band in B, C, and D represent the xH2B protein expressed by the BL21 (DE3) Codon Plus Competent Cells. Two samples grown in 2 ml of cells that were expressing xH2B were used on the gel. A and B represent cells prior to induction. and C and D represent cells two hours after induction. The well between C and D was an overlap of well D, and is ignored. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510000823150-4NDFWNYVAEZT0ZKK3DUI/image-asset.jpeg 2005, September - Analyzing Nucleosome Repositioning and Positioning on the PH05 promoter photochemically Figure 9. SDS PAGE gel for expression of yH2B wild and yH2B mutant. The histones yH2B wild and yH2B mutant were expressed successfully two hours after induction. M represents the SDS PAGE Biorad marker used. Two samples grown in 2 ml of cells that were expressing yH2B mutant or yH2B wild were used on the gel. A and B represent yH2B wild prior to induction. C and D represent yH2B wild two hours after induction. The bands of yH2B wild protein are very prominent in C and D. E and F represent the cells transformed with yH2B mutant prior to induction, and G and H represent those cells two hours after induction. Note that G and H present a sharp band of yH2B mutant protein. https://www.jyi.org/2005-september/category/Features monthly 0.5 https://www.jyi.org/2005-september/category/Research monthly 0.5 https://www.jyi.org/2005-august daily 0.75 2017-11-08 https://www.jyi.org/2005-august/2005/8/8/investigating-the-truth-behind-csi monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510175797750-51AQ9XY0O1MDHAHTTRX5/image-asset.jpeg 2005, August - Investigating the truth behind CSI https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510175811962-4IL2R87576Y4OKIQPBWP/image-asset.jpeg 2005, August - Investigating the truth behind CSI www.forensicscience.uwa.edu.au/ https://www.jyi.org/2005-august/2005/8/8/awakening-the-sleeping-bones-scientific-access-and-the-woman-of-flores monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510175523269-LWUY4XICAFU0V7ALKNNA/image-asset.jpeg 2005, August - Awakening the Sleeping Bones: Scientific Access and the Woman of Flores Liang-Bua: the Real Cave of Wonders. Photo Courtesy of Chris Turney, University of Wollongong. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510175544654-EOSVMHFU5K8CTTMGAQFB/image-asset.jpeg 2005, August - Awakening the Sleeping Bones: Scientific Access and the Woman of Flores Inside the excavation site. Photo Courtesy of Chris Turney, University of Wollongong. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510175569936-HQCF47O5I2RGDW16G2OY/image-asset.jpeg 2005, August - Awakening the Sleeping Bones: Scientific Access and the Woman of Flores An artistic rendering of Homo floresiensis. Courtesy of artist Peter Schouten and the National Geographic Society. https://www.jyi.org/2005-august/2005/8/8/microrna-a-revolution-in-gene-expression monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510174383135-TEI4D2UWLOIF650VE9PV/img0.jpg 2005, August - microRNA: A Revolution in Gene Expression Figure 1. A schematic representation of the Central Dogma showing the flow of information from DNA to RNA to protein. Image Courtesy of National Health Museum. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510174407475-2QO2WTA2QDLT8TITL3AE/image-asset.jpeg 2005, August - microRNA: A Revolution in Gene Expression Figure 2. microRNA initially forms the stem-loop structure. Image Courtesy of Juan Gonzales of UT Dallas. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510174433534-8Y1SG9KRN0ACVZ84A0ZC/img2.jpg 2005, August - microRNA: A Revolution in Gene Expression Figure 3. The schematic shows the major steps in miRNA processing and function. Image courtesy of Charles Mallery – University of Miami. https://www.jyi.org/2005-august/2005/8/8/does-spending-more-green-on-groceries-really-help-the-environment monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510174221137-XZ9LEQE5PT3KIL2BJZF1/img0+%281%29.jpg 2005, August - Does Spending More Green On Groceries Really Help the Environment? Figure 1. The USDA certified organic logo. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510174245284-EMLJMHSI93512N0FS063/image-asset.jpeg 2005, August - Does Spending More Green On Groceries Really Help the Environment? Figure 2. Mixed cropping, where two different species of crops are grown in the same field. Mixed cropping controls soil quality and weeds, like undersowing. (Photo Courtesy of HDRA) https://www.jyi.org/2005-august/2005/8/8/media-review-collapse-how-societies-choose-to-fail-or-succeed monthly 0.5 2017-11-08 https://www.jyi.org/2005-august/2017/11/8/review-strategies-for-neuronal-regeneration-after-spinal-cord-injury monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173813384-AEPOI27ZLEZSKWRBLST5/image-asset.jpeg 2005, August - Review: Strategies for Neuronal Regeneration after Spinal Cord Injury Figure 1. The most popular SCI model is the rodent contusion model, with a necrotic core surrounded by histologically normal-appearing myelinated fibers and portions of grey matter from both dorsal and ventral horns (left). Similar to human SCI pathophysiology, the cell loss continues radially in all directions so that the lesion expands over time. By 60 days post-SCI, there remains only a thin rim of white matter (right). Massive cell death, causing irreversible damage, occurs immediately after the initial impact in the central core region. However, cell death continues to occur over several days and weeks and offers an opportunity for therapeutic intervention to rescue the neural cell populations that are at risk of dying after the first few hours (Hulsebosch 2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173857906-18XSB4YMY97XAX2WGSIP/image-asset.jpeg 2005, August - Review: Strategies for Neuronal Regeneration after Spinal Cord Injury Figure 2. Corticospinal tract (CST) sprouting across the midline in the spinal cord after adenoviral vector neurotrophin 3 (Adv.EF -NT3) transduction of motoneurons. Dark-field photomicrographs of spinal cord cross sections showed the unlesioned CST axons. (A) Section from a normal rat (sham surgery). (B) Section from an Adv.EF -LacZ-treated rat (control vector). (C) Section from an Adv.EF -NT3-treated rat. CST neurites can be seen arising from the intact CST, traversing the midline, and growing into the grey matter of the lesioned side of the spinal cord. (A'-C') Higher-power photomicrographs of the regions around the central canal (Zhou et al. 2003). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173886850-R3WBE8CAAQANOQ77SRCE/img2.jpg 2005, August - Review: Strategies for Neuronal Regeneration after Spinal Cord Injury Figure 3. Remyelination of the rat spinal cord following transplantation of adult human precursor cells. Normal (A), demyelinated (B), and remyelinated axons (C) of the dorsal column. (D) Remyelinated axons at higher magnification. The anatomical pattern of myelination was similar to that produced by Schwann cells (arrows). (bar: A–C, 25 µm; D, 10 µm) (Akiyama et al. 2001). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173924634-XN5W81MU9KLYNC3VFCW2/img3.jpg 2005, August - Review: Strategies for Neuronal Regeneration after Spinal Cord Injury Figure 4. Schematic diagram of a piece of spinal cord that has sustained an initial injury (black central oval) that spreads progressively outward and radially (red circular region followed by orange circular region) in zones until it finally reaches the final lesion size (grey shaded area). Blue lines are axons, and green rectangles are the myelinating oligodendrocytes. Methods of intervention: 1) reduction of edema and free radical production, 2) rescue of neural tissue at risk of dying in secondary processes such as abnormally high extracellular glutamate concentrations, 3) control of inflammation, 4) rescue of neuronal/glial populations at risk of continued apoptosis, 5) repair of demyelination and conduction deficits, 6) promotion of neurite growth through improved extracellular environment, 7) cell replacement therapies, 8) efforts to bridge the gap with transplantation approaches, 9) efforts to retrain and relearn motor tasks, 10) restoration of lost function by electrical stimulation, and 11) relief of chronic pain syndromes (Hulsebosch 2002). https://www.jyi.org/2005-august/2005/9/8/detection-and-suppression-of-time-varying-magnetic-fields-that-adversely-affect-a-100-kev-electron-beam-orbit monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173276051-FOUVV58GZO5N0DM4MJ79/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 1. (left) 100 keV electron gun and beamline in the Test Lab, ITS at JLab. (top right) Close up view of DC steering magnets and iron solenoid magnets on the beamline. (bottom right) One hundred keV gun and beamline drawing schematics. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173333464-NT0ZNZI1YIZF2FCJ9ZI5/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 2. Surface area of the beamline magnetic field distribution measured with the AC Gauss meter. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173363379-T6CQISWMA9EG1P5Z8FWL/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 3. (left panel) Photographs of viewer ITVHG07 mounted inside the beampipe were taken to measure the initial displacement of the electron beam to be 5 mm. The photographs display the election beam at its farthest most points. (right panel) Photographs of viewer ITVHG07 were taken after power supplies were turned off to again measure the displacement of the electron beam. The photographs display the election beam at its farthest points and exhibit a 3.5 mm displacement. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173395527-QP6KAWU2JZK6GGN4ST50/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 4. Different materials, including lead, aluminum, and mumetal were tested to find the most efficient material in shielding time-varying magnetic fields. Mumetal proved to be the most efficient. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173421866-5B2ZISLNTLUA4Q4OGKB0/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 5. (top left) A sheet of mumetal (8" x 25") was laid over a sectioned off floor area. (top right) Mumetal "circular" shape on sectioned off floor area. (bottom left) Mumetal "U" shape on sectioned off floor area. (bottom right) Mumetal "L" shape on sectioned off floor area. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173466934-COYEETUX4TJBOJZU21EE/img5.jpg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 6. Different shapes of mumetal were tested with the AC Gauss meter to find the most efficient shape for suppressing the magnetic fields. The mumetal "circle" proved to shield best. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173496482-VCCSN8A7O40D4SV0F5XV/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 7. (top) Time-varying magnetic fields were measured inside a 2.5 inch diameter beam pipe (same diameter as the electron gun beampipe) with and without a mumetal enclosure using the AC Gauss meter. (bottom) Time-varying magnetic fields were measured inside the solenoid magnet, both with and without mumetal to see how the actual magnet is affected by the time-varying fields. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173520698-NFXZAHJX4ATAMSMUP847/img7.jpg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 8.. (top) The DC magnetic field was measured inside of the 2.5 inch diameter beam pipe using the F.W. Bell probe. The field was first measured with one Ampere of current directed through the steering magnet, and then mumetal was wrapped under the magnet and then outside of the magnet. (bottom) The DC magnetic field inside of a solenoid magnet was measured. The field was first measured with one Ampere of current directed through the coil and then wrapped with mumetal and measured again. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173585599-7GP1PFGVW2QQKNHAFNNO/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 9. Beam pipe and steering magnets being wrapped in mumetal. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510173611095-GFPMPMZW240YW5TGOEP2/image-asset.jpeg 2005, August - Detection and Suppression of Time-Varying Magnetic Fields that Adversely Affect a 100 keV Electron Beam Orbit Figure 10. Photographs of viewer ITVHG07 were taken after mumetal was wrapped around areas of the beamline to measure the displacement. The final displacement with 1/3 of the beam wrapped in mumetal was 1.5 mm. https://www.jyi.org/2005-august/category/Features monthly 0.5 https://www.jyi.org/2005-august/category/Research monthly 0.5 https://www.jyi.org/2005-july daily 0.75 2017-11-08 https://www.jyi.org/2005-july/2017/11/8/botanical-bio-warfare-how-plants-stop-pathogens monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177086996-STOM4WOMXWXD7DOJT4GT/img0.jpg 2005, July - Botanical Bio-Warfare: How Plants Stop Pathogens Figure 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177111045-N70754Q5H4F81NAXH29H/image-asset.jpeg 2005, July - Botanical Bio-Warfare: How Plants Stop Pathogens Figure 2. Host-pathogen recognition. If a plant has the appropriate R gene to correspond to the pathogen's Avr gene, then the plant is resistant and no disease develops. If, however, the plant does not have the matching R gene, the interaction may result in infection. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177155010-Z561CS265AARLF1MDGIB/img2.jpg 2005, July - Botanical Bio-Warfare: How Plants Stop Pathogens Figure 3. Pathogen-induced genome rearrangement in tobacco. Leaf A was treated only with buffer, while leaf B was infected with tobacco mosaic virus. The glowing spots represent cells in which homologous recombination has occurred. (Source: Kovalchuk Lab, University of Lethbridge) https://www.jyi.org/2005-july/2005/7/8/science-is-not-a-balancing-act monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176932981-MX1JOISRV5A092LFCX33/image-asset.jpeg 2005, July - Science is Not a Balancing Act https://www.jyi.org/2005-july/2005/7/8/science-fair-deception-and-competition-in-scientific-review monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176771315-C089HJXJMOPWXOZWW8AQ/img0.jpg 2005, July - "Science Fair" Deception and Competition in Scientific Review Hendrik Schon and coauthor Zhenan Bao researching organic transistors in 2001. Copyright © 2001 Lucent Technologies Inc. https://www.jyi.org/2005-july/2005/7/8/alternative-energy-or-alternative-oil-the-search-for-unknown-reservoirs monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176534517-NS5N5J5CAVN8RQRG5BQV/img0+%281%29.jpg 2005, July - Alternative Energy or Alternative Oil?: The Search for Unknown Reservoirs Figure 1. The "Hubbert Curve" for the continental U.S. Image Courtesy of Science Magazine. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176556112-5C7LP0FIWZMEO09V8ZOF/image-asset.jpeg 2005, July - Alternative Energy or Alternative Oil?: The Search for Unknown Reservoirs Figure 2. Non-uniform contact between the ground and the baseplate results in signal degradation. Source: ESA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176576187-4N7A7AI6GXMDIPVLDPAW/image-asset.jpeg 2005, July - Alternative Energy or Alternative Oil?: The Search for Unknown Reservoirs Figure 3. Thermal imaging is used to find signal obstructers such as mineral deposits near the surface. Source: ESA. https://www.jyi.org/2005-july/2005/7/8/understanding-who-we-are-30-years-since-lucy monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176339895-DE3L83SE9L2B7D3ZESWH/image-asset.jpeg 2005, July - Understanding Who We Are - 30 Years Since Lucy Figure 1. Lucy, pictured above, is famous both because of her skeletal completeness and because her species, Australopithicus afarensis, occupies a pivotal place in the evolution of hominids. Image Courtesy of The Institute of Human Origins, Arizona State University. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176364217-PLELISJ8VU7Y6G5V5RGK/image-asset.jpeg 2005, July - Understanding Who We Are - 30 Years Since Lucy Figure 2. Sunrise at Hadar, Ethiopia. Now a desert, Hadar once was an oasis supporting huge biological diversity – including ancestral hominids. Image Courtesy of The Institute of Human Origins, Arizona State University. https://www.jyi.org/2005-july/2005/7/8/between-the-sky-and-sea-how-the-oceans-may-affect-global-warming monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176130304-LT4IWGCD9O5M74D5TE1N/image-asset.jpeg 2005, July - Between the Sky and Sea: How the Oceans May Affect Global Warming Figure 1. Data show that most of the major greenhouse gases have been increasing since the 1980s. CFCs are an exception, since they are currently regulated. Image Courtesy: NOAA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176150316-14LD60GCWF2NHNA9MVED/image-asset.jpeg 2005, July - Between the Sky and Sea: How the Oceans May Affect Global Warming Figure 2. An overview of the global carbon cycle. Numbers in purple show the flux of grams of inorganic carbon per year. Source: NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176171028-GYYJJEDOV6GTYFDUL8PM/img2.jpg 2005, July - Between the Sky and Sea: How the Oceans May Affect Global Warming Figure 3. This lucifer shrimp, an animal-like zooplankton, is just one of many critters that make up the drifting community which includes plant-like phytoplankton. Source: Eric Vetter. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510176194123-WX2SWDW1SP8PBRE7ORFL/image-asset.jpeg 2005, July - Between the Sky and Sea: How the Oceans May Affect Global Warming Figure 4. A satellite image of a dust storm over China and Korea. The grey areas show pollution, which may help make the iron in the dust more available to plankton and increase their growth. Image courtesy: NASA. https://www.jyi.org/2005-july/category/Features monthly 0.5 https://www.jyi.org/2005-june daily 0.75 2017-11-09 https://www.jyi.org/2005-june/2005/7/8/water-woes-in-the-western-us monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510195896372-SK34463ZEPTRFX4V3K74/image-asset.jpeg 2005, June - Water Woes in the Western US https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510195919861-06TNXDJLOK6YE7JPV2YP/image-asset.jpeg 2005, June - Water Woes in the Western US https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510195995947-V30RPFKENJAWIJAFHHCD/img2.jpg 2005, June - Water Woes in the Western US https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510196033024-QGS887HB936YMSHQCKCE/img3.jpg 2005, June - Water Woes in the Western US https://www.jyi.org/2005-june/2005/6/8/the-dawn-of-the-living-talking-robots monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510195404793-DBYVTXVRSFLA9AGQ8PX4/image-asset.jpeg 2005, June - The Dawn of the Living, Talking Robots Bullseye pattern on petri dish of E.coli as viewed by fluorescence microscope. The receiver cells form a red and green, bullseye-coloured colony around a blue disk in the middle that contains the sender cells. Image courtesy of Dr. Ron Weiss. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510195459104-CENCIWKEAHYLR3HXEWVB/image-asset.jpeg 2005, June - The Dawn of the Living, Talking Robots A heart-shaped pattern on petri dish of E.coli as viewed by fluorescence microscope. Using a different number and alignment of sender cells, various patterns were obtained. Image courtesy of Dr. Ron Weiss. https://www.jyi.org/2005-june/2005/6/8/letter-from-jyi-co-founder-brian-su monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510194972086-PF6J8CZGFT3PH06T2UN0/img0.jpg 2005, June - Letter From JYI Co-Founder Brian Su https://www.jyi.org/2005-june/2005/6/8/a-closer-look-at-science-education-university-and-high-school-partnerships monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178470619-IIV7T5OLFUZS4TOX2ZOG/image-asset.jpeg 2005, June - A Closer Look at Science Education: University and High School Partnerships https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178515381-CM1A41LJ4YGUE8R9AO5C/img1.jpg 2005, June - A Closer Look at Science Education: University and High School Partnerships https://www.jyi.org/2005-june/2005/6/8/the-internet-communication-corruptor-or-language-liberator monthly 0.5 2017-11-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178238375-97VO86MFGCVGA0VY2VUO/image-asset.jpeg 2005, June - The Internet: Communication Corruptor or Language Liberator? Image 1. AOL's online messaging service, AOL Instant Messenger (AIM), is the most popular IM service in America. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178262800-Y6L4K9YA3RGGYMRSU1IR/image-asset.jpeg 2005, June - The Internet: Communication Corruptor or Language Liberator? Image 2. David Crystal, the author of Language and the Internet, describes the transition in language since the Internet. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178286427-A6R4TV5Z6U9C1RAJAB7I/img2.jpg 2005, June - The Internet: Communication Corruptor or Language Liberator? Image 3. A typical conversation through an online messaging service. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510178314166-6VFRNUWT51943IZ46DM6/image-asset.jpeg 2005, June - The Internet: Communication Corruptor or Language Liberator? Image 4. The Guardian had a text poetry contest in 2002. Participates sent entries through mobile phones to the judges. https://www.jyi.org/2005-june/2005/6/8/trust-in-the-dentist-patient-relationship-a-review monthly 0.5 2018-11-03 https://www.jyi.org/2005-june/2005/6/8/the-effects-of-centrifugation-and-filtration-as-pre-treatments-in-bacterial-retention-studies monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177915073-W0EB0ZBL5NH5TM7EXJ5S/img0+%281%29.jpg 2005, June - The Effects of Centrifugation and Filtration as Pre-Treatments in Bacterial Retention Studies Figure 1. Comparison of collision efficiencies (α for the filtered, single-step centrifuged, and multiple-step centrifuged conditions for Pseudomonas putida KT2442 and Escherichia coli HB101 in the batch retention tests. Mean collision efficiencies ± standard error for KT2442 are 1.20 ± 0.23 (n=40), 0.38 ± 0.010 (n=40), and essentially 0 (Not enough to accurately count the number retained, ie. _ = 0) for filtered, single-step centrifuged, and multiple-step centrifuged conditions respectively. For HB101, α values are 0.56 ± 0.06 (n=60), 0.29 ± 0.07 (n=60), and 0.26 ± 0.06 (n=60) respectively. All centrifugation steps were conducted for 10 minutes at 3,411 x g. Multi-step centrifugation refers to three rounds of centrifugation at these conditions, with washing in between with ultrapure water. https://www.jyi.org/2005-june/2005/6/8/the-role-of-pharyngeal-collapse-in-nocturnal-homeostasis-exploring-the-benefits-and-costs-of-a-vastly-prevalent-phenomenon-under-an-evolutionary-framework monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177643652-V81RR1N312PYZOKF7LQ8/img0.jpg 2005, June - The Role of Pharyngeal Collapse in Nocturnal Homeostasis: Exploring the Benefits and Costs of a Vastly Prevalent Phenomenon under an Evolutionary Framework Figure 1. Sagittal diagram of the head and neck depicting relevant structures of the upper airway. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177694597-NUSPXUWPYSIA3PK4TA0Q/image-asset.jpeg 2005, June - The Role of Pharyngeal Collapse in Nocturnal Homeostasis: Exploring the Benefits and Costs of a Vastly Prevalent Phenomenon under an Evolutionary Framework Figure 2. In fixed time period, t, there will be many more collisions in the cylinder with the smaller diameter. https://www.jyi.org/2005-june/2005/6/8/differences-in-badge-sizes-of-male-house-sparrows-at-food-sources-of-high-and-low-risk monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177435372-IN1O1LWJFYATTDILBPS0/img0+%281%29.jpg 2005, June - Differences in Badge Sizes of Male House Sparrows at Food Sources of High and Low Risk Figure 1: Percent time spent on or away from the side of the feeding area with a snake, in the high-risk condition, or the corresponding side, the low-risk condition. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510177457215-R1E9AHN7K1UFJKXN76H4/img1.jpg 2005, June - Differences in Badge Sizes of Male House Sparrows at Food Sources of High and Low Risk Figure 2: Badge sizes of males at each site. https://www.jyi.org/2005-june/category/Features monthly 0.5 https://www.jyi.org/2005-june/category/Research monthly 0.5 https://www.jyi.org/2005-may daily 0.75 2017-11-09 https://www.jyi.org/2005-may/2005/5/8/the-box-jellyfish-australias-other-marine-killer monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202711333-R43ZO5C88NQDZ8M9M3AG/img0.jpg 2005, May - The Box Jellyfish: Australia's Other Marine Killer This box jellyfish is similar to the species responsible for Irukandji Syndrome. (Image from bioweb.uwladb.edu) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202733021-1H05TPZ38YDB6BO5PTW4/img1.jpg 2005, May - The Box Jellyfish: Australia's Other Marine Killer The venom of an adult sea wasp is so powerful that the victim may not even have time to swim to shore. (Image from Cairnsholiday.com.au) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202786027-Q9FRYXXFAJCA86F241X7/img2.jpg 2005, May - The Box Jellyfish: Australia's Other Marine Killer Warning signs, like this one, are common along the North Queensland beaches. (Image from zoltantakacs.com) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202795517-HBV11MNQGW73P90G7U02/img3.jpg 2005, May - The Box Jellyfish: Australia's Other Marine Killer During the winter months (June – September) swimmers can enjoy the North Queensland beaches without fear. (Image by Rebecca Straw. Townsville, Australia) https://www.jyi.org/2005-may/2005/5/8/whale-songs-secrets-from-the-oceans-depths monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202463972-TZ1SS7A18OLPOZEQWPNJ/image-asset.jpeg 2005, May - Whale Songs: Secrets from the Ocean's Depths The "Pavarotti of the whale world." https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202488788-6ZDV8K8RQ8M0Q4LB0RZV/img1.jpg 2005, May - Whale Songs: Secrets from the Ocean's Depths Researchers replace an autonomous hydrophone array after testing. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202514752-4P2XKA4DPDXJ5KINBA3K/image-asset.jpeg 2005, May - Whale Songs: Secrets from the Ocean's Depths A spectrogram (like those studied by Mellinger and his team) of a northeast blue whale call. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202540129-LHJPUCPVHR22SD6SLVT0/img3.jpg 2005, May - Whale Songs: Secrets from the Ocean's Depths An independent "sonobuoy" developed by the National Oceanic and Atmospheric Administration. https://www.jyi.org/2005-may/2017/11/8/the-fight-for-recognition-chagas-disease-meets-controversy monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201851357-06QM85C17E1XHCLEIDXN/image-asset.jpeg 2005, May - The Fight for Recognition: Chagas' Disease Meets Controversy Adult Rhodnius prolixus taking a blood meal through human skin. The insect transmits the parasites which cause Chagas disease in feces that they deposit near the site of their bite. Scratching or rubbing by the person bitten can transfer the parasites into the body via the wound or other sites such as the eye. Credit: WHO/TDR/Stammers https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201931692-3NKNN2GKMAGU6DTHKBDZ/image-asset.jpeg 2005, May - The Fight for Recognition: Chagas' Disease Meets Controversy Trypanosoma cruzi in thin blood film (Leishmans stain) showing developing tryptomastigotes that have a free flagellum. Credit: WHO/TDR/Stammers https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201957078-59FQWQ1L0UCM6R47FFY2/img2.jpg 2005, May - The Fight for Recognition: Chagas' Disease Meets Controversy Different stages of triatomine insects, the vectors of Chagas disease. Credit: WHO/TDR https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201985927-YG854LZ610BAUKFM7HBJ/image-asset.jpeg 2005, May - The Fight for Recognition: Chagas' Disease Meets Controversy Acute Chagas Disease in a young child. The eye sign of Romana is present. This is frequently seen in acute cases and is presumed to mark the point of entry of the parasite. Credit: WHO/TDR https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510202016666-TP1ANGJFNSVDFJO0G8PL/img4.jpg 2005, May - The Fight for Recognition: Chagas' Disease Meets Controversy A health worker searches for traces of triatomine insects in a rural dwelling. Triatomine bugs are the vectors of Chagas disease. Credit: WHO/TDR/Filho https://www.jyi.org/2005-may/2005/5/8/genetic-conspecifity-in-two-habitat-morphs-of-the-limpet-patella-candei-gomesii-drout-mollusca-gastropoda-patellidae-reinforces-limpet-morphological-plasticity monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201302566-0ZHXHK28U1KKE5TEIUOC/image-asset.jpeg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Figure 1. Shells of Patella candei gomesii (A-B) mansa and (C-F) mosca. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201336080-6K0K4JKM2FSJNS5DM4HD/image-asset.jpeg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Figure 2. Map of the oriental group of the Azores Archipelago showing sampling sites at (1) Agua dAlto (Sao Miguel Island) and (2) Praia Formosa (Santa Maria Island). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201395963-70B0JYZL1IZY13PZGAX6/img2.jpg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Table 2: Name, EC number, abbreviation, number of loci, and electrophoretic conditions for each enzymatic system analyzed. a: Buffer system compositions: 1: Citrate - NaOH-His/Hcl pH 6.0 (Ferrand and Amorim 1990). 2: Tris - NaH2PO4 pH 7.6 (Branco et al. 1999). 3: Tris-citrate pH 7.6 (Amorim and Siebert 1982). IUBNC (1984). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201469620-YO5JI7KEMUK992ZVXVKL/img3.jpg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Table 3. Percentage of polymorphic loci and allele frequencies per locus and overall loci. a Mean observed heterozygosity (direct-count). b Mean unbiased heterozygosity based on Hardy-Weinberg expectation. c Percentage of polymorphic loci: a locus is considered polymorphic if the frequency of the most common allele does not exceed 0.99. Key: P (HDW) Probability test for Hardy-Weinberg equilibrium departure for each population, assuming _ = 0.05, based on Fishers method; (n) sample size https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201508558-K7SF8U91QJ6A0MP55LPU/img4.jpg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Table 4. Observed and expected heterozygosities (Ho and He respectively) and exact probability tests for overall loci Hardy-Weinberg equilibrium departure in mixed sampled populations, assuming _ = 0.05, based on Fishers method. Key: AA = Agua dAlto, PF = Praia Formosa. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201597130-QDNK8Y7UYG38IL16U98A/image-asset.jpeg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Table 5. Genic differentiation between each population pair based on Fishers method. Key: AA = Agua dAlto; PF = Praia Formosa; df = degrees of freedom. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510201642329-QZZTJ4HL7T74ORSZW6ZZ/image-asset.jpeg 2005, May - Genetic Conspecifity in Two Habitat Morphs of the Limpet Patella Candei Gomesii Drouët (Mollusca: Gastropoda: Patellidae) Reinforces Limpet Morphological Plasticity Table 6. Unbiased genetic distances between populations. Above diagonal: Neis (1972). Below diagonal: Cavalli-Sforza & Edwards (1967). Key: AA = Agua dAlto; PF = Praia Formosa. https://www.jyi.org/2005-may/2017/11/8/beta-catenin-mediated-wnt-signaling-as-a-marker-for-characterization-of-human-bone-marrow-derived-connective-tissue-progenitor-cells monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510200807259-N3DHNGZP0U2IAJJ0QNEO/img0.jpg 2005, May - Beta-catenin Mediated Wnt Signaling as a Marker for Characterization of Human Bone Marrow-Derived Connective Tissue Progenitor Cells Figure 1. Generally accepted summary of the canonical Wnt signaling pathway (right) and Beta-catenin's role as a cytoskeletal adhesion intermediate (left) (Howard et al. 2003). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510200871445-4PAHVOD0NY7X2HXFOI3C/img1.jpg 2005, May - Beta-catenin Mediated Wnt Signaling as a Marker for Characterization of Human Bone Marrow-Derived Connective Tissue Progenitor Cells Figure 2. The structure of beta-catenin. (a) The primary structure of beta-catenin: central domain consisting of 12 imperfect repeats (arm repeats) that interact with APC, tcf, e-cadherin, and fascin. (b) Topology (top) and ribbon structure (bottom) of the 12 imperfect repeats: circles and rectangles are alpha-helices viewed from the top and the side, accordingly; arrows run from amino-terminus to carboxyl-terminus (Nusse and Willert 1998). Image courtesy of Current Opinion in Genetics & Development. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510200949968-T0MYBAMP2UOG7KSYK6Q3/image-asset.jpeg 2005, May - Beta-catenin Mediated Wnt Signaling as a Marker for Characterization of Human Bone Marrow-Derived Connective Tissue Progenitor Cells Figure 3. Digital images showing positive staining for beta-catenin within adenocarcinoma (top) and human bone marrow mesenchymal stem cell cultures (bottom). https://www.jyi.org/2005-may/category/Features monthly 0.5 https://www.jyi.org/2005-may/category/Research monthly 0.5 https://www.jyi.org/2005-april daily 0.75 2017-11-09 https://www.jyi.org/2005-april/2005/4/9/comets-killers-creators-or-cotton-candy monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510243003337-OALMXUS5BW8XUXUVOEA0/image-asset.jpeg 2005, April - Comets: Killers, Creators, or Cotton Candy? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510243020083-FDDSUFXWCDIZRGRCWC2F/img1.jpg 2005, April - Comets: Killers, Creators, or Cotton Candy? Artist rendering of Stardust probe. Note sample collector deployed out probe front. Source: NASA/JPL. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510243048308-91KG9WX9UQ4GIGN7HRAP/image-asset.jpeg 2005, April - Comets: Killers, Creators, or Cotton Candy? The "ghost-like" foam, Aerogel, used by the Stardust probe for its strength and insulating properties. Source: NASA/JPL. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510243083997-ZIVOWJQQUG5STAQ1XWVJ/image-asset.jpeg 2005, April - Comets: Killers, Creators, or Cotton Candy? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510243109635-NE5MHOGWGP4WF35ORN0Y/image-asset.jpeg 2005, April - Comets: Killers, Creators, or Cotton Candy? Artist rendering of Deep Impact probe. Source: NASA/JPL. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510243141714-1PPV5B0ZI909QB44GKPZ/image-asset.jpeg 2005, April - Comets: Killers, Creators, or Cotton Candy? https://www.jyi.org/2005-april/2005/4/9/mercury-the-new-lead monthly 0.5 2017-11-09 https://www.jyi.org/2005-april/2005/4/9/idaho-lab-reaches-major-milestone-in-hydrogen-research monthly 0.5 2017-11-09 https://www.jyi.org/2005-april/2005/4/9/heated-debate-over-flame-retardants monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242566491-OQBF7RXPJOM2CNLAUZFO/image-asset.jpeg 2005, April - Heated Debate over Flame Retardants https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242597836-7Y4CQPPMNI8K5G1KWWNC/img1.jpg 2005, April - Heated Debate over Flame Retardants https://www.jyi.org/2005-april/2017/11/9/sp6kizcvyoaya625l2zqjxu8ioob8b monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242272520-TAM0INIB6XE27KQTEDCF/image-asset.jpeg 2005, April - The Plague: Why This Medieval Madness is Still a 21st Century Problem and How Your Cat May Play a Role Figure 1. Cat recovering from the Plague and a submandibular bubo. Image Courtesy: Centers for Disease Control and Prevention. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242297970-D4ZA7XS6ZSLEMRR5GLYB/img1.jpg 2005, April - The Plague: Why This Medieval Madness is Still a 21st Century Problem and How Your Cat May Play a Role Figure 2. The Plague seems to be endemic to the western half of the United States. ".You go east, the rodent diversity stops; you don't see as many burrowing animals like you do in the West," says Ken Gage, CDC. Rodents share space with each other in the burrows, spreading the disease to the whole colony. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242343268-OVAWMREU60CNG5JMFT1H/img2.jpg 2005, April - The Plague: Why This Medieval Madness is Still a 21st Century Problem and How Your Cat May Play a Role Figure 3. Yersinia pestis colonies on a culture plate following isolation from a cat with plague. Colonies are characteristically sticky (arrow). Image Courtesy: Wyoming Animal Health and Disease Information Network. https://www.jyi.org/2005-april/2017/11/9/60ep1ur25gykb4b2v17h5hzm9r2l7c monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241828334-ZL23DRFBPXC4MFONXON7/image-asset.jpeg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 1. REU students at lunch beside the outdoor mesocosm at the Bodega Marine Lab. Courtesy: Cameron Coates. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241848958-GQAIUSPBPCM5HG85J7Q8/image-asset.jpeg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 2. REU intern Jackie O'Riley collecting barnacles. Courtesy: Chris Harley. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241869092-QH91ETRTI3Q58CD18J3Y/img2.jpg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 3. REU intern Cirse Gonzalez examining microscopic invertebrates. Courtesy: Ely Huerta. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241923909-73T44T9CVVW8T7HVLF4X/img3.jpg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 4. REU intern Abigail Bradley returning from organism collecting. Courtesy: Bre Harris. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242013040-JTAW9R6PEF24JINT0OYC/img4.jpg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 5. REU intern Bre Harris after catching a smooth hound shark. Courtesy: Wes Dowd. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242040682-5NOQWSWJX6S9S9QHHGN7/image-asset.jpeg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 6. BML-REU students on Salmon Creek Beach. Courtesy: Matt Bracken. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242066961-XURGSAGKWY3UKP33JFPG/image-asset.jpeg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 7. REU students coaxing sharks into a seine in Bodega Harbor. Courtesy: Ely Huerta. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510242087277-KST07D8MNF87D1W0MIGW/image-asset.jpeg 2005, April - Research Experience for Undergraduates: A Summer Like No Other Figure 8. Bodega Marine Lab. Courtesy: Abigail Bradley. https://www.jyi.org/2005-april/2005/4/9/sex-and-the-single-cell monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241581918-4FYCXQXKWJPDKB9IPOMT/image-asset.jpeg 2005, April - Sex and the Single Cell Photo courtesy of Marcel Dorken and Christopher Eckert. Clonal propagation in a sterile population - the shoots root upon reaching the surface of the water, a sort of aquatic version of what happens in the familiar 'spider plant' house plant. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241603016-16CT51X9Q68B3AGY8SGM/img1.jpg 2005, April - Sex and the Single Cell Photo courtesy of Marcel Dorken and Christopher Eckert. An inflorescence in a fertile population. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241628539-C26W2J3SWD2FOK1969AI/image-asset.jpeg 2005, April - Sex and the Single Cell Volvox carteri, a colonial freshwater alga. The small dots are regular cells and the large ones are asexual reproductive cells. Photograph courtesy of Aurora Nedelcu. https://www.jyi.org/2005-april/2005/4/9/seamount-environment-disappearing monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241367471-KUR3HDKUIFRT4UZQDHUW/img0+%281%29.jpg 2005, April - Seamount Environment Disappearing Orange Roughy,is it on the menu tonight? Source: World Wildlife Fund. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241388713-A887NWXCKVT1JTZZR3BP/image-asset.jpeg 2005, April - Seamount Environment Disappearing Deep sea fishing activity results not only in species depletion, but also in habitat destruction. Source: Australian Fisheries Management Authority. https://www.jyi.org/2005-april/2005/4/9/letter-to-the-editor-should-science-and-engineering-undergraduate-education-be-merged monthly 0.5 2017-11-09 https://www.jyi.org/2005-april/2005/4/9/pursuing-an-academic-career-a-phd-is-not-enough monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510241095035-AL0QPVTMJ2TKW7J4YQWI/image-asset.jpeg 2005, April - Pursuing an Academic Career: A Ph.D. Is Not Enough article_159_order_0 https://www.jyi.org/2005-april/2005/4/8/production-of-cryptophycin-from-blue-green-algae monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203207832-RU4BPQJYHU8V5BJ5IGY6/img3+%281%29.jpg 2005, April - Production of Cryptophycin from Blue-Green Algae Table 1. Comparison of cryptophycin effects in various tumors in mice to many of the cancer drugs on the market. N/A means "not available". See Materials and Methods for the conversion of Log Tumor Cell Kill in tumor-bearing mice to ++++, +++, ++, + and , activity ratings. * HCT15 - NCI-SRI data https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203135754-GFKCWC0K7GWZOBCZF8ED/image-asset.jpeg 2005, April - Production of Cryptophycin from Blue-Green Algae Table 2. Effect of media on cellular density and cryptophycin density. This chart compares the amount cellular growth, the isolated fraction and total purified amount of cryptophycin from ATCC 53789 and GSV 224 grown in Normal BG-11, Modified BG-11 and A3M7 media. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203192473-E2VIMZ5OU8GPA890W28O/img0.jpg 2005, April - Production of Cryptophycin from Blue-Green Algae Figure 1. Cellular growth rate of GSV 224. This graph illustrates the cellular growth of GSV 224 between day 10 and day 20 of the growth cycle. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203284973-W64TJ0NSH6BKJEYTMFSL/img1.jpg 2005, April - Production of Cryptophycin from Blue-Green Algae Figure 2. Isolated cryptophycin density of GSV 224. This graph illustrates the amount of cryptophycin that was recovered from GSV 224 using normal phase chromatography during the isolation step of the life cycle experiment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203346378-GC5B2TE6J74COTQO9IR1/img2.jpg 2005, April - Production of Cryptophycin from Blue-Green Algae Figure 3. Purified cryptophycin density of GSV 224. This graph illustrates the purified amount of cryptophycin recovered from GSV 224 using reverse phase chromatography during the life cycle experiment. https://www.jyi.org/2005-april/2017/11/8/intensive-cultivation-of-the-calanoid-copepod-bestiolina-similis monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203556211-M3B9LHZY9Q6N11LV6QEA/image-asset.jpeg 2005, April - Intensive Cultivation of the Calanoid Copepod Bestiolina similis Figure 1. Survival rates for Bestiolina simlis in response to varying volumes of A) Chaetoceros neogracille B) Isochrysis galbana and C) Rhodomonas sp. food source additions. Additions of Rhodomonas (C) show the highest survivorship with approximately 50% of the animals remaining after 5 days https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203637795-AYO27BBXAROMSOBVRG4L/image-asset.jpeg 2005, April - Intensive Cultivation of the Calanoid Copepod Bestiolina similis Figure 2. Survival rates for Bestiolina similis in response to optimal phytoplankton concentrations (figure 1) for Chaetoceros, Isochrysis, and Rhodomonas. Vertical Bars represent standard deviation. Rhodomanas is shown to be a superior feed for achieving high survival rates in comparison to optimal concentrations of Chaetoceros and Isochrysis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203666037-B6DY0K5JT1SHN4UGCNF6/img2.jpg 2005, April - Intensive Cultivation of the Calanoid Copepod Bestiolina similis Figure 3. Average number of of Bestiolina similis alive after 7 days of being maintained in varying concentrations of Chaetoceros, Isochrysis, and Rhodomonas. Food concentrations and water volumes were kept constant in this experiment. Vertical Bars represent standard deviation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203719920-WEDO1Q8CG6X3OTBK5KNX/img3.jpg 2005, April - Intensive Cultivation of the Calanoid Copepod Bestiolina similis Figure 4. Average egg production rates in response to additions of A) no food B) Chaetoceros neogracille C) Isochrysis galbana Tahitian strain and D) Rhodomonas sp. as phytoplankton food source. Vertical bars represent standard deviation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203755940-YCHVINJYP6CK2Y2R9RQ0/image-asset.jpeg 2005, April - Intensive Cultivation of the Calanoid Copepod Bestiolina similis Figure 5. Egg production rates (eggs female-1 day-1) for Bestiolina similis in response to different phytoplankton. Initial concentrations in the cultures were maintained throughout the experiment. The highest egg rate was 23.3 and was obtained from the copepods fed on Isochrysis. Vertical bars represent standard deviation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510203790041-387Y7ZQUUAEW8HQGNS2D/image-asset.jpeg 2005, April - Intensive Cultivation of the Calanoid Copepod Bestiolina similis Table 1. Twelve 20-ml glass vials each containing 10 Bestiolina similes and varying food volumes with added filtered (GF/C) and non-filtered seawater https://www.jyi.org/2005-april/2005/4/9/the-isolation-and-identification-of-diatoms-from-lake-waiau-sediments monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207784067-17B6JAXN40L3D206SWZP/image-asset.jpeg 2005, April - The Isolation and Identification of Diatoms from Lake Waiau Sediments Figure 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207809030-15GTPLSHWOSM7BZCOPL3/img1.jpg 2005, April - The Isolation and Identification of Diatoms from Lake Waiau Sediments Figure 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207848136-N0H74S893UVV4KGB8VBA/img2.jpg 2005, April - The Isolation and Identification of Diatoms from Lake Waiau Sediments Figure 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207877232-JLAX07F575ZCHBZ370B8/img3.jpg 2005, April - The Isolation and Identification of Diatoms from Lake Waiau Sediments Figure 4. https://www.jyi.org/2005-april/2005/4/9/polyphasic-characterization-of-bacteria-isolated-from-shrimp-larva monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207522023-ZK207F1HG8XADNEBYKC2/img2+%281%29.jpg 2005, April - Polyphasic Characterization of Bacteria Isolated from Shrimp Larva Table 1. Previous identifications of bacterial isolates from shrimp aquaculture. Fatty Acid Analysis refers to a commercial assay of fatty acids present in cell walls. Microlog refers to metabolic fingerprints obtained by substrate-growth analysis. Sim refers to a similarity score reported for the assay. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207556153-IAOEHTZKHZRUNUGQIZVU/image-asset.jpeg 2005, April - Polyphasic Characterization of Bacteria Isolated from Shrimp Larva Table 2. Bacteriological tests on bacterial isolates from shrimp aquaculture as quality control. TCBS, YDC and TZC are differential growth media. Gram stain and KOH tests were used to differentiate cell morphology. In the KOH test, bacterial isolates either lysed and released a string of DNA (S) or did not lyse (NS). O/F test was used to differentiate between organisms that have oxidative or fermentative metabolism. Organisms were determined to be motile or not-motile. Organism shape was assessed under a light-microscope. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207585454-RRV5MSHBPPVZN99JR7MQ/img0.jpg 2005, April - Polyphasic Characterization of Bacteria Isolated from Shrimp Larva Figure 1. Construction of total 16S sequence from forward and reverse partial sequences. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207611699-M5W5PBTJJVMK8P727KY9/img4.jpg 2005, April - Polyphasic Characterization of Bacteria Isolated from Shrimp Larva Table 3. 16S sequence matching to NCBI nr database for bacterial isolates from shrimp aquaculture. The first column contains the culture identification number. The next pair of columns shows the species identification that had the highest percent match with the sequence submitted for the culture. The Expectation value, E is the amount of times a database match is expected. The next pair of columns shows the species identification that had the highest percent match with a species different from that of the top match. The final pair of columns shows the top match for a different genus. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207640852-GQMN8VP0059E7HYBXKYZ/image-asset.jpeg 2005, April - Polyphasic Characterization of Bacteria Isolated from Shrimp Larva Figure 2. Electrophoresis gel used to verify cloning success. Three lanes for each isolate represent PCR amplified 16S sequence and two (A and B) digested plasmid preparations of transformed clones. EcoR1 used as restriction enzyme for digestion. https://www.jyi.org/2005-april/2005/4/9/relationship-between-gene-expression-and-cell-metabolism-in-the-marine-bacterium-streptomyces-tenjimariensis monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207031169-Q7UHHENDHRV0YB4SI102/image-asset.jpeg 2005, April - Relationship Between Gene Expression and Cell Metabolism in the Marine Bacterium Streptomyces tenjimariensis Figure 1. Acid and base consumption, cell mass, and bioactivity vs. time for S. tenjimariensis grown in a controlled batch bioreactor. Max dry cell weight was 5.78 g/L at 54 h. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207061769-K6DSWF32LLZKQ8Q9EPKV/image-asset.jpeg 2005, April - Relationship Between Gene Expression and Cell Metabolism in the Marine Bacterium Streptomyces tenjimariensis Figure 2. PCR amplification of S. tenjimariensis DNA using designed primers. Lanes: 1, 100 bp DNA ladder; 2, DOI; 3, AMT; 4, Alpha amylase; 5, 16S rDNA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207094969-A7HKVRD31OGG7GN2RSLF/img3.jpg 2005, April - Relationship Between Gene Expression and Cell Metabolism in the Marine Bacterium Streptomyces tenjimariensis Table 1. NCBI Blastn and Blastp search results from sequenced PCR products. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510207131944-1P2XOX2MJKP6ADXV2SCX/img2.jpg 2005, April - Relationship Between Gene Expression and Cell Metabolism in the Marine Bacterium Streptomyces tenjimariensis Figure 3. RT-PCR using extracted RNA and designed primers. Lanes: 1 and 11, 100 bp DNA ladder; 2, DOI 24 h; 3, DOI 36 h; 4, DOI 60 h; 5, AMT 24 h; 6, AMT 36 h; 7, AMT 60 h; 8, alpha amylase 24 h; 9, alpha amylase 36 h; 10, alpha amylase 60 h; 12, 16S rDNA 24 h; 13, 16S rDNA 36 h; 14, 16S rDNA 60 h; 15, Control 24 h; 16, Control 36 h; 17, Control 60 h. https://www.jyi.org/2005-april/2005/4/9/correlations-between-turbidity-and-sources-of-physical-forcing-on-the-south-shore-of-oahu monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206466636-5D7SFU2NWPU4VI4G7B08/img0.jpg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 1. Aerial photo of site area offshore of Kaka'ako. Symbols: channel to Honolulu Harbor (green arrow); channel to Kewalo Harbor (red arrow). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206501267-X9R53S1NPOSLE22CP59N/image-asset.jpeg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 2. SCUFA turbidity before and after removal of linear trends due to biofouling. Symbols: before linear trend removal (red); after linear trend removal (blue) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206525952-97DWYE6IEHY16TA6FD7R/img2.jpg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 3. June 2003 ADCP echo intensity (top), and significant (upper 1/3) wave height (bottom). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206570033-5N1ET0Z320L7XGX1GQ10/img3.jpg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 4. June 2004 ADCP echo intensity (top), tidal signal (middle), and current velocity (bottom). Negative current velocities indicate a negative directional current on an axis tilted 33 degrees east of north. Symbols: June 2004 Currents - Long shore current (blue); cross shore current (red). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206616767-KT1IVCS4NHGZCC756U99/image-asset.jpeg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 5. June 2004 echo intensity cross correlation analysis against long-shore current velocity (top) and against depth at ADCP site (bottom). Maximum correlation coefficient between long-shore currents and echo intensity occurs at one hour lag. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206659310-TV5Z9GE8EB2A78B1DZIQ/image-asset.jpeg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 6. June 2004 cross correlation analysis between cross shore current velocity and water depth (tidal signal) at ADCP site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206701541-EAL34N3I6CFOCAWQVVKK/image-asset.jpeg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 7. July 2004 depth averaged echo intensity (top), SCUFA turbidity with linear trends removed (middle), and significant wave height (bottom). The anomalous peak in echo intensity on 7/20 is most likely due to a coral spawning event on that date. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206742466-OXT7SZ82HSACREKVPOXB/img7.jpg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 8. July 2004 cross correlation analyses between SCUFA turbidity and significant wave height (top), ADCP echo intensity and significant wave height (middle), ADCP echo intensity and SCUFA turbidity (bottom). Due to a decreased magnitude of correlation, the scale on the correlation plot of ADCP against SCUFA varies from the other two in this figure. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206808676-1DGPMPIGSVKGS3YO5HL3/img8.jpg 2005, April - Correlations Between Turbidity and Sources of Physical Forcing on the South Shore of Oahu Figure 9. Suspended sediment concentration from filtered water samples. Error bars represent cumulative sampling error. https://www.jyi.org/2005-april/2005/4/9/bacterial-composition-of-surface-associated-microbes-found-in-three-hawaiian-coral-species-porites-compressa-porites-lobata-and-montipora-capitata monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205938991-D7WVZVZW8MWDW15M621K/image-asset.jpeg 2005, April - Bacterial composition of surface associated microbes found in three Hawaiian coral species: Porites compressa, Porites lobata, and Montipora capitata Figure 1. ArcView map of Oahu, Hawaii illustrating sample sites at Kaneohe Bay, Kahe point, Hanauma bay, and North shore.. The CD markings indicate individual sample sites. Lea Hollingsworth at HIMB created this map. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205978256-X3QU7JKIZ6R65SW74MVX/img1.jpg 2005, April - Bacterial composition of surface associated microbes found in three Hawaiian coral species: Porites compressa, Porites lobata, and Montipora capitata Figure 2. A flowchart of project methods. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206038870-P35TURCMK5ORRLAUUBG6/img2.jpg 2005, April - Bacterial composition of surface associated microbes found in three Hawaiian coral species: Porites compressa, Porites lobata, and Montipora capitata igure 3. Montipora capitata, Porites compressa, and Porites lobata mucus samples divided into seven bacteria categories represented as percentages in the pie charts; excludes Vibrios. N=Number of bacterial sequences used in each species. Symbols: white, actinobacteria; dark gray, alpha; dashed diagonal lines, Cytophaga-flavobacter/flexibacter-bacteroides (CFB); wide gray diagonal lines, firmicutes; light gray, gamma; dashed vertical gray lines, sphingobacteria; medium gray, unknown. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206095913-OSMHF6YREKZ1IIW1MDUK/image-asset.jpeg 2005, April - Bacterial composition of surface associated microbes found in three Hawaiian coral species: Porites compressa, Porites lobata, and Montipora capitata Table 1. Unique bacterial species found in Montipora capitata, Porites compressa, Porites lobata bag, mucus and surrounding seawater samples separated into respective taxonomic bacterial groups. N= number of bacterial sequences identified. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206138620-33EM6ARUX3IFELLN6WU8/image-asset.jpeg 2005, April - Bacterial composition of surface associated microbes found in three Hawaiian coral species: Porites compressa, Porites lobata, and Montipora capitata Table 2. Unique bacterial species found in lesioned and non-lesioned Montipora capitata bag, mucus and surrounding seawater samples separated into respective taxonomic bacterial group. N= number of bacterial sequences identified. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510206183769-5DE34OXK0QM4IAUS72EL/image-asset.jpeg 2005, April - Bacterial composition of surface associated microbes found in three Hawaiian coral species: Porites compressa, Porites lobata, and Montipora capitata Figure 4. Montipora capitata non-lesioned and lesioned samples divided into seven bacteria categories represented as percentages in the pie charts; excludes Vibrios. N=Number of bacterial sequences used for each sample type. Symbols: white, actinobacteria; dark gray, alpha; dashed diagonal lines, Cytophaga-flavobacter/flexibacter-bacteroides (CFB); wide gray diagonal lines, firmicutes; light gray, gamma; dashed vertical gray lines, sphingobacteria; medium gray,unknown. https://www.jyi.org/2005-april/2017/11/9/virus-induced-gene-silencing-in-nicotiana-benthamiana-using-a-dead-box-helicase-sequence-derived-from-dunaliella-salina monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205393902-VCCYRG2M2ZNK17J1A9GN/img0.jpg 2005, April - Virus-induced gene silencing in Nicotiana benthamiana using a DEAD-box helicase sequence derived from Dunaliella salina Figure 1. The TTOSA1 APE pBAD #5 viral vector contains bacterial plasmid pBR322, genes from tobacco mosaic virus and an insert that codes for green fluorescent protein. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205449523-1RDUDXUOLWQ7KKWJ0FW4/image-asset.jpeg 2005, April - Virus-induced gene silencing in Nicotiana benthamiana using a DEAD-box helicase sequence derived from Dunaliella salina Figure 2. The green fluorescent protein insert was replaced with the DEAD box helicase insert to create the viral vector TTOSA1 DBH #1. This vector was used to silence the DEAD box helicase gene. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205490648-SQUZ17IO8VGLLF231NBA/img2.jpg 2005, April - Virus-induced gene silencing in Nicotiana benthamiana using a DEAD-box helicase sequence derived from Dunaliella salina Figure 3. Nicotiana benthamiana plants 13 days after inoculation. Left: Plant transfected with TTOSA1 APE pBAD #5 shows signs of viral infection and expresses green fluorescent protein. Middle: Plant transfected with TTOSA1 DBH #1 shows heavy necrosis, discoloration, and stunted growth. Right: Healthy, uninfected plant. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205565402-IEFTI0PEUPL3WFPY9EHS/image-asset.jpeg 2005, April - Virus-induced gene silencing in Nicotiana benthamiana using a DEAD-box helicase sequence derived from Dunaliella salina Figure 4. In real-time PCR, amplification is tracked by a fluorescent dye that binds to double-stranded DNA. For each run, the PCR cycle number at which the total fluorescence surpasses a threshold value (horizontal dashed line) is the Ct value for that run. If there is less cDNA for the gene in the sample, then it will take longer for the sequence to amplify, and the Ct value will be higher. The curves shown here represent a) Rubisco small subunit in transfected plants b) Rubisco small subunit in wild-type plants c) DEAD box helicase in wild-type plants d) DEAD box helicase in transfected plants. In transfected plants, expression of rubisco does not appear to be affected, but expression of the DEAD box helicase is reduced significantly. https://www.jyi.org/2005-april/2017/11/9/effects-of-the-growth-hormone-secretagogue-cp-477335-on-the-ghigf-i-axis-in-tilapia-oreochromis-mossambicus monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205072974-BN3ITP3GED8U4LEHDZMK/img0+%281%29.jpg 2005, April - Effects of the Growth Hormone Secretagogue, CP-477335, on the GH/IGF-I Axis in Tilapia, Oreochromis mossambicus Figure 1. In vivo effect of CP-477335 on GH, PRL, and IGF-I release compared to control of saline and positive control of C10 ghrelin (10ng/ml). * P < 0.05, ** P < 0.01, *** P < 0.001 (n=7). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205096958-DH7W89ADBY27AWNUX2K8/img1.jpg 2005, April - Effects of the Growth Hormone Secretagogue, CP-477335, on the GH/IGF-I Axis in Tilapia, Oreochromis mossambicus Figure 2. In vitro (whole pituitary) effect of CP-477335 on GH and PRL release compared to control of saline and positive control of C8 ghrelin (10ng/ml). * P < 0.05, ** P < 0.01, *** P < 0.001 (n=6). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510205147285-BAD8XC8OYXLBDTCKPK8A/img2.jpg 2005, April - Effects of the Growth Hormone Secretagogue, CP-477335, on the GH/IGF-I Axis in Tilapia, Oreochromis mossambicus Figure 3. In vitro (dispersed pituitary cell) effect of CP-477335 on GH and PRL release compared to control of saline and positive control of C8 ghrelin (10ng/ml). * P < 0.05, ** P < 0.01, *** P < 0.001 (n=6). https://www.jyi.org/2005-april/2017/11/9/effects-of-heptachlor-and-dde-on-the-gh-igf-axis-in-female-tilapia-oreochromis-mossambicus monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204722193-8252N8EKQ3QQLOO8VXR7/img0.jpg 2005, April - Effects of Heptachlor and DDE on the GH-IGF axis in female tilapia, Oreochromis mossambicus Figure 1. Effects of heptachlor and DDE on vitellogenin levels in hepatocyte culture. E2, heptachlor, and DDE all display a dose-related vitellogenic response with heptachlor giving the greatest response. Black = Control; Gray =0.1 µM; Light Blue = 1 µM; Blue = 10 µM; Dark Blue =100 µM; *p https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204787033-61TBM03Y0F7MR2ZSGTU5/img1.jpg 2005, April - Effects of Heptachlor and DDE on the GH-IGF axis in female tilapia, Oreochromis mossambicus Figure 2. Effects of DDE and E2 on IGFBPs. 100 µM E2 shows a higher concentration of IGFBPs as compared to 0.1 µM E2. All concentrations of DDE exhibit an increased amount of IGFBPs as compared to 0.1 µM E2. Control and Heptachlor treatments are not visible on gels. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204821535-CNRAB33N50FYYZM58665/image-asset.jpeg 2005, April - Effects of Heptachlor and DDE on the GH-IGF axis in female tilapia, Oreochromis mossambicus Figure 3. Effects of E2 and heptachlor on GH release in the pituitary. Control fish exhibit a high amount of GH in media. E2 and heptachlor treatments decrease the amount of GH released into the media. Black = control; White = 100 nM E2; Light Pink - 1 nM Heptachlor; Pink = 10 nM Heptachlor; Dark pink = 100 nM Heptachlor; *p https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204850389-E9OSF86P25LTOQ75Z9Q7/image-asset.jpeg 2005, April - Effects of Heptachlor and DDE on the GH-IGF axis in female tilapia, Oreochromis mossambicus Figure 4. Effects of E2 and Heptachlor on Pituitary GH Content. Both the 10 nM and 100 nM treatment appear to harbor more GH within the pituitary cells with the 100 nM treatment being the most significant. Black = control; White = 100 nM E2; Light Pink - 1 nM Heptachlor; Pink = 10 nM Heptachlor; Dark pink = 100 nM Heptachlor; *p https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204888562-Z9P169BRHNPW8NURAARP/image-asset.jpeg 2005, April - Effects of Heptachlor and DDE on the GH-IGF axis in female tilapia, Oreochromis mossambicus Figure 5. Effects of E2 and Heptachlor on GH Release. Percent release is determined by comparing the GH released into media to the GH measured in the cell content. E2 and heptachlor suppress the release of GH. Black = control; White = 100 nM E2; Light Pink - 1 nM Heptachlor; Pink = 10 nM Heptachlor; Dark pink = 100 nM Heptachlor; *p https://www.jyi.org/2005-april/2005/4/9/quantification-of-single-species-marine-biofilm-with-alcian-blue monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204321842-MCNUTJGG78P1WPVQ8DHU/img0+%281%29.jpg 2005, April - Quantification of Single-Species Marine Biofilm with Alcian Blue Figure 1. Calibration curve for xanthan gum. The delta absorbance refers to the change in solution absorbance due to alcian blue binding to xanthan gum and precipitating out of solution. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204362964-2R2IW5NZIFHNWHGPTET4/img2.jpg 2005, April - Quantification of Single-Species Marine Biofilm with Alcian Blue Table 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204387460-1XSEN01ZSA1RJO1E5CN7/image-asset.jpeg 2005, April - Quantification of Single-Species Marine Biofilm with Alcian Blue Table 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204423038-7UQ80G7D1JB7521X2NEV/img4.jpg 2005, April - Quantification of Single-Species Marine Biofilm with Alcian Blue Table 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204451512-Z5OE8L4PQL4L2G2LIOQM/img5.jpg 2005, April - Quantification of Single-Species Marine Biofilm with Alcian Blue Table 4. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204475377-NUGA3SA6VTHUN3PCLNXU/image-asset.jpeg 2005, April - Quantification of Single-Species Marine Biofilm with Alcian Blue Figure 2. Molecular structures of anionic xanthan gum and cationic alcian blue. https://www.jyi.org/2005-april/2005/4/9/virulence-and-antibiotic-resistance-gene-combinations-among-staphylococcus-aureus-isolates-from-coastal-waters-of-oahu-hawaii monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204025460-4TWC7P5LZCRJQJE5VIM2/image-asset.jpeg 2005, April - Virulence and Antibiotic Resistance Gene Combinations among Staphylococcus aureus Isolates from Coastal Waters of Oahu, Hawaii Table 1. Targeted genes and PCR conditions used for amplification. All PCR reactions began with a 95° C denaturation for 5 minutes and were terminated with 72° C extension for 7 minutes and a 4° C hold. Product length for can may vary by multiples of 561 bp as a result of sequence repeats of the B region. Due to sequence similarities, the primers for hlg will co-amplify hlgB and hlgC. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204060702-HMJE3X0P41EW3XU6V9YR/image-asset.jpeg 2005, April - Virulence and Antibiotic Resistance Gene Combinations among Staphylococcus aureus Isolates from Coastal Waters of Oahu, Hawaii Table 2. The distribution of genes associated with antibiotic resistance and virulence among S. aureus strains isolated from the Ala Wai canal in Waikiki and various beaches around Oahu. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510204090326-14QZNYX2LT96FDWX2V27/img0.jpg 2005, April - Virulence and Antibiotic Resistance Gene Combinations among Staphylococcus aureus Isolates from Coastal Waters of Oahu, Hawaii Figure 1. Sizing of representative positive PCR amplification products for each targeted gene by agarose gel electrophoresis. First and last lanes are DNA size markers (M). Other lanes are PCR products from the genes as indicated, or negative controls marked with "-". https://www.jyi.org/2005-april/category/Features monthly 0.5 https://www.jyi.org/2005-april/category/Research monthly 0.5 https://www.jyi.org/2005-march daily 0.75 2017-11-09 https://www.jyi.org/2005-march/2005/3/9/mathematical-modeling-of-exponential-growth-with-impulsive-perturbations-and-applications-in-ecology monthly 0.5 2018-11-03 https://www.jyi.org/2005-march/category/Research monthly 0.5 https://www.jyi.org/2005-february daily 0.75 2017-11-09 https://www.jyi.org/2005-february/2005/2/9/psychotic-mice-to-the-rescue-curing-schizophrenia monthly 0.5 2017-11-09 https://www.jyi.org/2005-february/2005/2/9/the-blob-that-attacked-waikiki-the-box-jellyfish-invasion-of-hawaii monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510255257522-PRGCLAZDKTLEDBNETO2H/image-asset.jpeg 2005, February - The Blob That Attacked Waikiki: The Box Jellyfish Invasion of Hawaii https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510255275324-HJKJMER2Z4SHWNZY9XU5/img1.jpg 2005, February - The Blob That Attacked Waikiki: The Box Jellyfish Invasion of Hawaii The box jellyfish lifecycle. The sexually reproductive medusae bud off of the asexual polyps. Source: Ruppert and Barnes, Invertebrate Zoology: 6th Ed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510255301922-02KPNTR2QHZKQGY3418R/img2.jpg 2005, February - The Blob That Attacked Waikiki: The Box Jellyfish Invasion of Hawaii https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510255322409-AEQU74QTX6PE2FTDXHU3/image-asset.jpeg 2005, February - The Blob That Attacked Waikiki: The Box Jellyfish Invasion of Hawaii Remedies for a jellyfish sting. https://www.jyi.org/2005-february/2005/2/9/childhood-tuberculosis-in-nepal monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254991997-6OXE5214LF8UW695Y6ID/image-asset.jpeg 2005, February - Childhood Tuberculosis in Nepal https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510255025654-D7XG44A2H1213S2XHL24/img1.jpg 2005, February - Childhood Tuberculosis in Nepal article_102_order_1 https://www.jyi.org/2005-february/2005/2/9/delayed-gratification-why-it-took-everybody-so-long-to-acknowledge-that-bacteria-cause-ulcers monthly 0.5 2017-11-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254753416-M71TW7L2D79ADOSGLZ30/image-asset.jpeg 2005, February - Delayed Gratification: Why it Took Everybody So Long to Acknowledge that Bacteria Cause Ulcers https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254813365-JVG284NJ6GCHZ67CNM32/image-asset.jpeg 2005, February - Delayed Gratification: Why it Took Everybody So Long to Acknowledge that Bacteria Cause Ulcers A drawing of the H. pylori organism. The Gram-negative spirillum measures about 3.0 by 0.5 micrometers. Its four to six flagella power it. Source: Concrete Bob Software. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254850171-L4YFS5Q0UMKY0IFDS25D/img2.jpg 2005, February - Delayed Gratification: Why it Took Everybody So Long to Acknowledge that Bacteria Cause Ulcers https://www.jyi.org/2005-february/2005/2/9/letter-to-the-editor-the-dilemma-of-tuberculosis-control-and-the-dots-program monthly 0.5 2017-11-09 https://www.jyi.org/2005-february/2005/2/9/nicotinic-acetylcholine-receptors-and-alzheimers-disease-therapeutics-a-review-of-current-literature monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254206071-CB010JD0WOZ511RVXTOR/img0+%281%29.jpg 2005, February - Nicotinic Acetylcholine Receptors and Alzheimer's Disease Therapeutics: A Review of Current Literature Figure 1. Heteromeric alpha-4-beta-2 nAChR and homomeric alpha-7 nAChR subunit composition with single acetylcholine bound. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254274568-7V0XYRKME4B73ZBPKTF9/image-asset.jpeg 2005, February - Nicotinic Acetylcholine Receptors and Alzheimer's Disease Therapeutics: A Review of Current Literature Figure 2. Major nAChR subunit domains, including the four transmembrane helices and the extracellular N and C termini. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254300681-QD7L43DXDP04QYD7LHKZ/img2.jpg 2005, February - Nicotinic Acetylcholine Receptors and Alzheimer's Disease Therapeutics: A Review of Current Literature Figure 3. The stabilization of microtubules by tau protein and the effects of hyperphosphorylation, as in Alzheimer's disease. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254344298-IY651F3ZJV9HOA2PRP5Y/img3.jpg 2005, February - Nicotinic Acetylcholine Receptors and Alzheimer's Disease Therapeutics: A Review of Current Literature Figure 4. Chemical structures of nicotine, DMXBA, and galantamine. https://www.jyi.org/2005-february/2005/2/9/combustion-induced-reaction-of-magnesium-with-a-silicate-coated-crucible-surface monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253418550-SEMUDTYGIFWGKTHMVJVG/image-asset.jpeg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253441496-QOE2GSL4CAIEMIUY5VOL/image-asset.jpeg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253459629-H0L6B8G5DMC97XPH6S96/image-asset.jpeg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253652057-6W4N5PZ8VHGBRBKM97BC/image-asset.jpeg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253586255-N8X70IS7NFNTBO1RSZHB/img4.jpg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253952994-G9G563TBFREEQ6FFGUIO/image-asset.jpeg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510253971585-34KO8DEE8WB7SJ6UW3OC/img6.jpg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 7 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254011424-7V5D5IVGIEKFYJLN355B/img7.jpg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 8 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1510254036093-IX3FKVMSVIBL9OCQIIAG/image-asset.jpeg 2005, February - Combustion Induced Reaction of Magnesium with a Silicate – Coated Crucible Surface Figure 9 https://www.jyi.org/2005-february/2005/2/9/a-model-of-sequential-location-among-foresighted-firms-in-non-uniform-density-markets monthly 0.5 2018-11-03 https://www.jyi.org/2005-february/2005/2/9/shape-invariance-in-supersymmetric-quantum-mechanics-and-its-application-to-selected-special-functions-of-modern-physics monthly 0.5 2018-11-03 https://www.jyi.org/2005-february/category/Features monthly 0.5 https://www.jyi.org/2005-february/category/Research monthly 0.5 https://www.jyi.org/2005-january daily 0.75 2017-11-09 https://www.jyi.org/2005-january/2005/1/9/letter-to-the-editor-health-disparities-research-role-for-undergraduate-students monthly 0.5 2017-11-09 https://www.jyi.org/2005-january/category/Features monthly 0.5 https://www.jyi.org/2004-november daily 0.75 2017-10-18 https://www.jyi.org/2004-november/2004/12/17/gambling-among-adolescents-and-young-adults-associated-with-psychiatric-problems monthly 0.5 2017-10-18 https://www.jyi.org/2004-november/2004/12/17/tiny-tools-solve-major-carving-problems monthly 0.5 2017-10-18 https://www.jyi.org/2004-november/2004/12/17/new-biotechnology-protects-art-and-history-in-the-tropics monthly 0.5 2017-10-18 https://www.jyi.org/2004-november/2004/12/17/dopamine-may-influence-good-and-bad-emotions monthly 0.5 2017-10-18 https://www.jyi.org/2004-november/2004/12/17/how-it-works-surround-sound-systems-are-bringing-the-theater-home monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508291552264-FAHBXY271O1U41R9DL77/img0.jpg 2004, November - How It Works: Surround Sound Systems are Bringing the Theater Home Interaural time difference (ITD). The distances between a sound source and each ear allow us to detect the sound's location. Source: Rice University, Sarah Coppin, Kin Daniel, Jeremy Pearce, Chris Rozell, and Yasushi Yamazaki. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508291618782-7L88MLEJ1HYRUMRL1WPI/image-asset.jpeg 2004, November - How It Works: Surround Sound Systems are Bringing the Theater Home The "poor man's" surround sound setup. This is the minimum equipment needed to create a surround sound system. Source: HowStuffWorks, Tom Harris. https://www.jyi.org/2004-november/2004/12/17/youre-majoring-in-what-why-i-chose-science-and-technology-studies monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290805308-W5J35J817T5P865X514P/img0.jpg 2004, November - You're Majoring in What? Why I chose Science and Technology Studies Early anatomy lesson. Science and Technology Studies looks at the social forces that have historically shaped scientific knowledge. Source: National Library of Medicine. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290835517-F4WYSWKI7SAE44H0VFGH/img1.jpg 2004, November - You're Majoring in What? Why I chose Science and Technology Studies Patient in iron lung, around 1949. Social forces continue to shape modern science, technology, and medicine. Source: National Library of Medicine. https://www.jyi.org/2004-november/2017/10/17/infection-by-protein-the-prion-theory-of-disease monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290402131-2UOTILFMOYUJ7BYPXDXV/img0+%281%29.jpg 2004, November - Infection by Protein: The Prion Theory of Disease Holes in the brain of a sheep infected by scrapie. Groups of PrPSC come together to form rods. Source: Center for Animal Health and Productivity. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290439129-HX9DV0S71M6BAXF8801N/img1.jpg 2004, November - Infection by Protein: The Prion Theory of Disease Conversion of PrPC (red) to PrPSC (blue). Groups of PrPSC come together to form rods. Source: The Nobel Committee for Physiology. https://www.jyi.org/2004-november/2004/12/17/whos-afraid-of-the-big-bad-wolf-the-yellowstone-wolves-controversy monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290002074-8XOV3ZMXQETMM76M9YE6/img0.jpg 2004, November - Who's Afraid of the Big Bad Wolf? The Yellowstone Wolves Controversy The gray wolf. The Yellowstone wolves were removed in 1926 and reintroduced in 1995. Source: Oregon State University. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290060864-J6AP0WAWBT8LTA6PX7BV/image-asset.jpeg 2004, November - Who's Afraid of the Big Bad Wolf? The Yellowstone Wolves Controversy Elk: the primary prey of wolves. Many fear that wolves will decimate the Yellowstone elk population. Source: Oregon State University. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508290126624-V1US7H6HFYY9RQHSDHRS/image-asset.jpeg 2004, November - Who's Afraid of the Big Bad Wolf? The Yellowstone Wolves Controversy A wide impact. Wolves may affect the food chain all the way down to the tree level. Their presence changes elk feeding behavior, which influences aspen sapling growth. Source: Oregon State University. https://www.jyi.org/2004-november/category/Features monthly 0.5 https://www.jyi.org/2004-november/category/Science+News monthly 0.5 https://www.jyi.org/2004-october daily 0.75 2017-10-18 https://www.jyi.org/2004-october/2004/10/17/old-fashioned-coal-the-fuel-of-the-future monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508293956435-VDEQ72B4QQ6A71K01WL5/img0.jpg 2004, October - Old Fashioned Coal: The Fuel of the Future Image courtesy of Cogeneration Technologies. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508293989097-H1W9H0D9RN0R134CEUUZ/img1.jpg 2004, October - Old Fashioned Coal: The Fuel of the Future Gov. Schwarzenegger fuels a hydrogen fuel cell Toyota. Image courtesy of KCRA News. https://www.jyi.org/2004-october/2004/10/17/the-psychology-of-time monthly 0.5 2017-10-18 https://www.jyi.org/2004-october/2004/10/17/making-sense-of-abrupt-climate-change-or-what-would-yoda-do monthly 0.5 2017-10-18 https://www.jyi.org/2004-october/2004/10/17/feeling-lonely-contact-with-other-intelligent-life-may-be-closer-than-you-think monthly 0.5 2017-10-18 https://www.jyi.org/2004-october/2004/10/17/playing-detective-birth-of-new-star-provides-clues-about-origin-of-the-solar-system monthly 0.5 2017-10-18 https://www.jyi.org/2004-october/2017/10/17/why-gymnastics-judges-will-never-get-a-perfect-10 monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508292877920-7RN7HZPFTC10RPJ3GK5V/img0+%281%29.jpg 2004, October - Why Gymnastics Judges Will Never Get a Perfect "10" (c) Associated Press Paul Hamm's 2004 Olympics all-around gold medal was disputed when judges' scores were called into question. https://www.jyi.org/2004-october/category/Features monthly 0.5 https://www.jyi.org/2004-september daily 0.75 2018-06-14 https://www.jyi.org/2004-september/2004/9/14/the-genetic-algorithm-the-evolution-of-cooperation-and-niceness-in-the-iterated-prisoners-dilemma monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528970556956-GWZYB7Z56AB2K5VJ2FSI/hourigan_1.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 1 . Payoff matrix for the prisoner’s dilemma game. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528970744211-XTY1Q0FNSGLJKWKFJ6K9/hourigan_2.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 2. Sample genetic data array and state diagram for a five-state automaton capable of playing the iterated prisoner’s dilemma. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528970804723-08SMSYTC136IU5ZIANKL/image-asset.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 3. Cooperate-cooperate move averages, by generation, for 100 trials. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528970872612-7GCT0NIR8NLFI03BKJA0/hourigan_4.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 4. Percentage of nice individuals by generation, for 5000 generations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528970927455-H6NQE6BMAV6JNDW5VPHO/image-asset.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 5. Niceness % and Average IQ for 4000 generations without malignment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528970969094-M26GVNJ0Y9ZLL02V352D/hourigan_6.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 6. Niceness % and Average IQ for 4000 generations with malignment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528971002863-NR342XXFF7XZNTB3XM9G/hourigan_7.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Figure 7. The circular arrangement of processes in this parallel implementation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528971031360-HBKYXDMWD4V4M11U91T8/image-asset.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Table 1. Results of the parallel implementation for each of the twelve slave processes in which migration is disabled. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528971070224-GFNBK32AKBVDL06V6FJY/image-asset.gif 2004, September - The Genetic Algorithm, the Evolution of Cooperation, and "Niceness" in the Iterated Prisoner's Dilemma Table 2. Results of the parallel implementation for each of the twelve slave processes in which migration is enabled. https://www.jyi.org/2004-september/2004/9/17/nih-to-open-nationally-funded-stem-cell-bank monthly 0.5 2018-06-14 https://www.jyi.org/2004-september/2017/10/17/students-promoting-science-how-to-take-science-out-of-the-lab-and-into-the-community monthly 0.5 2018-06-14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508294473619-NHYWSO3ARJ0UQB2HPII6/img0.jpg 2004, September - Students Promoting Science: How to take Science out of the Lab and into the Community Academic assistants John Eng and Wayne Lippa launch the 2003 Lethbridge Regional Science Festival with a bang during the opening day Chemistry Magic Show at the University of Lethbridge. (Photo Courtesy: University of Lethbridge). https://www.jyi.org/2004-september/2004/9/17/understanding-who-becomes-terrorists monthly 0.5 2018-06-14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508294216227-4PV7C6FUZSJ0VKOYY0QD/img0+%281%29.jpg 2004, September - Understanding Who Becomes Terrorists Figure 1. Data collected from 341 members of the political-religious movement Hizballah. The question was open-ended, part of a self report survey, and asked participants to explain reasons for their association with Hizballah. Source: Schbley, 2003. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508294261569-BKZXFNAW7ERRPUJ7EKSZ/img1.jpg 2004, September - Understanding Who Becomes Terrorists Figure 2. Hamas is a terrorist organization based in Palestine. Many groups that the United States government classifies as terrorist organizations perform communal work within their own countries. Scholars believe much of the support Hamas receives from Palestinians is due to their communal work. All data is from 1996. Source: Hudson, 1999. https://www.jyi.org/2004-september/category/Features monthly 0.5 https://www.jyi.org/2004-september/category/Science+News monthly 0.5 https://www.jyi.org/2004-september/category/Research monthly 0.5 https://www.jyi.org/2004-august daily 0.75 2017-10-18 https://www.jyi.org/2004-august/2004/8/17/stem-cells-may-not-heal-liver-disease monthly 0.5 2017-10-18 https://www.jyi.org/2004-august/2004/8/17/music-development-stronger-for-those-blind-at-early-age monthly 0.5 2017-10-18 https://www.jyi.org/2004-august/2004/8/17/does-storytelling-add-to-mathematical-success monthly 0.5 2017-10-18 https://www.jyi.org/2004-august/2017/10/17/flatbread-ice-cream-sandwiches-and-the-thrill-of-discovery-high-school-students-and-the-mars-rovers monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508294935050-SBYOU46DKBBWD4LAYUY7/img0+%281%29.jpg 2004, August - Flatbread, Ice Cream Sandwiches, and the Thrill of Discovery: High School Students and the Mars Rovers Adirondack, a large rock at Gusev Crater, as seen by the Spirit Rover. Image Courtesy of NASA and JPL. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508294971610-5WU263WV51JHXVXMXQFY/img1.jpg 2004, August - Flatbread, Ice Cream Sandwiches, and the Thrill of Discovery: High School Students and the Mars Rovers Examining Adirondack. The Laguna-Acoma team examines some thermal infrared data on the Adirondack rock at Gusev Crater. Image courtesy of NASA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508295023094-CVMZA010LIKBV4VTJ801/image-asset.jpeg 2004, August - Flatbread, Ice Cream Sandwiches, and the Thrill of Discovery: High School Students and the Mars Rovers The Laguna-Acoma Team. Left to right: Joe Aragon, Brandon Herrera, Mark Vallejos, and Dr. Larry Crumpler. Not pictured: Henry Vicente, team science journalist. Image courtesy of NASA. https://www.jyi.org/2004-august/category/Features monthly 0.5 https://www.jyi.org/2004-august/category/Science+News monthly 0.5 https://www.jyi.org/2004-july daily 0.75 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/new-treatment-targets-antibiotic-resistant-superbug monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/tobacco-companies-target-working-class-women monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/does-stress-increase-risk-for-uterine-cancer monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/lord-of-the-rings-saturn-style monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/bird-rediscovered-after-decade-disappearance monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/new-microscope-shows-neutron-pattern-promise monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/japan-and-un-begin-restoring-iraqi-marshlands monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/metabolism-boosting-peptide-may-unlock-target-for-anti-obesity-drugs monthly 0.5 2017-10-18 https://www.jyi.org/2004-july/2004/7/19/transgenic-plants-a-budding-controversy-stems-from-consumer-concerns monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508295781172-38UYIUMRIC5VS89IFDRB/img0.jpg 2004, July - Transgenic Plants: A Budding Controversy Stems from Consumer Concerns Figure 1. Plant cloning through tissue culture propagation. One of genetic engineering's most powerful tools, cloning results in a "replica" of the original organism. In this diagram, a plant is shown being cloned by isolating its root cells and allowing them to grow in a nutrient-rich culture. The root cells will de-differentiate into calluses, or masses of non-specialized cells. These calluses can then be exposed to various plant hormones, stimulating them to grow and eventually develop into plants similar to the original plant. (Source: www.science.howstuffworks.com) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508295818651-P94XIQXQBKHP6QGZHGKG/img1.jpg 2004, July - Transgenic Plants: A Budding Controversy Stems from Consumer Concerns Figure 2. Antibiotic-resistance marker genes. A gene that will confer antibiotic resistance to the plant is included in the same vector containing the gene which will give the plant its new, desired characteristic. If the plant exhibits antibiotic resistance, it can be deduced that the plant will also exhibit the new characteristic. (Source: BBC News) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508295900717-XK78LX24DBPZIPRVQAY6/img2.jpg 2004, July - Transgenic Plants: A Budding Controversy Stems from Consumer Concerns Figure 3. Recent public opinion concerning mandatory labeling of genetically modified foods. From 1998 to 2001, there was an 11% increase in public support for mandatory labeling. This steady increase demonstrates a growing public concern and consumer desire to know what types of food are being purchased and eaten. (Source: Americans & The World: Public Opinions on International Affairs) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508295942728-UGH5YIMG4DBGS7AG4Z7M/img3.jpg 2004, July - Transgenic Plants: A Budding Controversy Stems from Consumer Concerns Figure 4. Policy cartoon by Reymond Page. This image, one of many of its kind, depicts the growing public distrust and suspicion of biotech companies and their policies. In this cartoon, the artist addresses the possibility of genetic modifications modifying more than the scientist's intended target and the seemingly casual manner in which organisms are modified. (Source: Action Group on Erosion, Technology, and Concentration) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508295982539-XTU2NOP8ISQ9A15EUX45/image-asset.jpeg 2004, July - Transgenic Plants: A Budding Controversy Stems from Consumer Concerns Figure 5. Wheat blows in the wind. The visual similarities between modified and non-modified crops make it impossible for the consumer to detect any modifications without seeing a label that describes the food as modified. Consumer trust is simply one of many facets to the controversy surrounding genetically modified food and the labels that might accompany such food. https://www.jyi.org/2004-july/category/Features monthly 0.5 https://www.jyi.org/2004-july/category/Science+News monthly 0.5 https://www.jyi.org/2004-june daily 0.75 2017-10-18 https://www.jyi.org/2004-june/2004/6/19/not-just-a-chip-off-the-old-block monthly 0.5 2017-10-18 https://www.jyi.org/2004-june/category/Science+News monthly 0.5 https://www.jyi.org/2003-february daily 0.75 2017-10-18 https://www.jyi.org/2003-february/2003/2/21/regaining-control-treatment-options-for-spinal-cord-injury-bladder-dysfunction monthly 0.5 2017-10-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508297430692-HP7MAVVYOVFHIPGV59V5/image-asset.jpeg 2003, February - Regaining control: treatment options for spinal cord injury bladder dysfunction Figure 1 - Spinal cord showing the divisions and specific nerves coming out of each divisions. Courtesy of Gerard J. Tortora (1999) Principles of Human Anatomy (eight edition) John Willy & Sons Inc. , New York https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508297463992-8LK4FI8LYX2FJXHFWYSZ/image-asset.jpeg 2003, February - Regaining control: treatment options for spinal cord injury bladder dysfunction Figure 2 - Spinal cord connection of nerves to muscle groups of the human body Courtesy of Gerard J. Tortora (1999) Principles of Human Anatomy (eight edition) John Willy & Sons Inc. , New York https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508297504973-W4MLIRDJ62IG8Q40FSWE/image-asset.jpeg 2003, February - Regaining control: treatment options for spinal cord injury bladder dysfunction Figure 3 - Structure of the bladder Courtesy of Gerard J. Tortora (1999) Principles of Human Anatomy (eight edition) John Willy & Sons Inc. , New York https://www.jyi.org/2003-february/category/Features monthly 0.5 https://www.jyi.org/2002-december daily 0.75 2017-10-23 https://www.jyi.org/2002-december/2002/12/23/evidence-for-an-ancient-ocean-on-mars monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508778718492-32V4VX497RWZY91RP0F5/image-asset.jpeg 2002, December - Evidence for an Ancient Ocean on Mars 2001 Mars Odyssey, an orbiting spacecraft designed to determine the composition of the planet's surface, detect water and shallow buried ice, and study the radiation environment. Image courtesy of NASA Mars Missions https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508778760816-T843JWLF5DJR8CGW6NI8/image-asset.jpeg 2002, December - Evidence for an Ancient Ocean on Mars Topography of Mars. Data from Mars Orbiter Laser Altimeter (MOLA). MOLA is an instrument currently in orbit around Mars on the Mars Global Surveyor (MGS) spacecraft. Image courtesy of Jet Propulsion Laboratory, www.marsglobalsurveyor.com https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508778795074-0VZWSCVW1CONPMMU67H1/image-asset.jpeg 2002, December - Evidence for an Ancient Ocean on Mars Mars Global Surveyor. The spacecraft's prime mission is to map Mars. The surveyor has studied the entire Martian surface, atmosphere, and interior, and has returned more data about the red planet than all other Mars missions combined. Image courtesy of NASA Mars Missions https://www.jyi.org/2002-december/category/Features monthly 0.5 https://www.jyi.org/2002-october daily 0.75 2017-10-23 https://www.jyi.org/2002-october/2002/10/23/bioinformatics-life-science-research-in-silico monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508779029845-CXIWTY8UKBSMZY95LKF1/image-asset.jpeg 2002, October - Bioinformatics: Life Science Research In Silico article_531_order_0 https://www.jyi.org/2002-october/category/Features monthly 0.5 https://www.jyi.org/2002-september daily 0.75 2017-10-23 https://www.jyi.org/2002-september/2002/9/23/antibiotic-resistance-not-just-for-people-anymore monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508779382862-KZXRQO2DQ97W2PZABQL8/img0.jpg 2002, September - Antibiotic Resistance: Not Just for People Anymore article_524_order_0 https://www.jyi.org/2002-september/2002/9/23/milk-doing-your-body-good monthly 0.5 2017-10-23 https://www.jyi.org/2002-september/category/Features monthly 0.5 https://www.jyi.org/2002-august daily 0.75 2017-10-23 https://www.jyi.org/2002-august/2002/8/23/the-roots-of-discontent-with-managed-care monthly 0.5 2017-10-23 https://www.jyi.org/2002-august/2002/8/23/gene-therapy-techniques-of-cell-transfection monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508779674209-H88FFG1DVPJJKFQ8F9ZY/image-asset.jpeg 2002, August - Gene Therapy: Techniques of Cell Transfection article_480_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508779697801-5FRK2REC37EUNAD9PKDJ/image-asset.jpeg 2002, August - Gene Therapy: Techniques of Cell Transfection article_480_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508779722110-6HD5S16Q0XG96BSSRLIR/image-asset.jpeg 2002, August - Gene Therapy: Techniques of Cell Transfection article_480_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508779753137-7WSXG596IBF2C4WE5I9Q/image-asset.jpeg 2002, August - Gene Therapy: Techniques of Cell Transfection article_480_order_3 https://www.jyi.org/2002-august/category/Features monthly 0.5 https://www.jyi.org/2002-july daily 0.75 2017-10-23 https://www.jyi.org/2002-july/2017/10/23/why-scientists-do-science-a-trek-for-answers monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508780294229-XRUN25R6AXJIOQTO9SKP/image-asset.jpeg 2002, July - Why Scientists Do Science: A Trek For Answers article_518_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508780322273-BM36Y9M46PRKWMMYO3SX/image-asset.jpeg 2002, July - Why Scientists Do Science: A Trek For Answers article_518_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508780438820-Z57UB6QYR3RK2IYWATTE/image-asset.jpeg 2002, July - Why Scientists Do Science: A Trek For Answers Davies: "Only 1% of the science you conduct actually provides new information, and it is this new information that gives you the excitement to continue." Source: Cornell University, Department of Plant Biology https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508780508397-KCPMRJFHYWMH3JAO8SU5/img0.jpg 2002, July - Why Scientists Do Science: A Trek For Answers Bedford: "Science is elegant." Source: Cornell University, Department of Natural Resources https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508780563927-Y7930FKJMHIW5WXUSFV0/image-asset.jpeg 2002, July - Why Scientists Do Science: A Trek For Answers Photo courtsey Maclean/Oxford Scientific Films https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508780616931-YDTCA6WXVAHHPJKIC5JX/img2.jpg 2002, July - Why Scientists Do Science: A Trek For Answers Peckarsky at play: "Science in a vacuum is silly." Source: Cornell University, College of Agricultural and Life Sciences https://www.jyi.org/2002-july/category/Features monthly 0.5 https://www.jyi.org/2002-june daily 0.75 2017-10-23 https://www.jyi.org/2002-june/2002/6/23/analytical-chemistry-comes-to-the-rescue-solving-the-human-genome-and-other-biological-mysteries-with-capillary-electrophoresis monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508786690244-U3Q049RV6ZV936LRU0Y0/image-asset.jpeg 2002, June - Analytical Chemistry Comes to the Rescue: Solving the Human Genome and other Biological Mysteries with Capillary Electrophoresis article_460_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508786728659-CP7FSDO2NJVI8BIYGY6B/img1.jpg 2002, June - Analytical Chemistry Comes to the Rescue: Solving the Human Genome and other Biological Mysteries with Capillary Electrophoresis article_460_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508786749643-F1PK2VTZZBT1MPJT38RF/img2.jpg 2002, June - Analytical Chemistry Comes to the Rescue: Solving the Human Genome and other Biological Mysteries with Capillary Electrophoresis article_460_order_2 https://www.jyi.org/2002-june/2002/6/23/science-writing-is-a-winding-road-perspectives-from-caroline-simmons monthly 0.5 2017-10-23 https://www.jyi.org/2002-june/2002/6/23/so-many-numbers-what-do-you-do-with-the-data monthly 0.5 2017-10-23 https://www.jyi.org/2002-june/2002/6/23/dark-energy-in-the-land-of-speculative-science monthly 0.5 2017-10-23 https://www.jyi.org/2002-june/2002/6/23/the-viral-roots-of-cancer monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508786161912-3UHYGDACGC9VNXQ89GKF/image-asset.jpeg 2002, June - The Viral Roots of Cancer article_458_order_0 https://www.jyi.org/2002-june/category/Features monthly 0.5 https://www.jyi.org/2002-may daily 0.75 2017-10-23 https://www.jyi.org/2002-may/2002/5/23/the-cell-cycle-and-cancer monthly 0.5 2017-10-23 https://www.jyi.org/2002-may/2002/5/23/genomics-giants-receive-awards-for-research monthly 0.5 2017-10-23 https://www.jyi.org/2002-may/2002/5/23/burning-the-midnight-oil-using-the-internet-for-science-research monthly 0.5 2017-10-23 https://www.jyi.org/2002-may/2002/5/23/when-bacteria-go-bad-the-case-of-necrotizing-fasciitis monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508787113283-9W4H79DD738YYL0AXPND/img0.jpg 2002, May - When Bacteria Go Bad - the Case of Necrotizing Fasciitis article_463_order_0 https://www.jyi.org/2002-may/2002/5/23/innovation-vs-access-two-epidemics-transform-the-pharmaceutical-patent-law-debate-into-an-international-controversy monthly 0.5 2017-10-23 https://www.jyi.org/2002-may/category/Features monthly 0.5 https://www.jyi.org/2002-april daily 0.75 2017-10-23 https://www.jyi.org/2002-april/2002/4/23/chlamydomonas-a-powerful-tool-for-biological-research monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790007057-UUAVZ1S37JL2FVUES3PJ/image-asset.jpeg 2002, April - Chlamydomonas: A Powerful Tool For Biological Research article_471_order_0 https://www.jyi.org/2002-april/2002/4/23/rnai-possible-therapies-potential-breakthroughs monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508789837135-A5HBS344YBEEEQHRQ573/img0.jpg 2002, April - RNAi: Possible Therapies, Potential Breakthroughs article_470_order_0 https://www.jyi.org/2002-april/2002/4/23/hagfish-arent-so-horrible-after-all monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508788428475-ZHQBV2K2QATDDT9WZAAM/image-asset.jpeg 2002, April - Hagfish Aren't So Horrible After All article_469_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508788450769-RX54DUOYCDXX288VXNM6/img1.jpg 2002, April - Hagfish Aren't So Horrible After All article_469_order_1 https://www.jyi.org/2002-april/2002/4/23/fuel-cells-hope-for-the-future monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508788168271-8TL1TKYWSND5XL7RFB9A/image-asset.jpeg 2002, April - Fuel Cells: Hope for the Future article_468_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508788231275-59QYUGSZO44AENT4V3YH/image-asset.jpeg 2002, April - Fuel Cells: Hope for the Future article_468_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508788264726-2BOLXVDB72O3ZSVEF13L/image-asset.jpeg 2002, April - Fuel Cells: Hope for the Future article_468_order_2 https://www.jyi.org/2002-april/2002/4/23/catastrophic-events-in-the-history-of-life-toward-a-new-understanding-of-mass-extinctions-in-the-fossil-record-part-ii monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508787820706-ZKXWL85I0IGEMNFHGS4O/img0+%281%29.jpg 2002, April - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part II article_472_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508787830545-7JRUO1B4UI9D62KE5S94/img1.jpg 2002, April - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part II article_472_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508787860824-PJFTSDU9SBFCJ83R5ORI/image-asset.jpeg 2002, April - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part II article_472_order_2 https://www.jyi.org/2002-april/category/Features monthly 0.5 https://www.jyi.org/2002-march daily 0.75 2017-10-23 https://www.jyi.org/2002-march/2017/10/23/catastrophic-events-in-the-history-of-life-toward-a-new-understanding-of-mass-extinctions-in-the-fossil-record-part-i monthly 0.5 2017-10-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790774132-9SNV7WCARFOPRS2VDXMV/image-asset.jpeg 2002, March - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part I article_486_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790800636-721Z2HEZYW9ZZOYLR7S7/image-asset.jpeg 2002, March - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part I article_486_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790843184-5W1MMIXT2DNXEQKJVBUF/image-asset.jpeg 2002, March - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part I article_486_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790881013-WKP4M2TXH55T9U7ZQ9AS/image-asset.jpeg 2002, March - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part I article_486_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790970779-YIEV329C1EX3PN9Q0LME/image-asset.jpeg 2002, March - Catastrophic Events in the History of Life: Toward a New Understanding of Mass Extinctions in the Fossil Record - Part I article_486_order_4 https://www.jyi.org/2002-march/2002/3/23/defining-personhood monthly 0.5 2020-03-29 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790299890-YBWDHITB0HQYCK91GR1A/image-asset.jpeg 2002, March - Defining Personhood article_479_order_0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790315706-0RR3JO1ZQKLQ3RH0Z9JN/image-asset.jpeg 2002, March - Defining Personhood article_479_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790346090-YKEVU1XRW7W80GA9SFA2/image-asset.jpeg 2002, March - Defining Personhood article_479_order_2 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790360653-9SRKUVDY8Y4VKCEBGOKG/img3.jpg 2002, March - Defining Personhood article_479_order_3 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790382325-7X461JBC29UUD1Y18KBE/image-asset.jpeg 2002, March - Defining Personhood article_479_order_4 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790394383-2RP4LL67DFVBAL1UXC9M/image-asset.jpeg 2002, March - Defining Personhood article_479_order_5 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790439140-KCZ8RER8TGLQCS843URE/img6.jpg 2002, March - Defining Personhood article_479_order_6 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1508790455803-ZSYOR1BA3XJ34HTDTWPH/img7.jpg 2002, March - Defining Personhood article_479_order_7 https://www.jyi.org/2002-march/category/Features monthly 0.5 https://www.jyi.org/2002-february daily 0.75 2017-10-23 https://www.jyi.org/2002-february/2017/10/23/exploring-the-ozone-hole-mechanisms-of-stratospheric-denitrification monthly 0.5 2017-10-30 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509386612056-1BH0OKNLIRF0NK2GSI39/img0.jpg 2002, February - Exploring the Ozone Hole: Mechanisms of Stratospheric Denitrification Table 1. Summary of Type 1 and Type 2 PFCs https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509386646368-P8KQD5Y5KQ7KRUU43TWA/img1.jpg 2002, February - Exploring the Ozone Hole: Mechanisms of Stratospheric Denitrification Table 2. Type 1 and Type 2 PSCs as potential denitrifiers https://www.jyi.org/2002-february/2002/2/23/science-in-the-name-of-beauty-summer-internships-give-insight-into-the-scientific-research-behind-cosmetics monthly 0.5 2017-10-23 https://www.jyi.org/2002-february/category/Features monthly 0.5 https://www.jyi.org/2001-december daily 0.75 2017-10-30 https://www.jyi.org/2001-december/2001/12/28/stem-cells-and-public-funding-moral-controversies-and-scientific-issues monthly 0.5 2017-10-30 https://www.jyi.org/2001-december/category/Features monthly 0.5 https://www.jyi.org/2001-november daily 0.75 2017-10-30 https://www.jyi.org/2001-november/2001/11/28/lasers-magnets-and-the-coldest-stuff-in-the-universe-an-introduction-to-bose-einstein-condensation monthly 0.5 2017-10-30 https://www.jyi.org/2001-november/category/Features monthly 0.5 https://www.jyi.org/1998-december daily 0.75 2017-10-30 https://www.jyi.org/1998-december/1998/12/28/summer-internships monthly 0.5 2017-10-30 https://www.jyi.org/1998-december/2017/10/30/mitochondrial-role-in-the-signal-transduction-pathway-of-ceramide-induced-apoptosis monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509385839137-M8MNYOOZSVK1IR3DLEQ8/img0.jpg 1998, December - Mitochondrial Role in the Signal Transduction Pathway of Ceramide-Induced Apoptosis article_3478_order_1 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509385917026-X750WD8U99GZHGMRYDEI/img1+%281%29.jpg 1998, December - Mitochondrial Role in the Signal Transduction Pathway of Ceramide-Induced Apoptosis Figure 1: PARP proteolysis in response to C6-ceramide https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509385969521-E7G6HECT8P65ASNFIOB8/img2.jpg 1998, December - Mitochondrial Role in the Signal Transduction Pathway of Ceramide-Induced Apoptosis Figure 3: Inhibition of PARP proteolysis by calyculin https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509386007251-I5EQV1HWARYYV5KOCNS2/img3.jpg 1998, December - Mitochondrial Role in the Signal Transduction Pathway of Ceramide-Induced Apoptosis Figure 4: Effects of Rotenoen on PARP proteolysis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509386148489-S3X6XWHBPAWHQZTWJ7DF/img4.jpg 1998, December - Mitochondrial Role in the Signal Transduction Pathway of Ceramide-Induced Apoptosis Figure 5: Proposed scheme for ceramide-dependent signal transduction pathway for apoptosis https://www.jyi.org/1998-december/1998/12/28/stepwise-assembly-of-silvern-alkanethiolates-an-example-of-hierarchical-or-cooperative-self-assembly monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509385297661-4YGELD9CNDQ3P05MB3TA/img0.jpg 1998, December - Stepwise Assembly of Silver(n-alkane)thiolates: An Example of Hierarchical or Cooperative Self-Assembly Figure1: Model description of the proposed structure of long-chain silverthiolates. The top panel indicates the trigonal coordination of Ag with S atoms resulting in a quasi-hexagonal inorganic core of ~ 1 &Aring; thickness. The bottom panel schematically depicts the chain orientation, packing, voids, and slight interdigitation between the methyl groups in a cross-section of the three-dimensional structure.Larger version https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509385344609-ZTOYTZ78R3GDQCHA6RVQ/img1.jpg 1998, December - Stepwise Assembly of Silver(n-alkane)thiolates: An Example of Hierarchical or Cooperative Self-Assembly Figure 2: Key vibrational modes of organic residue of AgS(CH2)nCH3.Larger version https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509385508065-PPNSB3Q6F47J0DSF44JI/img2.jpg 1998, December - Stepwise Assembly of Silver(n-alkane)thiolates: An Example of Hierarchical or Cooperative Self-Assembly Scheme I: A Schematic depiction of the proposed hierarchical self-assembly mechanism for the formation of long-chain silver thiolates. The primary self-assembly involves the organization of the molecular precursors to form a quasi-2D Ag-S lattice with the alkyl groups extending on each side. The latter 2D building blocks stack subsequently in the third dimension to generate the pillared layered AgSR structure. https://www.jyi.org/1998-december/2001/11/28/a-review-of-the-highly-conserved-pax6-gene-in-eye-development-regulation monthly 0.5 2018-11-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509384997551-6J4O70ZDTTR32IRLQ1HZ/img0+%281%29.jpg 1998, December - A Review of the Highly Conserved PAX6 Gene in Eye Development Regulation article_3476_order_0 https://www.jyi.org/1998-december/2001/12/28/comparison-of-nest-defense-between-male-and-female-blue-headed-vireos monthly 0.5 2018-11-03 https://www.jyi.org/1998-december/category/Features monthly 0.5 https://www.jyi.org/1998-december/category/Research monthly 0.5 https://www.jyi.org/2017-february daily 0.75 2017-04-19 https://www.jyi.org/2017-february/interview-with-a-reproductive-biologist-a-closer-look-at-the-life-and-work-of-dr-anne-croy monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493782590589-3OYFLE3TKPY54VVWO2YC/anne.jpg 2017, February - Interview With a Reproductive Biologist: A Closer Look at the Life and Work of Dr. Anne Croy https://www.jyi.org/2017-february/worlds-first-crispr-clinical-trial monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493744348359-8P8QDDFGEGEJL4FLUNL5/image-asset.jpeg 2017, February - World's First CRISPR Clinical Trial https://www.jyi.org/2017-february/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-february/category/Features monthly 0.5 https://www.jyi.org/2017-february/category/Interview monthly 0.5 https://www.jyi.org/2017-march daily 0.75 2017-05-01 https://www.jyi.org/2017-march/2017/5/1/addition-of-zinc-manganese-and-iron-to-growth-media-triggers-antibiotic-production-in-bacterial-isolates-from-the-lower-atmosphere monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656881912-LRJICJ8F1ZKHDTU6OFWE/image-asset.png 2017, March - Addition of Zinc, Manganese, and Iron to Growth Media Triggers Antibiotic Production in Bacterial Isolates From the Lower Atmosphere Table 1. Inhibition of E. coli and S. aureus by isolates. + indicates inhibition of Gram-positive, - indicates inhibition of Gram-negative, a blank space indicates there was no inhibition, ? indicates the results were not conclusive, and X indicates the isolate did not grow. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656939596-T27H0500X2HW3197650F/table2.png 2017, March - Addition of Zinc, Manganese, and Iron to Growth Media Triggers Antibiotic Production in Bacterial Isolates From the Lower Atmosphere Table 2. Inhibition of S. aureus by 16s rRNA gene identified isolates. ++ indicates major inhibition, + indicates inhibition, (+) indicates mild inhibition, and – indicates no inhibition. https://www.jyi.org/2017-march/2017/5/1/rclone-a-synthetic-biology-tool-that-enables-the-research-of-bacterial-translation monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493655484184-28SXWATHBRZ4GMDIT0Q0/image-asset.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 1. The RBS of a mRNA base pairs with the 16S rRNA of the 30S ribosomal subunit. A. Simple RBS (B24 from this study). B. Bicistronic C dog RBS (C10 from this study). Dashed lines indicate hydrogen bonds from paired RNA bases. mRNA = messenger RNA; rRNA = ribosomal RNA; RBS = ribosome binding site; C dog = bicistronic RBS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493653727971-KV57G9SVF28F8UY8B5Q2/image-asset.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 2. rClone Red and rClone Blue allow RBSs to be cloned into a reporter gene expression cassette. A. BsaI and DNA ligase enable cloning of RBSs via GGA. B. Photographs show typical colony colors after GGA with rClone Red (right) or rClone Blue (left). RBS = ribosome binding site; GGA = Golden Gate assembly. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493655551866-3S6WA01V44QQGARLY2OJ/image-asset.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 3. Strategies for mutant RBS library construction. A. Plan for simple RBS libraries. Bottom. B. Plan for C dog libraries. C. List of oligonucleotides ordered for library construction. RBS = ribosome binding site; C dog = bicistronic RBS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493655609829-5OE4ONYEG12UKP0UVPA0/image-asset.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 4. Results from rClone experiments. Diagrams show various RBS strengths in rClone Red and photograph is an example of an rClone Red RBS N8 library plate. RBS = ribosome binding site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656060527-TFLX5GDZKT78W0F6IQAM/rClone-fig-5.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 5. Selected clones from simple RBS mutant libraries. A. Simple RBS N6 library. B. Simple RBS N8 library. Numbers represent the percentage of RFP produced compared to the strongest RBS, C10 in Figure 6. RBS = ribosome binding site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656157677-0J78F1F9RJ9BU43Y31WM/rClone-fig-6.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 6. Selected clones from C dog RBS mutant libraries. A. C dog N6 library. B. C dog N8 library. Numbers represent the percentage of RFP produced compared to the strongest RBS, C10. RBS = ribosome binding site; C dog = bicistronic RBS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656245669-QUNYFULOUKGYCPDSMOJ8/image-asset.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 7. Comparison of RBS consensus sequences. Consensus sequences are shown from simple RBS (left) and C dog (right) libraries and the consensus sequence from 149 naturally occurring E. coli RBSs (top). RBS = ribosome binding site; C dog = bicistronic RBS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656254875-O7I04U9Y6LMYZS5PQSQY/image-asset.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 8. Strengths of consensus validating sequences in simple RBS and C dog RBS contexts. A. Strengths of consensus validating sequences in their original contexts. B. Strengths of consensus validating sequences in the reciprocal contexts. The first letter of each clone name indicates the context in which the sequence is being tested, with R for RBS and C for C dog. The second letter of each clone name indicates the type of library from which the consensus was developed, with R for RBS and C for C dog. Underlined bases vary in a given consensus sequence. Colors highlight related validation sequences. Strength numbers represent the percentage of RFP produced compared to C10 in Figure 6. RBS = ribosome binding site; C dog = bicistronic RBS; RFP = red fluorescent protein. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656322111-B452R4LG6BKG450H4OFW/rClone-fig-9.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 9. Comparison of consensus sequence validating sequences in rClone Blue (top) and rClone Red (bottom). Clones listed at the bottom are the consensus validating sequences that are shared between rClone Red and rClone Blue. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1495228536458-RC4K2B7F72XJ8AX4GK0O/rClone-fig-10.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 10. mFold RNA folding analysis of rClone Red and rClone Blue mRNAs. The RC1 RBS forms a stable anti-RBS hairpin in rClone Red but not in rClone blue. mRNA = messenger RNA; RBS = ribosome binding site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493656407522-C1EMV3X5NNLHSN6Z3DEX/rClone-fig-11+%281%29.png 2017, March - rClone: A Synthetic Biology Tool That Enables the Research of Bacterial Translation Figure 11. Testing anti-RBS hypothesis to explain reduced RBS function in rClone Red. A. Two versions of RFP mRNA encoding the same three amino acids immediately following the start codon. The underlined letters indicate mutated bases. RNA structure and ΔG were calculated by mFold. B. The percentage of RFP protein produced (relative to C10 in Figure 6) by the two versions of rClone Red. RBS = ribosome binding site; RFP = red fluorescent protein. https://www.jyi.org/2017-march/2017/3/1/microbes-and-medicine-an-interview-with-dr-prameet-sheth monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493780242141-CQCF4F46JBPWV2NGYBS3/prameet.png 2017, March - Microbes and Medicine: An Interview With Dr. Prameet Sheth https://www.jyi.org/2017-march/2017/3/1/should-i-stay-or-should-i-lyse-viruses-communicate-to-make-decisions monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493653310614-25WQ0NQAMY2VRT0MHC01/Should-I-Stay-photo.png 2017, March - Should I Stay or Should I Lyse? Viruses Communicate to Make Decisions Figure 1. A bacteriophage infecting a host with its genetic information. https://www.jyi.org/2017-march/2017/3/1/a-magic-treatment-study-finds-psilocybin-reduces-anxiety-and-depression-in-cancer-patients monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493652936482-KCOUMCMRYBNN81WXT6DX/image-asset.png 2017, March - A Magic Treatment? Study Finds Psilocybin Reduces Anxiety and Depression in Cancer Patients Figure 1. Psilocybe. https://www.jyi.org/2017-march/2017/3/1/not-your-average-knot monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493653054569-4DTZ93D9BM1V1L3TQ9B2/knot-image.png 2017, March - Not Your Average Knot Figure 1. The simpler knot types, such as the trefoil and pentafoil, require only two chemical strands to synthesize. Constructing a 819 knot required three distinct strands and a unique braiding pattern. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493653104920-3B6W61ZG118LKEG0FADC/Knot-feature-image.png 2017, March - Not Your Average Knot Figure 2. Multiple steps are required to chemically assemble the molecular braid for a closed 819 knot. https://www.jyi.org/2017-march/2017/3/1/updated-alphago-ready-to-beat-worlds-best monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493779514779-HHIGPZ6MU0FBHHD8AK5T/image-asset.jpeg 2017, March - Updated AlphaGo Ready to Beat World's Best https://www.jyi.org/2017-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-march/category/Science+News monthly 0.5 https://www.jyi.org/2017-march/category/Research monthly 0.5 https://www.jyi.org/2017-march/category/Interview monthly 0.5 https://www.jyi.org/2017-april daily 0.75 2017-05-04 https://www.jyi.org/2017-april/2017/5/3/the-efficacy-of-aqueous-false-yam-icacina-oliviformis-tuber-extract-against-cowpea-aphids-aphis-craccivora-koch monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1494379584506-D7R2SCV6E0BLIUJXLMZ0/fig+1.png 2017, April - The Efficacy of Aqueous False Yam (Icacina oliviformis) Tuber Extract Against Cowpea Aphids (Aphis craccivora Koch) Figure 1. Effect of soaking period and concentration of false yam tuber extract on aphid mortality by topical application. LSD (p < 0.05) = 0.63 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1494379620156-8DH44OPIYKLOF3VM3H14/image-asset.png 2017, April - The Efficacy of Aqueous False Yam (Icacina oliviformis) Tuber Extract Against Cowpea Aphids (Aphis craccivora Koch) Figure 2. Effect of concentration of false yam tuber extract and period of exposure of aphids on mortality. LSD (p < 0.05) = 0.63. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1494379700170-DN12SEKM9Z9S9GVPANHP/fig+3.png 2017, April - The Efficacy of Aqueous False Yam (Icacina oliviformis) Tuber Extract Against Cowpea Aphids (Aphis craccivora Koch) Figure 3. Effect of concentration of false yam and the duration of aphid exposure on mortality by indirect leaf spray (p = 0.028). https://www.jyi.org/2017-april/2017/5/3/the-in-vitro-studies-of-the-inhibitory-effect-of-green-tea-camellia-sinensis-on-pseudomonas-aeruginosa-treated-contact-lenses monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493860305184-T3WHQVJQ1UYKURHXYUQ2/camellia+fig.+1.jpg 2017, April - The in vitro Studies of the Inhibitory Effect of Green Tea (Camellia sinensis) on Pseudomonas aeruginosa Treated Contact Lenses Figure 1. The correlation of the number of P. aeruginosa (CFU/ml) versus optical density. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493860363520-DCI9ND0LTAXQ3KFUHBXV/image-asset.jpeg 2017, April - The in vitro Studies of the Inhibitory Effect of Green Tea (Camellia sinensis) on Pseudomonas aeruginosa Treated Contact Lenses Figure 2. The average diameter (+SEM) (cm) of the clear zones when 107 P. aeruginosa was treated with green tea and black tea disc at different concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493860425797-RBU14TG1XG5SVW51DMN8/image-asset.png 2017, April - The in vitro Studies of the Inhibitory Effect of Green Tea (Camellia sinensis) on Pseudomonas aeruginosa Treated Contact Lenses Table 1. The average number (± SEM) in CFU and the bacterial inhibition rate in percentage of P. aeruginosa recovered from contact lenses when treated with different solutions, followed by the incubation with 106 P. aeruginosa for an hour. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493860481907-UFHD5XTIZQW39GWVWDBJ/image-asset.png 2017, April - The in vitro Studies of the Inhibitory Effect of Green Tea (Camellia sinensis) on Pseudomonas aeruginosa Treated Contact Lenses Table 2. The average number (±SEM) in CFU of P. aeruginosa recovered from contact lenses when treated with different solutions after the contact lenses were incubated with 106 P. aeruginosa for an hour. https://www.jyi.org/2017-april/2017/5/2/a-marriage-of-psychology-and-genetics-the-field-of-genetic-counseling monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493781369694-91WESSBSYZL41XLFURHC/image-asset.png 2017, April - A 'Marriage' of Psychology and Genetics: The Field of Genetic Counseling https://www.jyi.org/2017-april/2017/4/1/beyond-the-microscope-a-closer-look-at-the-work-of-dr-james-reynolds monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493781155989-EQSNAS4AW492T2Y9QFQX/image-asset.png 2017, April - Beyond the Microscope: A Closer Look at the Work of Dr. James Reynolds https://www.jyi.org/2017-april/2017/5/2/sleep-quality-and-attention-deficit-hyperactivity-disorder monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493780705739-DKHRCN6ZB4D9CRO4RBJT/image-asset.jpeg 2017, April - Sleep Quality and Attention Deficit Hyperactivity Disorder https://www.jyi.org/2017-april/2017/4/1/pig-chimeras-offer-glimpse-of-future-human-organ-development monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493780655081-7HJZJLWHWLWTZ2JUJ1SL/image-asset.gif 2017, April - Pig Chimeras Offer Glimpse of Future Human Organ Development https://www.jyi.org/2017-april/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-april/category/Science+News monthly 0.5 https://www.jyi.org/2017-april/category/Research monthly 0.5 https://www.jyi.org/2017-april/category/Interview monthly 0.5 https://www.jyi.org/2017-may daily 0.75 2017-05-02 https://www.jyi.org/2017-may/2017/5/1/life-at-the-forefront-of-infectious-disease-an-interview-with-dr-andrew-henderson monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493742135259-6V4R180ZHX9L4TBMBOKQ/HENDERSON-article-feature-.gif 2017, May - Life at the Forefront of Infectious Disease : An Interview with Dr. Andrew Henderson https://www.jyi.org/2017-may/2017/5/1/becoming-a-vet-comparing-the-us-to-the-uk monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493741678183-41D5XOTB9FUSKBC34HC9/image-asset.jpeg 2017, May - Becoming a Vet- Comparing the US to the UK https://www.jyi.org/2017-may/2017/5/1/unraveling-the-mechanisms-of-schizophrenia monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1493740545193-BF82KQYOHUI7RAIDUEIV/image-asset.jpeg 2017, May - Unraveling the Mechanisms of Schizophrenia https://www.jyi.org/2017-may/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-may/category/Science+News monthly 0.5 https://www.jyi.org/2017-june daily 0.75 2018-03-20 https://www.jyi.org/2017-june/2017/6/20/is-unpaved-road-dust-near-fairbanks-alaska-a-health-concern-examination-of-the-total-and-bioaccessible-metalloids monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557381063-KF8J736EMVS9F5U4M1NE/UR-Figure-1.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Figure 1. Exposure mechanisms for dust particles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557429797-LDIQH52K24S5JR4SCJWQ/Fig-2-map-526x1024.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Figure 2. Major Alaskan roads outlined in blue with study areas in red. Expanded views of Fairbanks sample sites and Denali Highway. Images from Google earth and Alaska Department of Transportation (AK DOT, 2016). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557459366-6UHIMFKOIRU05YY0X9VR/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Table 1. Sample descriptions and summary of collection methods. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557541823-7A8JU9ZQNHIQSOVXP5FM/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557504889-OLL3353N2YI5PNAZXMJB/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Figure 3. Enrichment factors of dust relative to average crustal abundance. Values above one are enriched whereas values below one are depleted relative to average crustal abundance values tabulated in Table 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557589443-YYC5CSL20LY4TAILEGDV/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Table 2. Total metal(loid) concentrations. For comparison, average crustal abundance, U. S. Environmental Protection Agency residential soil screening levels, oral references doses, and reference inhalation concentrations are also tabulated. Average and one standard deviation of duplicate measurements are reported for unsieved samples. Values below detection limit are indicated by BDL, and values not reported are indicated by NR. a Values for upper continental crust from (Rudnick, 2006). b From Regional Screening Level (RSL) Resident Soils Table (EPA, 2016). c Tabulated as reference dose (RfD0) or SFO, an estimate of a daily oral exposure to the human population that is likely to be without an appreciable risk of deleterious effects during a lifetime in EPA (2016). d Tabulated as inhalation unit risk (IUR), an upper bound excess lifetime cancer risk estimated from continuous exposure to an agent at a concentration of 1 µg m-3 in air (EPA, 2016). e Tabulated as chronic inhalation reference concentration (RfCi; EPA, 2016). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557636693-A1DE3GBAANRUW5KMRE22/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557666137-E9741WYN6U8WV47A4JO4/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557694504-47KKF4CMDVKES4WB4GJU/ur-equation-4.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557761838-WOGLPKJJB4OWA1TWLZZV/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557718654-BP6F441PAE30DTXNVZEL/Fig-4-exposure-hazard-856x1024.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Figure 4. Health risk associated with road dust. Exposure potentials for each sample in addition to EPA reference doses or concentrations are shown for A. gastric, and B. inhalation exposures to road dust. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1521557995040-RWFLEMZWWPJXZTGPFQ5X/image-asset.png 2017, June - Is Unpaved Road Dust Near Fairbanks, Alaska a Health Concern? Examination of the Total and Bioaccessible Metal(loid)s Table 3. Percent gastric and lung bioaccessibility of metal(loid)s. Values are reported as the average percent solubility relative to the total and one standard deviation of triplicate measurements. Physiologically-based extraction tests were performed on less than 250 µm for gastric and less than 37 µm for lung extractions isolated by dry sieving. For lung bioaccessibility, Cr, Mn, Zn, Ag, Pb, and Th were excluded from the table because all extracted solutions were below detection limits. https://www.jyi.org/2017-june/2017/6/1/comparison-of-dark-matter-proportions-across-types-of-spiral-galaxies monthly 0.5 2018-11-12 https://www.jyi.org/2017-june/2017/6/1/varying-sugars-and-sugar-concentrations-influence-in-vitro-pollen-germination-and-pollen-tube-growth-of-cassia-alata-l monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436351087-WPIW8MIFZLPKJQIIYB8T/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436455592-49CSAC2ANR8KQ7P57IZH/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Figure 1. Mean number of germinated pollen grains per sugar concentration after 3 h of incubation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436562380-MIYYVJX2XCDHN9KQCHMC/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Table 1. Mean pollen tube lengths (in μm) in response to increasing lactose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436592809-SB3FKJYUC2902V4H9MG1/Vs-figure-2.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Figure 2. Graph showing mean pollen tube lengths (in μm) in response to increasing lactose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436615868-9LTJIGLWOBWQA0G568CC/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Table 2. Mean pollen tube lengths (in μm) in response to increasing glucose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436644668-J41YMCYNU0F5W19XZYO1/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Figure 3. Mean pollen tube lengths (in μm) in response to increasing glucose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436667947-NH22FIMW34RI6B0BH381/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Table 3. Mean pollen tube lengths (in μm) in response to increasing sucrose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436675806-HF2ZZ1HOOWHGH9M8T32Y/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Figure 4. Mean pollen tube lengths (in μm) in response to increasing sucrose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496436684642-VMKEVN8J7N3X02O9GMER/image-asset.png 2017, June - Varying Sugars and Sugar Concentrations Influence In Vitro Pollen Germination and Pollen Tube Growth of Cassia alata L. Figure 5. Pollen germination on sucrose. https://www.jyi.org/2017-june/2017/6/2/a-transcriptome-study-of-borrelia-burgdorferi-infection-in-murine-heart-and-brain-tissues monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439437003-34910IRE8DFD9FIQKKXV/image-asset.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 1. Workflow of the dual-method approach to differential gene expression analysis and signaling pathway identification. (A) Short reads mapping and differentially expressed gene (DEG) identification using DESeq2. (B) RNA-seq short reads mapping and DEG identification using the Tuxedo pipeline. (C) Signaling pathway analysis of DEGs using WebGestalt and SPIA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439647485-X721J7E8C9H3K2U7A1Q2/image-asset.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Table 1. Altered heart pathways associated with differentially expressed genes (DEGs). Top ten pathways ordered by the number of DEGs are listed in below. Only nine pathways in brain tissue were identified by WebGestalt and DESeq2. pPERT is the p-value for a pathway to be perturbed by DEGs. Pathways shared by at least three datasets are in bold. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439683225-9OIY6QY5L7ACIIIWOWYP/ts-table-2.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Table 2. Altered brain pathways associated with differentially expressed genes (DEGs). Top ten pathways ordered by the number of DEGs are listed in below. Only nine pathways in brain tissue were identified by WebGestalt and DESeq2. pPERT is the p-value for a pathway to be perturbed by DEGs. Pathways shared by at least three datasets are in bold. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439803689-LPWV0A7S51V54DE4VLPP/ts-figure-2.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 2. Comparison of Gene Ontology (GO) molecular function terms. (A ) Molecular function GO terms of heart DEGs generated by DESeq2 (left) and cufflinks (right). In both panels, the numbers below the captions of the bars represent the order sorted by the number of GO terms in each group. Underlined numbers on the right panel signify the conservation of their order on both panels. (B) Molecular function GO terms of brain DEGs generated by DESeq2 (left) and cufflinks (right). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439902630-Y1O1VGCJB8XAX5EZMSA8/ts-figure-3a.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 3A. Biological pathways altered by B. burgdorferi infection in heart tissue. Pathway diagrams were generated by Pathview (Luo, & Brouwer 2013). (A) Chemokine signaling pathway (mmu04062). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439940539-YG1P8WCE4NJND32A7CFJ/ts-figure-3b.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 3B. FcγR-mediated phagocytosis (mmu04666). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439877516-08N2Q6C07X4BEJ70IZSU/ts-figure-3c.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 3C. Response to S. aureus infection (mmu05150). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496439989599-HJWH8PFS3BEXLBW9R23C/ts-figure-3d.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 3D. Osteoclast differentiation (mmu04380). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496440000193-JNLLNXKBTZAXYD5DHGDL/ts-figure-3e.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 3. Response to Leishmanias infection (mmu05140). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496440206268-QEIJ9ARE4R19ZU3FUJVL/ts-figure-4a.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 4. Biological pathways altered by B. burgdorferi infection in brain tissue. (A) Calcium signaling pathway (mmu04020). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496440253542-FWK3ZVTMXWEIQCQ8HSGY/image-asset.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 4. Gap junction (mmu04540). Circled are Adcy4 and Plcb1 genes, discussed in text. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496440352882-DPJULWCWR6NZNM7E5470/ts-figure-4c.png 2017, June - A Transcriptome Study of Borrelia burgdorferi Infection in Murine Heart and Brain Tissues Figure 4C. Melanogenesis (mmu04916). Circled are Adcy4 and Plcb1 genes, discussed in text. https://www.jyi.org/2017-june/2017/6/2/development-of-a-methodology-to-determine-antibiotic-concentrations-in-water-samples-using-high-pressure-liquid-chromatography monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441165465-WEKV4LP9KQ0OADCL8DDT/image-asset.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Table 1. Manure concentrations for tested water samples. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441244246-M1WQXR38MGCXTAY7YO2E/ac-fig-1.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Figure 1. (A) The peaks for oxytetracycline (OTC) and tetracycline (TC) overlap when a MeOH with 0.05% acetic acid mobile phase solution is used. (B). Using a mobile phase solution of acetonitrile with 0.05% formic acid, the peaks between TC and OTC are distinct. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441223053-UY2M7S40MEFT5EDWYTJI/ac-fig-2.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Figure 2. (A) Clear, symmetric peaks of tetracycline (TC) and chlortetracycline (CTC) were seen with the Acclaim® RSLC C18 PA2 column. (B) The Acclaim® 120 C18 column produced slightly less distinct and symmetric peaks. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441301674-GTPGRJYEO6QG1C0AWQJ7/image-asset.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Table 2. Antibiotic recovery (%) associated with sample size. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441325988-RZESY6WW58L0G8S4NJ4K/image-asset.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Figure 3. Chromatographs showing peaks for oxytetracycline (OTC), tetracycline (TC), and chlortetracycline (CTC) at different wavelengths. (A) 230 nm, (B) 290 nm, and (C) 356 nm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441357055-3O7BG5YBB4G0ETN9VXM8/image-asset.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Figure 4. Antibiotic recovery rates (y-axis) decreased for oxytetracycline (OTC) as the concentration of manure (x-axis) increased. No significant trends were noted for tetracycline (TC) or chlortetracycline (CTC). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496441382452-538AOQW5N7PV1TGY9KSH/ac-fig-5.png 2017, June - Development of a Methodology to Determine Antibiotic Concentrations in Water Samples Using High-Pressure Liquid Chromatography Figure 5. (A) This chromatogram shows the control, which contained manure and deionized water. (B) The impurity in the control peaks at the same time as chlortetracycline (CTC), making it difficult to discern the CTC in the CTC spiked sample. https://www.jyi.org/2017-june/2017/6/1/preserving-history-for-posterity-the-museum-conservator monthly 0.5 2017-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1496442105064-Z18PGQDX0O7KBSQGN208/museum_conservation.jpg 2017, June - Preserving History for Posterity: The Museum Conservator https://www.jyi.org/2017-june/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-june/category/Research monthly 0.5 https://www.jyi.org/2017-july daily 0.75 2017-07-22 https://www.jyi.org/2017-july/2017/7/21/the-journalcareer-centernewsparticipateabout-us-prevalence-and-outcomes-of-electrolytes-deficiency-in-children-under-five-with-diarrhea-in-mwanza-tanzania monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1500688563384-1N0ACSXGC3KANJBIX26B/image-asset.png 2017, July - US Prevalence and Outcomes of Electrolytes Deficiency in Children under Five with Diarrhea in Mwanza, Tanzania Table 1. Demographic and clinical information of study participants. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1500688601878-8MCDX0MY0LL5ZKNOT5Q8/image-asset.png 2017, July - US Prevalence and Outcomes of Electrolytes Deficiency in Children under Five with Diarrhea in Mwanza, Tanzania Table 2. Factors associated with electrolytes deficiency. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1500688626892-CUL4V7YOPJEGYVYOK6J9/image-asset.png 2017, July - US Prevalence and Outcomes of Electrolytes Deficiency in Children under Five with Diarrhea in Mwanza, Tanzania Table 3. Outcome of electrolytes deficiency from day three after diarrhea treatment with ORS/antibiotics. https://www.jyi.org/2017-july/category/Research monthly 0.5 https://www.jyi.org/2017-august daily 0.75 2017-09-19 https://www.jyi.org/2017-august/2017/8/19/brain-tumor-segmentation-using-morphological-processing-and-the-discrete-wavelet-transform monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846464759-D4T3B6912MA9WCE7QXWT/BT-equation-1-1024x108.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846511597-IX64C0QO8OKMCV6R1UMF/BT-eq-2-1024x65.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846550653-TZ5ZDOIFAZR4CLL0UNGU/BT-eq-3.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846600517-RZEU7ZR936WUK0JLDWGZ/Screen-Shot-2017-07-29-at-7.46.16-PM.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846670980-EFLLXF0DR04TP982KHU8/Screen-Shot-2017-07-29-at-7.56.04-PM.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 1. Algorithm for DWT decomposition computation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846728937-DGIB2ER0QH7X6ISGCVJ5/image-asset.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 2. The results of performing skull stripping. A. Original brain MR image obtained from The Cancer Imaging Archive. B. The results of skull stripping the image a via the processes described in Methods: Step 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846790642-L7D2IMXQWTP1XBKUQIPI/btf8.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 3. The results of performing contrast enhancement on the skull-stripped image shown in Figure 2B. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846798562-YN9D7JR94CY3ASQHFFFU/JYI-Figure-4-1024x768.jpg 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 4. The results of performing Otsu thresholding on the image shown in Figure 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505846978219-GLIXYM5TAEC1YJVDBZSX/btf5.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 5. Wavelet Basis Functions Tested. A-D from left to right, top to bottom. A. Haar Basis. B. Daubechies 2 Basis (‘db2’). C. Symlet 4 Basis (‘sym4’). D. Symlet 20 Basis (‘sym20’). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505847053279-ZRVYCP7G06DQMW8ZS1NP/Screen-Shot-2017-07-29-at-7.56.24-PM.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 6. Father and mother wavelet functions, as well as the high and low pass decomposition and reconstruction filters, for the Symlet 20 wavelet. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505847093212-9W69ELX5BPZ7P4PZIW5H/JYI-Figure-7-1024x768.jpg 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 7. The results of performing wavelet decomposition and reconstruction on the image pictured in Figure 4. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505847139199-8YASZXEQMAC783GLBYPF/image-asset.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 8. A. The results of morphologically opening the image shown in Figure 7. B. The results of morphologically opening the image shown in Figure 4. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505847177081-CAH53SC6HBEPK37I1OTA/image-asset.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform Figure 9. A. The results of contrast enhancing and thresholding the image shown in Figure 8A. B. The results of contrast enhancing and thresholding the image shown in Figure 8B. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1505847220836-6SLJ8HR8RUZLEYLVNOVY/image-asset.png 2017, August - Brain Tumor Segmentation Using Morphological Processing and the Discrete Wavelet Transform https://www.jyi.org/2017-august/2017/8/19/strain-specific-microbial-strains-involved-in-gut-brain-signaling monthly 0.5 2018-11-12 https://www.jyi.org/2017-august/category/Research monthly 0.5 https://www.jyi.org/2017-september daily 0.75 2018-02-06 https://www.jyi.org/2017-september/2017/9/2/chronic-traumatic-encephalopathy-connecting-mechanisms-to-diagnosis-and-treatment monthly 0.5 2018-11-12 https://www.jyi.org/2017-september/2017/9/2/application-of-neuroscience-principles-for-evidence-based-design-in-architectural-education monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509637985866-698XC6A1D1AA3HWRJ299/NP-Figure-1.png 2017, September - Application of Neuroscience Principles for Evidence-based Design in Architectural Education Figure 1. 16 floor plans, the top two rows are connected (at 0° and 45°), the two rows at the bottom are disconnected floor plans (at 0° and 45°) (Werner & Schindler, 2004). Findings suggest that aligned floorplans reduce effort to establish spatial navigation. https://www.jyi.org/2017-september/2017/9/2/therapeutic-potential-of-optogenetic-treatment-for-individuals-with-multiple-sclerosis monthly 0.5 2018-11-12 https://www.jyi.org/2017-september/2017/9/1/keeping-current-mini-review-earthquake-forecasting monthly 0.5 2018-11-12 https://www.jyi.org/2017-september/2017/11/2/non-hermitian-wave-mechanics-an-unorthodox-way-into-embedded-systems monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638400140-VLGNEAWOVAH1J6AVQTKJ/NHWM-eq-1.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638478582-15BVGZ2X8RXPWP5III42/NHWM-eq-2.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638546770-DJ46PMGC75TYN6ZDEIIX/image-asset.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638618580-SP99ZBWXLW5D954M6T03/NHWM-eq-45.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638694920-Z7WQSQG52WVG1R6BA6ZU/NHWM-eq-6.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638758166-MN75YKMNK9YA10GR0UTM/NHWM-eq-7.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638781654-6V68GS6C71EY5CXQG67S/image-asset.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509638865640-UOTO0AKIE8KQ9WRB101X/NHWM-fig-1.png 2017, September - Non-Hermitian Wave Mechanics: An Unorthodox Way into Embedded Systems Figure 1. Schematic picture of two-dimensional circular dots. (A) shows the case with two opposite ports with complex potentials VL(x) = VR*(-x). The interior potential is real and may be set equal to zero. The potential in the exterior region may be set to infinity, i.e., wave functions are confined to the circular area and ports. The vertical line is the line of reflection. The two ports serve as source and drain. Because of PT-symmetry, gain and loss can balance each other. (B) shows a dot with several ports with the possibility of combining the corresponding potentials according to the different symmetry lines and PT invariance. The flow of particles between the ports may thus be monitored by flexible pairings of the potentials in the different sections, i.e., the system will act a bit like a switchboard. While retaining PT-symmetry, the imaginary part of the potential may be chosen differently for the pairs giving rise to a more complex two-dimensional landscape of EPs. Obviously we may also consider more ports than just four. https://www.jyi.org/2017-september/2017/9/1/a-new-perspective-on-parkinsons-disease-pathology-begins-in-the-gastrointestinal-tract monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1514040969749-38PK43SLRFHOGSJ1HD0Y/Capture.PNG 2017, September - A New Perspective on Parkinson’s Disease: Pathology Begins in the Gastrointestinal Tract Figure 1. Flow diagram outlining how the nervous system interacts with the gastrointestinal tract. The nervous system has two components: central, which includes the brain and spinal cord, and peripheral, which comprises all the nerves that extend throughout the body. The peripheral nervous system is further divided into somatic and autonomic nervous systems. The autonomic nervous system includes sympathetic and parasympathetic divisions. The sympathetic division controls the fight or flight response, while the parasympathetic division mediates the rest and digest response. The sympathetic division acts through sympathetic nerves to inhibit enteric nervous system (ENS) activity. The parasympathetic division acts primarily through the dorsal motor nucleus of the vagus nerve to stimulate ENS activity. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1514041084710-93YT9M5IKIA0IP8CDE5Y/Capture1.PNG 2017, September - A New Perspective on Parkinson’s Disease: Pathology Begins in the Gastrointestinal Tract Figure 2. Enteric nervous system innervations throughout the gastrointestinal tract. The submucosal plexus innervates the submucosa, which surrounds the mucosa. The mucosa is a mucous layer that lines the gut epithelium. The mucularis encompasses the myenteric plexus and surrounds the submucosa. The serosa, a layer of muscle, surrounds the two plexuses. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1514041205319-YEQCNQBBQBMGW4F6BSSO/image-asset.png 2017, September - A New Perspective on Parkinson’s Disease: Pathology Begins in the Gastrointestinal Tract Table 1. Variation in the gut composition of control individuals compared to PD patients and the associated symptoms for each microbiota or organic material concentration difference. 1 There are between studies differences in Lactobacillaceae concentration levels in diseased individuals compared to controls. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1514041327160-QQXC4EKO8ZCGD38I4M4V/Capture3.PNG 2017, September - A New Perspective on Parkinson’s Disease: Pathology Begins in the Gastrointestinal Tract Figure 3. Proposed pathway of disease propagation from the gut to the brain. Anaerobic gut bacteria metabolize sugar into carbon dioxide, hydrogen, and short chain fatty acids (SCFAs). The SCFAs cross the blood brain barrier and indirectly activate microglia. When alpha-synuclein aggregates in the brain come in contact with microglial cells, they also activate them. Microglial hyperactivation leads to inflammation. Proinflammatory environments promote alpha-synuclein aggregation, driving a feedforward inflammatory cascade. (Nygaard, 2010; Sampson et al., 2016) https://www.jyi.org/2017-september/category/Research monthly 0.5 https://www.jyi.org/2017-october daily 0.75 2017-11-02 https://www.jyi.org/2017-october/2017/10/2/farming-goes-vertical monthly 0.5 2017-11-02 https://www.jyi.org/2017-october/2017/10/2/chromosome-interactions-and-where-to-find-them monthly 0.5 2017-11-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509647067111-8WZZGA2RWWTHZYKPZGBH/image-asset.png 2017, October - Chromosome Interactions and Where to Find Them Figure 1. Chromosomes are arranged into discrete territories in the nucleus (Stevens et al., 2017). https://www.jyi.org/2017-october/2017/10/2/interview-with-penny-kuhn-msc-managing-editor-at-endangered-species-research monthly 0.5 2017-11-02 https://www.jyi.org/2017-october/2017/10/2/correlations-between-gray-white-matter-contrast-in-prefrontal-lobe-regions-and-cognitive-set-shifting-in-healthy-adults monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646165506-XQ2TSA5SNFNZTGU103H9/GM-Figure-1.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 1. Computing GWB: Sampling points on T1-weighted MPRAGE image with gray-white (GW) junction surface (yellow line) and pial surface (red line). The blue dot represents the sampling location of the gray matter intensity value at 0.5mm into the gray matter relative to the GW junction. The purple dot shows the sampling location of the white matter intensity value at 0.5mm into the white matter relative to the GW junction (adapted from Blackmon et al., 2014). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646235854-35K8AX8P9NL1AWG7AIM3/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 2. Example of Trail Making Test-B. Participants trace a sequence alternating between numbers and letters in ascending order (set-shifting). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646284977-5E1VV9IOSOONVQFXJDG3/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 3. Reproduction of cards used for the Wisconsin Card Sorting Test-Perservative Errors (WCST-PE). Participants match their cards with other cards according to a hidden rule determined by the test proctor. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646316922-37HZCJJU0EEL7ZGBIO2K/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 4. Reproduction of 6 images used for the Boston Naming Test (BNT). Participants are given 20 seconds to identify each individual object. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646372642-ZU1LUI1JN779EA7LS358/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 5. The scatter plots show the relationship between the time for the participants to complete TMT-B. (A) left superior frontal gyrus, (B) right superior frontal gyrus, (B) left ventrolateral gyrus, and (D) right middle frontal gyrus GWB. Longer time for TMT-B completion reflects poorer performance and greater values for GWB. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646410818-1TDPE2LXOPW55RM00C65/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 6. The scatter plots show the relationship between the time for the participants to complete WCST-PE. (A) left superior frontal gyrus, (B) right superior frontal gyrus, (C) left ventrolateral gyrus, and (D) left middle frontal gyrus GWB. Greater number of errors on WCST-PE reflects poorer performance and greater values for GWB. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646439846-QLBLWQOKP6W171SN5CGL/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Figure 7. The scatterplot shows the relationship between the number of participants’ WCST preservative errors and their time to complete TMT-B. Greater number of errors on WCST-PE reflects poorer performance and longer time for TMT-B completion reflects poorer performance. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646467695-YSTB1UT8RV4T4RDVY4V9/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Table 1. Correlation coefficients r and p-values for correlations between GWC of all brain regions tested with TMT-B and WCST-PE neuropsychological test performance. Values with asterisks are significant after Bonferroni correction for multiple comparisons. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646509473-EL9645P0H09MVZI6F4EZ/image-asset.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Table 2. Mean and standard deviation of demographics: age at time of scan, age at time of neuropsychology examination, and years of education of all the subjects. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509646540927-5F0QDX7B0OTTQBX342AG/GM-table-3.png 2017, October - Correlations between Gray-White Matter Contrast in Prefrontal Lobe Regions and Cognitive Set-Shifting in Healthy Adults Table 3. Correlations between the three neuropsychology tests; values with asterisks are significant after Bonferroni correction for multiple comparisons. https://www.jyi.org/2017-october/2017/10/2/hydrological-dynamics-of-two-seasonal-floodplain-wetlands-in-the-south-carolina-piedmont monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645438194-01OJGRZI5L3WDWSCOJK1/HD-Figure-1-1024x408.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Figure 1. ESRI generated map of Lawson’s Fork Creek and the town of Glendale. The red mark indicates the location of the USGS stream gage (USGS #02156300). The blue marks indicate the location of the neighboring wetlands, designated as Beaver and Dragonfly for the purpose of the study. Map of South Carolina in bottom right corner indicates the location of Spartanburg County. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645509080-GRO2Y4HP34CTBX1B4YOZ/HD-Figure-2.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Figure 2. Google Earth map derived from Fish and Wildlife Service wetland delineation database. Yellow outline represents area of Glendale Mill pond in 1921. Turquoise area represents delineated outer boundary of wetlands, based on FWS delineation. Circle on the right refers to the Beaver Wetland, circle on the left refers to the Dragonfly wetland. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645560756-7DIQKWFYU3H47ACLZ15I/image-asset.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Figure 3. Total monthly rainfall in 2015 and 2016. Data extracted from the Glendale weather station. Numbers above bar show total monthly rainfall, and error bars show standard error. Data reported in inches. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645604630-EFPS8A93H910JTK680OM/HD-Figure-4-1024x489.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Figure 4. Water level fluctuations (m) and Temperature (C) from May of 2015 to May of 2016. Blue line indicates the Dragonfly wetland, and red line indicates the Beaver wetland water levels (primary vertical axis). Green line indicates Temperature in C (secondary vertical axis). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645727081-9XADXSYOCMSM0WU924P3/Screen-Shot-2017-09-28-at-8.35.39-PM.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Table 1. Percent sand, silt, and clay for each sediment interval, determined using a LaMotte Soil Texture Unit. The hydraulic conductivities are estimated according to percentages of sand, silt, and clay. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645652869-4BZ1VO8VN0XEP9LM4IN6/image-asset.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Figure 5. Lawson’s Fork Creek Gage height (m) and wetland water levels (m) during the October 2, 2015-October 6, 2015 storm event. Blue line is the gage height, and peaks reflect the height of the stream at a particular point in time during the event (primary vertical axis). Red line indicates water levels in Dragonfly, and green line indicates water levels in Beaver (secondary vertical axis). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1509645694428-NIUUU86QJDNUB67RU3U6/image-asset.png 2017, October - Hydrological Dynamics of Two Seasonal Floodplain Wetlands in the South Carolina Piedmont Figure 6. Water levels in the piezometer (red line) compared to water levels in the Dragonfly well (blue line) between May and October of 2015. Water levels are in meters. Error bars show standard error. https://www.jyi.org/2017-october/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-october/category/Features monthly 0.5 https://www.jyi.org/2017-october/category/Research monthly 0.5 https://www.jyi.org/2017-november daily 0.75 2017-11-02 https://www.jyi.org/2017-november/2017/11/2/the-lgbt-movement-inside-the-united-states-government-analysing-social-movement-networks-in-political-spatialities monthly 0.5 2018-11-03 https://www.jyi.org/2017-november/category/Research monthly 0.5 https://www.jyi.org/2017-december daily 0.75 2017-12-02 https://www.jyi.org/2017-december/2017/11/30/solving-cancer-the-use-of-artificial-neural-networks-in-cancer-diagnosis-and-treatment monthly 0.5 2017-12-30 https://www.jyi.org/2017-december/2017/12/1/car-t-and-the-dawn-of-immunotherapy monthly 0.5 2017-12-03 https://www.jyi.org/2017-december/2017/12/1/snail-killing-snails-and-an-expedition-to-the-society-islands-an-interview-with-zoologist-justin-gerlach monthly 0.5 2017-12-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1512135528898-P2G4A5CH6HVMQR7ZQ67B/Zoologist+interview.png 2017, December - Snail-Killing Snails and an Expedition to the Society Islands: An Interview with Zoologist Justin Gerlach https://www.jyi.org/2017-december/category/Science+Careers monthly 0.5 https://www.jyi.org/2017-december/category/Features monthly 0.5 https://www.jyi.org/2017-december/category/Research monthly 0.5 https://www.jyi.org/corporate daily 0.75 2023-02-23 https://www.jyi.org/2018-december daily 0.75 2018-12-01 https://www.jyi.org/2018-december/2018/12/1/gastric-microenvironment-enables-persistence-of-helicobacter-pylori-a-physicians-combat-towards-eradication-and-directions-for-the-future monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1543013416792-7886PNTM6949CR783TMA/image-asset.png 2018, December - Gastric Microenvironment Enables Persistence of Helicobacter pylori: a Physician's Combat Towards Eradication and Directions for the Future https://www.jyi.org/2018-december/2018/12/1/check-it-before-you-wreck-it-the-2018-nobel-prize-in-physiology-or-medicine monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1543708111622-FA9QJC9PKR91VM3RYM2J/image-asset.png 2018, December - Check it Before You Wreck it: The 2018 Nobel Prize in Physiology or Medicine https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1543708063666-KTWWFIWUGQK746X35BPI/dec1.png 2018, December - Check it Before You Wreck it: The 2018 Nobel Prize in Physiology or Medicine https://www.jyi.org/2018-december/2018/12/1/larger-sperm-size-may-contribute-to-reproductive-isolation-between-etheostoma-species monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1542941968149-1T1RKOS9NMF16OVJ5S5A/fig+1.jpg 2018, December - Larger Sperm Size May Contribute to Reproductive Isolation Between Etheostoma Species Figure 1. Comparison of E. zonale and E. barrenense Head Diameters (A) and Tail Length (B). Sperm from both species were stained using toluidine blue and immunofluorescent labeling techniques. Data depicted is average ± standard deviation (SD) and n indicates the number of individual fish evaluated. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1542942068775-TYU0R8AQ2HUJDGHFAN6D/fig2.jpg 2018, December - Larger Sperm Size May Contribute to Reproductive Isolation Between Etheostoma Species Figure 2. Fluorescently-labeled E. barrenense sperm cell. The nucleus can be identified by DAPI staining (upper left) and the tail can be identified by the anti-alpha-tubulin Alexa 488 staining (upper right). The bottom right is the composite; the bottom left shows a bright field image. https://www.jyi.org/2018-december/2018/12/1/genetically-modified-rice-successfully-stored-in-gene-bank monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1543708564223-42XAJTSQ858V9NVHKC7T/image-asset.png 2018, December - Genetically Modified Rice Successfully Stored in Gene Bank Figure 1. Farmers transplanting seedlings in a flooded rice field in Asia. (Image from IRRI collection. Photographer information unavailable) https://www.jyi.org/2018-december/category/Features monthly 0.5 https://www.jyi.org/2018-december/category/Research monthly 0.5 https://www.jyi.org/2018-december/category/Science+News monthly 0.5 https://www.jyi.org/2018-november daily 0.75 2018-10-31 https://www.jyi.org/2018-november/2018/11/1/gut-feeling-gut-thinking monthly 0.5 2019-05-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1541005612568-8QYO4IWUU47GIAI8YVBU/Picture1.png 2018, November - Gut Feeling, Gut Thinking https://www.jyi.org/2018-november/2018/11/1/the-biology-of-native-and-adapted-crispr-cas-systems monthly 0.5 2019-02-17 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1540932704274-8V5DNXUOIUOL77SMR4OP/fig+1.png 2018, November - The Biology of Native and Adapted CRISPR-Cas Systems Figure 1. Native type II CRISPR system. The type II CRISPR system functions through three phases: adaptation, expression, and interference. During adaptation, a protospacer sequence (green) adjacent to a PAM site (pink) is recognized in foreign DNA and incorporated into the CRISPR array in the genome of the host. The CRISPR region consists of repeated sequence (orange) interspaced with spacer sequences (green, yellow, purple) identical to foreign genetic sequences. Each crRNA gene contains both spacer and repeat sequence. The CRISPR-associated (cas) genes (cyan) and tracrRNA gene (red) are located nearby. During the expression phase, these genes are transcribed, and the cas mRNA is subsequently translated. The crRNA, tracrRNA, and Cas9 protein form a complex that targets foreign DNA for cleavage during the interference phase. The crRNA forms base pairing interactions with complementary sequence in the foreign DNA and the tracrRNA. Cleavage (red arrows) occurs at a specific site 3 base pairs from the PAM sequence on the complementary strand, but is more variable on the non-complementary strand and can occur at multiple sites 3-8 base pairs from the PAM sequence. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1540932814639-GOJINI0EHYOROZQYMMZ3/image-asset.png 2018, November - The Biology of Native and Adapted CRISPR-Cas Systems Figure 2. Cas9 structure. A representation of the SpCas9 structure (PDB ID 5Y36) (Huai et al.,2017) in complex with sgRNA (red) and target DNA is shown (B). The complementary and non-complementary strands of the target DNA are indicated in blue and yellow, respectively. The complex with either nucleic acids or SpCas9 removed are shown in panels A and C, respectively. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1540933021582-0P50WLTF9S00BOS2VLDE/image-asset.png 2018, November - The Biology of Native and Adapted CRISPR-Cas Systems Table 1. Summary of discussed CRISPR-based systems. CRISPR systems can be adapted for a variety of purposes. Many systems involve the catalytically dead (dCas9), which acts as a targeted DNA binding protein, to which many other effector domains can be added. https://www.jyi.org/2018-november/category/Science+Feature monthly 0.5 https://www.jyi.org/2018-november/category/Features monthly 0.5 https://www.jyi.org/2018-november/category/Research monthly 0.5 https://www.jyi.org/2018-october daily 0.75 2018-10-01 https://www.jyi.org/2018-october/2018/10/1/press-release-can-brief-exposure-to-mildly-violent-video-games-affect-your-focus monthly 0.5 2019-01-14 https://www.jyi.org/2018-october/2018/10/1/rnai-gene-therapy-gene-silencing-drug-speaks-up-following-fda-approval monthly 0.5 2018-10-01 https://www.jyi.org/2018-october/2018/10/1/cd105-deficiency-in-mouse-aorta-derived-progenitor-cells-promotes-an-enhanced-inflammatory-response-to-lipopolysaccharide monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1536760794760-0EOTIWWSCS0GCV0IOUR4/image-asset.png 2018, October - CD105 Deficiency in Mouse Aorta-Derived Progenitor Cells Promotes an Enhanced Inflammatory Response to Lipopolysaccharide Figure 1. Relative expression of L-CD105 and S-CD105 in mAo pro-genitors. A) Gene expression was measured using real-time reverse transcription PCR and expression normalized to the GAPDH gene. The inset shows the raw amplification curve. B) Protein expression was measured using Western blot and quantified through densitometry. The inset shows a representative blot. Results are presented as mean ± SD with n = 4. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1536760899681-HOLN82YAGYQS989C06RH/image-asset.png 2018, October - CD105 Deficiency in Mouse Aorta-Derived Progenitor Cells Promotes an Enhanced Inflammatory Response to Lipopolysaccharide Figure 2. Optimizing the siRNA transfection protocol. A) mAo progenitors were transfected with a range of CD105 siRNA concentrations (5-30 nmole) and transfection efficiency on days 2, 4, and 5 post-transfection was confirmed by Western blot. B-C) Densitometry was used to quantify expression of the long (B) and short (C) forms of CD105 at the protein level. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1536760998097-R6C34BNUMG4P41BIUNPM/Screen+Shot+2018-09-12+at+8.38.39+AM.png 2018, October - CD105 Deficiency in Mouse Aorta-Derived Progenitor Cells Promotes an Enhanced Inflammatory Response to Lipopolysaccharide Figure 3. Confirmation of siRNA transfection efficiency. Using real-time reverse transcription PCR and CD105 isoform-specific primers, transcript levels of S-CD105 and L-CD105 were measured in mAo and mAo transfected with CD105 siRNA. Data are expressed as mean ± SEM and are representative of three separate experiments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1536761084267-I4JD165UVCOFDCIWDV2M/image-asset.png 2018, October - CD105 Deficiency in Mouse Aorta-Derived Progenitor Cells Promotes an Enhanced Inflammatory Response to Lipopolysaccharide Figure 4. Reduction of CD105 expression results in a decreased mAo progenitor cell density. Cell density was measured on day 5 post-transfection using methylene blue. Data are expressed as mean ± SEM, and are representative of three separate experiments each with n = 6. *Statistical significance as determined by t-test. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1536761291289-873DWTMVNBLVGFOL7CRK/image-asset.png 2018, October - CD105 Deficiency in Mouse Aorta-Derived Progenitor Cells Promotes an Enhanced Inflammatory Response to Lipopolysaccharide Figure 5. LPS-induced NO (A) and IL-6 (B) production is increased in supernatant of CD105-deficient mAo progenitor cultures and in co-cultures of CD105-deficient mAo and MΦ. Data are expressed as mean ± SEM and are representative of three separate experiments each with n = 6. Significant differences were determined after 2-way ANOVA using Bonferroni’s post-test. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1536761358302-W02HHXHKJIF8QQJI4WZ6/image-asset.png 2018, October - CD105 Deficiency in Mouse Aorta-Derived Progenitor Cells Promotes an Enhanced Inflammatory Response to Lipopolysaccharide Figure 6. CD105 deficiency does not alter TLR-4 expression in mAo. Gene expression of TLR-4 was measured in mAo progenitors treated with and without 50 nm siRNA. Data are expressed as mean ± SEM and are representative of three separate experiments. https://www.jyi.org/2018-october/2018/10/1/super-resolution-imaging-technologies-in-the-study-of-mitochondrial-proteins monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538144979681-0TZRGDJX46H2EZG4OI40/Screen+Shot+2018-09-28+at+9.29.18+AM.png 2018, October - Super-Resolution Imaging Technologies in the Study of Mitochondrial Proteins Figure 1. Mechanism comparison between holography, cryo-EM and X-ray crystallography. A) A coherent, low-energy electron beam is ejected by EPS and directed to the sample deposited on a graphene sheet. The hologram is a sum of the reference wave (electrons not scattered by the protein, R), object wave (electrons scattered by the protein, O) and the interference between the two. As shown in the figure, some reference waves do not interfere with the object wave and so it retains the phase information. The structure of the sample is calculated from separating the contribution by the object wave from the hologram and reversing the scattering process as described in detail in (Tatiana Latychevskaia & Fink, 2015). B) In cryo-EM, a high-energy electron gun, instead of a coherent electron point source is directed to the sample cryo-preserved on a metal grid. The high-energy electrons can be transmitted easily (in contrast to be scattered) across the protein sample and produce direct 2D projection of the protein samples onto the detector. The exact protein structure is constructed by averaging the images of different orientations instead of through calculation from a single protein. C) In X-ray crystallography, parallel X-ray beams are diffracted by the crystallized sample. As the reference wave is absent, the phase information is missing to reconstruct the protein structure, giving rise to the “phase problem”. This makes X-ray crystallography inferior to holography in terms of structure determination. EPS: electron point source. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538145090231-V3GKEBAG05QERLDABTPJ/Screen+Shot+2018-09-28+at+9.31.14+AM.png 2018, October - Super-Resolution Imaging Technologies in the Study of Mitochondrial Proteins Figure 2. Mechanism of Photoswitching in Cy5 Dye. A) Cy5 is fluorescent in its native state. Upon irradiation by red light (632 nm), Cy5 is excited and fluoresce C). In the excited state, thiolate ions in the buffer solution react with the fluorescent Cy5 and inactivate it. In the reaction, the π conjugation system (highlighted in red) is shortened from 20 bonds to two systems of 8 and 10 bonds. This shortening increases the HOMO-LUMO gap (B), and so the dye does not fluoresce under irradiation of red light (C). The inactivated state is reactivated by irradiation of green light (535 nm) in the presence of Cy3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538145194757-RTPEHMZ1KP9KVCKNGS5L/Screen+Shot+2018-09-28+at+9.33.00+AM.png 2018, October - Super-Resolution Imaging Technologies in the Study of Mitochondrial Proteins Figure 3. Interferometric PALM makes use of an interferometer to determine the position of proteins in 3D space. The sample is placed on the stage of the microscope as usual (defined as the x-y plane). Upon irradiation by laser, the fluorophore (green circle) emits light which passes through both objectives. As the fluorophore may locate at different positions in the z axis, the path lengths and intensities of the light rays passing through the two objectives are different. In the interferometer, these light rays interfere with one another. With the careful design of the interferometer, three distinct signals can be detected by CCD Camera 1, 2 and 3 respectively. From theoretical calculations and experiments, it was shown that the phases of the three interfered waves differed by exactly 120°. As shown by the approximate sketch of the interfered waveforms (Red: Camera 1; Blue: Camera 2; Green: Camera 3), any values of z can be determined specifically from the intensity measured. Each of the points z are also covered by at least 2 points, which assists calibration. CCD: charge-coupled device. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538366403806-LF49SEYVR7J85ZOMKWYU/Screen+Shot+2018-09-30+at+10.58.57+PM.png 2018, October - Super-Resolution Imaging Technologies in the Study of Mitochondrial Proteins Figure 4. Mechanism comparison between PALM, STED and confocal microscopy. A) Sample readout from PALM. Photoswitchable fluorescent probes are stochastically activated. The precise single-molecular positions of excited fluorophores are detected, without the hindrance of signal overlap-ping in the case of simultaneous adjacent excitations. This imaging cycle is repeated with a different set of stochastically excited fluorophores. Images obtained from all imaging cycles are superimposed to create a final fluorophore density map of single-molecular resolution. (b) Sample readout from STED. A donut-shaped STED laser pattern suppresses fluorescence emission from fluorophores peripheral to the excitation laser. Fluorescent emission is restricted to a single focal point, thus conveying increased resolution. Fluorescent probes are activated sequentially via scanning until an entire spatial readout is obtained. This reliance on excitation-patterning contrasts with the single-molecule localization method in PALM. (c) Sample readout from confocal imaging. Fluorescent probes are simultaneously activated within a diffraction zone. Overlapping of fluorescent events hinders precise single-molecular localization, thus limits the resolution of images produced. STED: stimulated emission depletion. https://www.jyi.org/2018-october/2018/10/1/careers-interview-dr-longen-zhou-phd monthly 0.5 2018-10-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538399426261-XJ4H7HC0GNJ34SOJ5YZ4/image-asset.png 2018, October - Careers Interview: Dr. Longen Zhou, PhD https://www.jyi.org/2018-october/2018/10/1/viruses-destroying-bacteria-refining-solutions-to-antibiotic-resistance monthly 0.5 2018-11-01 https://www.jyi.org/2018-october/2018/10/1/impact-of-brief-exposure-to-an-e10-rated-mildly-violent-video-game-on-teen-players-short-term-attention-and-concentration-ability monthly 0.5 2018-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538367787811-NWXE4BZMZ72ZYFU6GNVU/image-asset.png 2018, October - Impact of Brief Exposure to an E10-Rated, Mildly-Violent Video Game on Teen Players’ Short-Term Attention and Concentration Ability Table 1. Familial background information for the subjects involved in the study. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538367638294-KCRLFOL9LXDYT4EJYM2Q/image-asset.png 2018, October - Impact of Brief Exposure to an E10-Rated, Mildly-Violent Video Game on Teen Players’ Short-Term Attention and Concentration Ability Figure 1. Pre-exposure and Post-exposure within groups. Factor1 represents pre vs. post scores, where “1” represents the baseline score and “2” represents post-exposure score. Group 0 (blue) refers to the control group, whereas Group 1 (green) is the experimental group. This graphic represents the changes in scores pre to post for both groups. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538398971132-5W46857BWMRM779JCMDI/image-asset.png 2018, October - Impact of Brief Exposure to an E10-Rated, Mildly-Violent Video Game on Teen Players’ Short-Term Attention and Concentration Ability Table 2. Descriptive Statistics. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538399008458-416R7TUJS6PD0ZWQ9J2B/Screen+Shot+2018-10-01+at+8.01.35+AM.png 2018, October - Impact of Brief Exposure to an E10-Rated, Mildly-Violent Video Game on Teen Players’ Short-Term Attention and Concentration Ability Table 3. Mean and standard deviation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538399052104-IBBWNN9FPSUNARH4NJD1/image-asset.png 2018, October - Impact of Brief Exposure to an E10-Rated, Mildly-Violent Video Game on Teen Players’ Short-Term Attention and Concentration Ability Table 4. Raw Data. Subjects are identified by number 1 to 14. Subjects 1 to 7 were in Group 0, the control group. Subjects 8 to 14 were in Group 1, the experimental group. The Pre-score represents the baseline measure of DSF. The Post-score represents the DSF after the 45-minute exposure period. https://www.jyi.org/2018-october/category/Science+Feature monthly 0.5 https://www.jyi.org/2018-october/category/Science+Careers monthly 0.5 https://www.jyi.org/2018-october/category/Features monthly 0.5 https://www.jyi.org/2018-october/category/Research monthly 0.5 https://www.jyi.org/2018-october/category/Science+News monthly 0.5 https://www.jyi.org/2018-october/category/Feature monthly 0.5 https://www.jyi.org/2018-october/category/Press+Releases monthly 0.5 https://www.jyi.org/2018-september daily 0.75 2018-08-30 https://www.jyi.org/2018-september/2018/9/1/ph-indication-of-respiration-and-effects-of-different-carbohydrates-and-escherichia-coli-on-respiration-rates-in-caenorhabditis-elegans monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535655078916-UE4BY5ES2DVYLMXXFARI/Screen+Shot+2018-08-19+at+11.10.52+AM.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 1. Baseline Experiments (n = 12). The graph plots average changes in pH over time for two parameters: control minus no azide (C-N) and control minus azide (C-A). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535655043692-H5NES8H7P0SU0I4WQDJW/image-asset.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 2. 10 µL E. coli (n = 8). The graph plots average changes in pH over time for two parameters: control minus no azide (C-N) and control minus azide (C-A). This shows that when mitochondria are not inhibited by azide, respiration is stimulated by the presence of the food source, E. coli. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535654988693-V8X7HVJ3QH9071VHA104/image-asset.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 3. 10 µL Glucose (n = 3). The graph plots average changes in pH over time with relation to two parameters: control minus no azide (C-N) and control minus azide (C-A). This indicates the results of change in pH when C. elegans are incubated with glucose, both with and without the presence of the mitochondrial inhibitor azide. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535654951977-XHRWQDGVOPS0AQJHQU1Z/image-asset.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 4. 10 µL Fructose (n = 3). The graph plots average changes in pH over time with relation to two parameters: control minus no azide (C-N) and control minus azide (C-A). This indicates the results of change in pH when C. elegans are incubated with fructose, both with and without the presence of the mitochondrial inhibitor azide. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535654904337-37WKFFTQGOPPHEYPNYY1/image-asset.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 5. 10 µL Maltose (n = 3). The graph plots average changes in pH over time with relation to two parameters: control minus no azide (C-N) and control minus azide (C-A). This indicates the results of change in pH when C. elegans are incubated with maltose, both with and without the presence of the mitochondrial inhibitor azide. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535654862118-DSSADEZK4J6LL1JT41PI/Screen+Shot+2018-08-30+at+12.42.28+PM.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 6. Baseline experiments (n = 12), 10 µL E. coli (n = 8), and 30 µL E. coli (n = 4). The means of the trials are graphed. Respiration rate was determined by finding the slope between 20 minutes and 50 minutes. Unpaired t-test: equal variance, one-tail showed significance (p < 0.05*, p < 0.005**). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535654767611-4G1DU8BIJVQ1BF7A6LHY/Screen+Shot+2018-08-19+at+11.31.34+AM.png 2018, September - pH Indication of Respiration and Effects of Different Carbohydrates and Escherichia coli on Respiration Rates in Caenorhabditis elegans Figure 7. Baseline experiments (n = 12), 10 µL 1.6 mM Glucose (n = 3), and 10 µL 1.6 mM Maltose (n = 3). The means of the trials are graphed. Respiration rate was determined by finding the slope between 20 minutes and 50 minutes. Unpaired t-test: equal variance, one-tail showed no significance. https://www.jyi.org/2018-september/2018/8/23/interview-with-dr-jason-samarasena-md monthly 0.5 2018-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535062137400-LU2QVYMF8KBW1X0LEPNB/image-asset.png 2018, September - Interview with Dr. Jason Samarasena, MD https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535062523472-2NLL3TF3GH70IHS3Q8VB/image-asset.png 2018, September - Interview with Dr. Jason Samarasena, MD A colorectal endoscope after use in an endoscopic submucosal dissection (ESD), a procedure in which an endoscope is used to resect, or remove, a lesion or polyp from healthy digestive tissue. An endoscope can reach up to 6 inches deep into the duodenum, or the first section of the small intestine. Different tools can be inserted into the endoscope, one of which can be an ultrasound transducer. Using ultrasound, doctors can visualize any organ in the proximity of the esophagus, stomach, and intestines, including the liver, gallbladder, pancreas, adrenal glands, and kidneys. https://www.jyi.org/2018-september/2018/9/1/embryo-breakthrough-has-potential-to-save-the-northern-white-rhino monthly 0.5 2018-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535063612287-LALDELQQUR3HJ7IZXPR2/rhino.png 2018, September - Embryo Breakthrough has Potential to Save the Northern White Rhino https://www.jyi.org/2018-september/2018/9/1/a-crispr-update-improving-gene-editing-efficiency-and-identifying-unwanted-changes monthly 0.5 2018-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1535064050562-RRI9FFUNV8HL5U072PMH/crispr.png 2018, September - A CRISPR update: Improving Gene Editing Efficiency and Identifying Unwanted Changes Figure 1 Simplified diagram of the application and consequences of CRISPR-Cas9 gene editing https://www.jyi.org/2018-september/category/Science+Careers monthly 0.5 https://www.jyi.org/2018-september/category/Science+News monthly 0.5 https://www.jyi.org/2018-september/category/Research monthly 0.5 https://www.jyi.org/2018-august daily 0.75 2018-07-30 https://www.jyi.org/2018-august/2018/7/30/design-and-testing-of-a-thermoelectrically-cooled-portable-vaccine-cooler monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533046575265-RRO27ZJSGEVZMOFTBB5G/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 1A. The Thermoelectric Vaccine Cooler - schematic top view. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533046651260-6GNP465USGRW3KR7AY98/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 1B. The Thermoelectric Vaccine Cooler - schematic oblique side view. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533046702137-M553FVZ0JNISNXFLFHJT/fig1c.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 1C. The Thermoelectric Vaccine Cooler - top view. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533046749345-MJNARINJT818AVKKWZQ6/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 1D. The Thermoelectric Vaccine Cooler - oblique side view image. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533046858846-ROYKIX7S19I1HKR453ZT/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 2. Vaccine temperature-time plot for a typical experiment https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533047003401-40EE1HAOSM6ODXKSEUZ8/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Table 1. Average warming and cooling times.* *Although more than 25 experiments were performed to optimize conditions, the final first warming phase times reported in Table 1 are compromised of the average of 7 experiments and the final second warming and cooling phase times are comprised of an average of 8 experiments. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533047191372-MVLMYZGPZ768AZ589X31/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 3A. Representative vaccine temperature-time curve for first warming phase. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533047263173-OEGR3QQZO5HN9O0TEV49/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 3B. Representative vaccine temperature-time curve for the first cooling phase. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533047298230-56KTSSNZSM0OJ2770PA6/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Figure 3C. Representative vaccine temperature-time curves for the second warming phase. Three extractions were made in the warming phases. The temperature for the experiment was maintained at 37˚C in a warm room. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533135150232-D7F7AQ5EYFMUQEA8RKY5/image-asset.png 2018, August - Design and Testing of a Thermoelectrically-Cooled Portable Vaccine Cooler Table 2. Current and voltage delivered to the 2000mAh batteries using two solar panels as a function of time.** **Two 0.5A-max solar panels connected in parallel. https://www.jyi.org/2018-august/2018/7/6/curcumin-breast-cancer-therapeutic-agent-to-replace-allopathic-treatments-with-extensive-side-effects monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533128731578-M5O15K9LWU3WIDJ7G84Q/image-asset.png 2018, August - Curcumin - Breast Cancer Therapeutic Agent to Replace Allopathic Treatments with Extensive Side Effects Table 1. Stages of Breast Cancer. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533128810675-2UJIKH47FU92LSM93K6B/image-asset.png 2018, August - Curcumin - Breast Cancer Therapeutic Agent to Replace Allopathic Treatments with Extensive Side Effects Table 2. Cancer treatments and their side effects. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533128857441-S0ARTPHMYICW8NOOYE97/image-asset.png 2018, August - Curcumin - Breast Cancer Therapeutic Agent to Replace Allopathic Treatments with Extensive Side Effects Figure 1. Circumin anti-cancer characteristics. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533128913860-FSU7D9CZ1S2YRZ3GSNT3/Screen+Shot+2018-08-01+at+9.05.06+AM.png 2018, August - Curcumin - Breast Cancer Therapeutic Agent to Replace Allopathic Treatments with Extensive Side Effects Figure 2. Structures of circuminoids. A) Curcumin. B) Desmethoxycurcumin. C) Bisdemethoxycurcumin. https://www.jyi.org/2018-august/2018/7/6/the-utility-of-psilocybin-in-managing-anxiety-and-depression-in-cancer-patients monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533063655817-O3504LHA7MLCOPXJEHW7/image-asset.png 2018, August - The Utility of Psilocybin in Managing Anxiety and Depression in Cancer Patients Table 1. Binding of psilocin to 5-HT and other monoamine receptors (Halberstadt and Geyer, 2011). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1533064067820-0J1YVXR99CM6TMMOGAYM/fig1.jpg 2018, August - The Utility of Psilocybin in Managing Anxiety and Depression in Cancer Patients Figure 1. Graphs illustrating the relationship between the Mysti-cal Experience Questionnaire (MEQ30) total score assessed at the end of the first session and four outcome measures assessed 5 weeks after the first session. The four outcomes (clockwise from top left) are self-reported measures of the person’s sense of meaning, spiritual significance, clinician-rated measures of anxiety HAM-A and self-rated measures of depression HADS. Data points represent individual subjects; blue circles and red squares represent the respective group that received the low dose and high dose on the first session (Griffiths et al., 2016). https://www.jyi.org/2018-august/2018/7/30/undergraduates-in-control-of-a-nuclear-reactor-an-interview-with-the-director-of-the-reed-research-reactor-dr-melinda-krahenbuhl monthly 0.5 2018-08-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1532958299376-D9T02N3YR6IJ4O4HNLO7/interview+2.png 2018, August - Undergraduates in Control of a Nuclear Reactor: An interview with the Director of the Reed Research Reactor, Dr. Melinda Krahenbuhl Dr. Melinda Krahenbuhl https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1532958220785-VI1UBD562TLPKN8CIB69/interview.png 2018, August - Undergraduates in Control of a Nuclear Reactor: An interview with the Director of the Reed Research Reactor, Dr. Melinda Krahenbuhl The Reed Research Reactor. Image taken from https://reactor.reed.edu/pictures.html https://www.jyi.org/2018-august/2018/7/30/now-is-the-time-to-reassess-stance-on-hpv-vaccine monthly 0.5 2018-08-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1532962183847-J3U22D79OMA19XFUPLWN/jac.png 2018, August - Now is the Time to Reassess Stance on HPV Vaccine https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1532962355480-8UEAF2XCGZ1W5FUF5WZ0/image-asset.png 2018, August - Now is the Time to Reassess Stance on HPV Vaccine https://www.jyi.org/2018-august/category/Science+Careers monthly 0.5 https://www.jyi.org/2018-august/category/Careers monthly 0.5 https://www.jyi.org/2018-august/category/Research monthly 0.5 https://www.jyi.org/2018-august/category/Review monthly 0.5 https://www.jyi.org/2018-august/category/Science+News monthly 0.5 https://www.jyi.org/2018-july daily 0.75 2018-06-27 https://www.jyi.org/2018-july/2018/6/15/binge-eating-behavior-in-socially-isolated-female-mice monthly 0.5 2018-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529087489033-DQPX7WHI8LZQKNCSJRAU/Screen+Shot+2018-06-15+at+2.30.24+PM.png 2018, July - Binge-Eating Behavior in Socially Isolated Female Mice Figure 1. Social isolation produced depressive-like behavior in the tail suspension test. A) Average latency to immobility during the tail suspension test. B) Total time spent immobile during the tail suspension test. Values are means ± SE, n = 6 Pair-Housed (PH); n = 9 Individually-Housed (IH);T-test; *p < 0.05. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529087548813-3CIGLQGUSX2MXSI74V89/Screen+Shot+2018-06-15+at+2.30.29+PM.png 2018, July - Binge-Eating Behavior in Socially Isolated Female Mice Figure 2. Social isolation caused a brief period of hyperphagia during early minutes of the binge-eating test. A) Absolute high-fat food intake within indicated time intervals during the 2-hour binge-eating test. B) Cumulative high-fat food intake during the 2-hour binge-eating test. Values are means ± SE; n = 6 Pair-Housed (PH); n = 9 Individually-Housed (IH); 2 – Way RM-ANOVA w/ Bonferroni posttest *p < 0.05, #p < 0.10 compared with PH group; †p < 0.05 compared with other time points. Percentages above bars refer to kilocalories consumed in the 7.5 minute bin relative to 2h intake. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529087613391-ZWADANIM2Y6UELRZ1K33/image-asset.png 2018, July - Binge-Eating Behavior in Socially Isolated Female Mice Figure 3. Social isolation increased caloric intake without impacting body weight. A) Kilocalories consumed from high-fat food (HFF) intake during binge eating test, standard chow (SC) intake between binge eating tests, and total intake for the week. B) Grams of body weight changed from Monday to Friday, during testing of binge eating. Values are means ± SE; n = 6 Pair-Housed (PH); n = 9 Individually-Housed (IH); T-test *p < 0.05. https://www.jyi.org/2018-july/2018/6/25/cell-compartment-stabilization-in-the-prebiotic-environment monthly 0.5 2018-11-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530147895253-VFUHV1UXUQXNOUR8ZFVG/Screen+Shot+2018-06-27+at+9.04.37+PM.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Figure 1. Microscopy images of filtered polylysine, polyglycine, polyarginine, and polyglutamate. A) 1:1 phosphatidyl glycerol to polylysine with a 1-micron filter. B) 10:1 phosphatidyl glycerol to polylysine filtered with a 1-micron filter. C) 100:1 phosphatidyl glycerol to polylysine filtered with a 1-micron filter. D) 10:1 phosphatidyl glycerol to polyarginine filtered with a 1-micron filter. E) 100:1 phosphatidyl glycerol to polyarginine filtered with a 1-micron filter. F) 1:1 phosphatidyl glycerol to polyglutamate filtered with a 1-micron filter. G) 10:1 phosphatidyl glycerol to polyglutamate fil-tered with a 1-micron filter. H) 100:1 phosphatidyl glycerol to polyglutamate filtered with a 1-micron filter. I) 1:1 phosphatidyl glycerol to polyglycine filtered with a 1-micron filter. J) 10:1 phosphatidyl glycerol to polyglycine filtered with a 1-micron filter. K) 100:1 phosphatidyl glycerol to polyglycine filtered with a 1-micron filter. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530147998251-JIIVBWB66JUCIPMR3GP3/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148010914-F3VGFA9RCI6QKWNZA27O/Screen+Shot+2018-06-27+at+9.06.22+PM.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Figure 2. Spectrophotometry of polylysine, polyarginine, polyglutamate, and polyglycine. A) Permeability changes of unfiltered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polylysine. B) Permeability changes of filtered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polylysine. C) Permeability changes of unfiltered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polyarginine. D) Permeability changes of filtered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polyarginine. E) Permeability changes of unfiltered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polyglutamate. F) Permeability changes of filtered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polyglutamate. G) Permeability changes of unfiltered 1:1, 10:1 and 100:1 phosphatidylglycerol to polyglycine. H) Permeability changes of filtered 1:1, 10:1, and 100:1 phosphatidyl glycerol to polyglycine. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148071522-8VZ6MAR0EQ49V1ALN5Q0/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Figure 3. Permeability of phosphatidyl glycerol with L-valglycylglycine. A) 1:1 phosphatidyl glycerol to L-valglycylglycine in H2O. B) 5:1 phosphatidyl glycerol to L-valglycylglycine in H2O. C) 10:1 phosphatidyl glycerol to L-valglycylglycine in H2O. D) Phosphatidyl glycerol in H2O. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148126745-WIQK9WYBMIGI66EDR22E/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Figure 4. Spectrophotometry of phosphatidyl glycerol in solution with L-valglycylglycine Graph 10. A) Permeability of phosphatidyl glycerol with tripeptide pore formation. Test was done at 5-second intervals for 180 seconds. B) Permeability of phosphatidyl glycerol with tripeptide pore formation. Test was done at 30-second intervals for 600 seconds. C) Standard curve of polyglycine at 200 nm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148194710-W45LQQSKPUA0B6JQ5BQ8/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Table 1. Measuring absorbance of polyglycine bound to phosphatidyl glycerol. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148239055-9F1B83FFDJ9U5XUDNT45/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Figure 5. Fluorescamine-labeled polyglycine in a phosphatidyl glycerol solution under UV microscopy. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148273475-3IRR753VA02W3VYTL7KG/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Table 2. Measuring the osmotic effects of liposomes using fluorescence. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530148355098-PIKC3UFE3CJHD89JKHAG/image-asset.png 2018, July - Cell Compartment Stabilization in the Prebiotic Environment Figures 6A-F. Microscopy of fluorescence-labeled liposomes. A) 5:1 polyglycine to labeled phosphatidyl glycerol. B) 10:1 polyglycine to labeled phosphatidyl glycerol. C) 10:1 polyglycine to unlabeled phosphatidyl glycerol. D) Labeled phosphatidyl glycerol in 1 mM sucrose. E) Unlabeled phosphatidyl glycerol in 1 mM glycine. F) Unlabeled phosphatidyl glycerol in 100 mM sucrose. Figures 6G-K. Determination of osmotic lysis prevention. G) 0.5 mL phosphatidyl glycerol with 0.5 mL pyranine. H) 1:1 phosphatidyl glycerol to polyglycine (0.5 mg/mL solution. 25) 1:1 phosphatidyl glycerol to polyglycine (2 mg/mL) solution. 26) 1:1 phosphatidyl glycerol to polyglutamate (0.5 mg/mL) solution. 27) 1:1 phosphatidyl glycerol to polyglutamate (2 mg/mL) solution. https://www.jyi.org/2018-july/2018/7/1/changes-in-articulation-and-phonological-patterns-during-early-intervention-in-children-with-cleft-palate-with-or-without-cleft-lip monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530065421634-9H5GA5XK3AXKK49BNEBV/682-4318-1-SP_%281%29.png 2018, July - Changes in Articulation and Phonological Patterns During Early Intervention in Children with Cleft Palate With or Without Cleft Lip Figure 1. Total number of errors produced for each subject for deletions (left panel) and substitutions (right panel) across time by intervention group. Fitted lines are also plotted. The blue medium dash line is the fitted line for the whole sample. The BAU group is the solid line, whereas the EMT+PE group is the dotted line. The circles represent scores with the BAU group, whereas the EMT+PE scores are represented as triangles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530065498413-H8LI02O0BQE5IK7SS8X8/682-4319-1-SP_%282%29.png 2018, July - Changes in Articulation and Phonological Patterns During Early Intervention in Children with Cleft Palate With or Without Cleft Lip Figure 2. Total number of errors and fitted lines for cleft-related (left panel) and developmental (right panel) substitutions across time by intervention group. The blue medium dash line is the fitted line for the whole sample. The BAU group is the solid line, whereas the EMT+PE group is the dotted line. The circles represent scores with the BAU group, whereas the EMT+PE scores are represented as triangles. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530065619685-SY5O0ETDBYBSOREO0TCT/image-asset.png 2018, July - Changes in Articulation and Phonological Patterns During Early Intervention in Children with Cleft Palate With or Without Cleft Lip Figure 3. Proportion of cleft-related (black) and development (gray) substitutions out of total substitutions by across time by group. https://www.jyi.org/2018-july/2018/6/15/design-of-test-bench-for-measurement-of-thrust-and-impulse-bits-of-mems-based-micro-thrusters monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529954852864-DXVM0R3W3OKK5CZZI5SC/image-asset.jpeg 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 1. Inverted pendulum system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955044705-08X7FDTNOR8QF9D1PT29/Figure+2+%281%29.jpg 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 2. Folded pendulum system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955127267-FT1BF3EPJMPX3K3ARYTI/Figure+3+%281%29.jpg 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 3. Flexure system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955219745-SNIG8I0XYM451GRBU3R1/image-asset.jpeg 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 4. Resonant blade system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955321441-WU0K9TM8LER2CDNH8I1E/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 5. Undamped, unforced simple pendulum system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955416624-I82RZL4U4LBVJQO26MV0/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 6. Figure 6. Counter-mass increases the deflection produced for a given thrust on pendulum. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955526741-6SCJ6K8OF4P6TA0DU4EK/image-asset.jpeg 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 7. Configuration using optical sensor. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529956004166-FAGD91QJAYMHAEFS20Q4/Screen+Shot+2018-06-25+at+3.46.19+PM.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Table 1. Properties from (Bijster, 2014) used as design parameters. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955616182-7M77EHJ039QGFLJH4WP0/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 8. 3-D assembly model of the designed system. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955691496-FKSNZKGOWTMYHYG5OB1Z/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 9. Layout of thrust simulation in Simulink. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955759434-SGCJVJ3C0J50NVDW64D8/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 10. System response to thrust. x-axis: time (s), y-axis: deflection (rad, blue) and thrust (N, yellow). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955833848-M9RL19A6SRWDYBKGMPXX/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 11. Layout of impulse simulation in Simulink. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529956109876-FMFG6QIDXW76LWHMQI1Y/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Table 2. Characteristics of the designed thrust and impulse test bench. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1529955892573-SLPW3VEHLPF9U7IG6PXB/image-asset.png 2018, July - Design of Test Bench for Measurement of Thrust and Impulse Bits of MEMS-based Micro-thrusters Figure 12. System response to impulse. x-axis: time (s), y-axis: deflection (rad, blue) https://www.jyi.org/2018-july/category/Research monthly 0.5 https://www.jyi.org/2018-june daily 0.75 2018-06-01 https://www.jyi.org/2018-june/2018/5/25/career-feature-family-relations-and-human-development monthly 0.5 2018-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527298381601-5HEP59DG74IROM9I9BE5/School-education-learning+%281%29.jpg 2018, June - Career Feature: Family Relations and Human Development https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527298434819-6PPSM5IK9UXXH2MK609R/image-asset.jpeg 2018, June - Career Feature: Family Relations and Human Development https://www.jyi.org/2018-june/2018/6/1/the-endocannabinoid-system-our-universal-regulator monthly 0.5 2018-11-12 https://www.jyi.org/2018-june/2018/5/26/confocal-laser-fluorescence-microscopy-to-measure-oil-concentration-in-producuced-water-analyzing-accuracy-as-a-function-of-optical-settings monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861094535-ASRWS748GOCK38KBY38M/Screen+Shot+2018-06-01+at+8.49.41+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 1. Grid for representative sampling. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861207514-9OKJ5FOB6FZPQSAN9Y85/Screen+Shot+2018-06-01+at+8.49.50+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 2. Divsion of flow channel into grid cells. The flow channel runs through the center of flow cell and is 400μm deep. The metal grid divided the channel area into 12 cells that were approximately 2mm x 7.5mm each. Each cell was assigned a number, as indicated in the figure, which was later used when randomly selecting stacks taken from the sample for an averaged calculation of the crude oil concentration. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527862085903-7JOXJMRGZF2MX7P512G7/Screen+Shot+2018-06-01+at+8.50.51+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527862140785-A64PAJ26D565VJ7S9O4K/Screen+Shot+2018-06-01+at+8.50.58+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527862170076-H0TE0Y0TW3TFPZAP7X55/Screen+Shot+2018-06-01+at+8.51.06+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Table 1. Percent recoveries and standard deviations of all tested sample concentrations. Z is the z-step used when acquiring image stacks, which describes the increments between each optical section within the image stacks. Recovery (%) is the CLFM estimated concentration divided by the prepared sample concentration multiplied by 100% (Equation 1). Standard Deviation (%) is the deviation of the CLFM calculated concentration of a stack from the average calculated concentration (Equation 2). The highlighted values indicate acceptable percent recoveries and standard deviations as stated in the criteria for initial precision and recovery performance tests from EPA Standard Method 1664 (USEPA 2010). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861399822-D3WQHIEHLDVLHDC55H2C/Screen+Shot+2018-06-01+at+8.49.57+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 3. Percent recovery versus z-step and number of stacks for 15 ppm sample. Little to no correlation is evident for percent recovery with respect to z-step, but it is apparent that percent recovery is decreasing with increasing number of stacks for this 15ppm crude oil sample. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861474303-S7041KQ5YSRDK7CJC4OM/Screen+Shot+2018-06-01+at+8.50.07+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 4. Percent recovery versus z-step and number of stacks for 25 ppm sample. No correlation is evident between percent recovery and z-step size, but a somewhat parabolic relationship is displayed in this 25ppm crude oil sample for percent recovery with respect to number of stacks used. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861514460-56BDOH7LP1S7R20Y9LX7/Screen+Shot+2018-06-01+at+8.50.16+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 5. Percent recovery versus z-step and number of stacks for 30 ppm sample. The 30ppm crude oil sample showed increasing percent recovery with increasing number of stacks used but no strong correlation with z-step size. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861553500-HTTMZY0V2MTJARTAOV7W/Screen+Shot+2018-06-01+at+8.50.26+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 6. Percent recovery versus z-step and number of stacks for 40 ppm sample. The 30ppm crude oil sample showed increasing percent recovery with increasing number of stacks used but no strong correlation with z-step size. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861591531-7A3ONYDP2OHB1PYSSJKV/Screen+Shot+2018-06-01+at+8.50.32+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 7. Percent recovery versus z-step and number of stacks for 50 ppm sample. The 50ppm crude oil sample yielded higher percent recoveries with increasing number of stacks and showed no strong correlation between percent recovery and z-step size. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861816911-8SRKZ3ROIEFYANY50PLK/Screen+Shot+2018-06-01+at+9.00.46+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 8. Percent recovery versus z-step and number of stacks for 100 ppm sample. The 100ppm sample yieled results that were relatively consistent across all z-steps, suggesting no strong correlation with percent recovery and increasing percent recovery with increased number of stacks used. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861976847-L4OBZDIFABUGMDGHYQ89/image-asset.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 9. Percent recovery versus z-step and number of stacks for 500 ppm sample. The 500ppm sample showed results that had slightly decreasing percent recovery with increasing z-step size and highest https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527861626271-V10UX4QSMYO2L21U6GUR/Screen+Shot+2018-06-01+at+8.50.38+AM.png 2018, June - Confocal Laser Fluorescence Microscopy to Measure Oil Concentration in Produced Water: Analyzing Accuracy as a Function of Optical Settings Figure 10. Threhold versus sample concentration. The optimum grayscale to binary threshold identified for the various concentrations of crude oil samples are relatively consistent and average approximately 0.33. https://www.jyi.org/2018-june/2018/6/1/the-world-hope-index monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527869561376-7GNXEP0IUZ7ZNHBL6N0J/image-asset.png 2018, June - The World Hope Index Table 1. Senegal raw data figures. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527869625286-FJ6Z5XQCSMR4666TEWQF/Screen+Shot+2018-06-01+at+11.13.31+AM.png 2018, June - The World Hope Index Table 2. Senegal normalised data figures. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527869693052-6FJENLWNDGLXSQ5I1RGX/image-asset.png 2018, June - The World Hope Index Table 3. World Hope Index 2017 Rankings and Hope Quotient. https://www.jyi.org/2018-june/category/Science+Careers monthly 0.5 https://www.jyi.org/2018-june/category/Research monthly 0.5 https://www.jyi.org/2018-june/category/Feature monthly 0.5 https://www.jyi.org/2018-may daily 0.75 2018-04-26 https://www.jyi.org/2018-may/2018/4/26/seeking-happiness-understanding-the-mechanisms-of-mixing-music-and-drugs monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1525096361791-FJBS6AGE7R2HIBZWJ6MO/Screen+Shot+2018-04-30+at+8.50.48+AM.png 2018, May - Seeking Happiness: Understanding the Mechanisms of Mixing Music and Drugs Figure 1. The mesolimbic reward pathway. Pleasurable factors on an individual act upon the ventral tegmental area and the substantia nigra; both which have dopaminergic projections to the hippocampus, the striatum, the nucleus accumbens and the frontal cortex. These projections trigger behavioural changes, emotional changes, and can even stimulate pleasurable memories (Adinoff, 2004). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1525096476295-Q9FY04UMS13QV4AJ4K35/Screen+Shot+2018-04-30+at+8.50.55+AM.png 2018, May - Seeking Happiness: Understanding the Mechanisms of Mixing Music and Drugs Figure 2. Cortical areas activated in the onset of emotion. The activation of different cortical areas cause the onset of different possible emotions in which an individual can experience. Positive emotions are correlated with the activation of mesolimbic structures such as the frontal cortex, the nucleus accumbens, the striatum, the ventral tegmental area, the substantia nigra, and the hippocampus. Negative emotions are correlated with the activation of structures such as the hypothalamus, the amygdala, the nucleus accumbens, and the hippocampus (Baumgartner, Esslen, & Jäncke, 2006). https://www.jyi.org/2018-may/2018/4/12/an-examination-of-depression-self-stigma-in-asian-and-caucasian-canadians monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524458519118-7MNAN46UG5JS1VORQ515/Screen+Shot+2018-04-22+at+11.41.05+PM.png 2018, May - An Examination of Depression Self-Stigma in Asian and Caucasian Canadians Table 1. Correlations between All Variables and Cronbach’s Alpha for All Measures for the Whole Sample (n = 70). AQ = Attribution Questionnaire. EASI = Endorsed and Anticipated Stigma Inventory. SSMIS = Self Stigma for Mental Illness Scale. BDI = Beck Depression Inventory. GEQ = General Ethnicity Questionnaire. LCR = Level of Contact Report. Cronbach’s alphas are shown in the diagonal. *p < .05. **p < .01. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524458591924-ET66S5HY113FFQY0NNZD/Screen+Shot+2018-04-22+at+11.41.17+PM.png 2018, May - An Examination of Depression Self-Stigma in Asian and Caucasian Canadians Table 2. Means and Standard Errors of AQ27, EASI, and SSMIS scores by group. M = mean score. SE = standard error. AQ = Attribution Questionnaire. EASI = Endorsed and Anticipated Stigma Inventory. SSMIS = Self-Stigma for Mental Illness Scale. https://www.jyi.org/2018-may/2018/4/20/untangling-coefficients-for-lorentz-violation monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524233111235-CPF03LT9O9JFOGVMMI1F/figure+1.jpg 2018, May - Untangling Coefficients for Lorentz Violation Figure 1. Current bounds on linear combinations of coefficients a and b. The grey parallelogram represents the values allowed by Eq. (2) with borders given by the uncertainties. The dashed lines represent the best measurement results, i.e., the results with uncertainties set to zero. (Note that the a and b axes are not drawn with the same scale.) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524233143292-L8V2X44AGFYDH9TRJCU3/figure+2.jpg 2018, May - Untangling Coefficients for Lorentz Violation Figure 2. The same graph as Figure 1 but with different labels to highlight different aspects. The small heavy square and its projections onto the a and b axes represent the best values of those variables, < a > and < b >. The heavy circles and their projections represent the uncertainty range of each variable, a = < a > ± ∂a and b = < b > ± ∂b. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524764790763-B9YL5I18NVHRY6JUYOV3/Screen+Shot+2018-04-26+at+12.45.48+PM.png 2018, May - Untangling Coefficients for Lorentz Violation Table 1. Untangled bounds to electron-associated c coefficients. The tilde coefficients are linear combinations of the base coefficients, and are defined in Table P41 of the Data Tables (Kolselecky & Russell, 2011). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524764871923-OP1M83C2ZQPWCI3X0QGN/Screen+Shot+2018-04-26+at+12.47.13+PM.png 2018, May - Untangling Coefficients for Lorentz Violation Table 2. Maximal sensitivities to tilde combinations of SME coefficients that result from this analysis. The entries in the first column are the usual tilde-c combinations. Note that some of these sensitivities will replace values in Table S2 of the Data Tables (Kostelecky and Russell, 2011). https://www.jyi.org/2018-may/category/Research monthly 0.5 https://www.jyi.org/2018-april daily 0.75 2018-04-02 https://www.jyi.org/2018-april/2018/4/1/geographic-variability-of-active-ingredients-in-spice-as-an-indicator-of-mechanisms-of-distribution-and-manufacture-within-alaska monthly 0.5 2018-11-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634483768-XOLC58N3987WCE9LWVRD/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 1. Hypothesis of how relationships between active ingredients may relate to mechanisms of Spice production. Samples for this study were collected in Fairbanks, Wasilla and Soldotna, shown onmap (http://www.worldatlas.com/webimage/countrys/namerica/usstates/outline/ak.gif). Via ground transportation, Soldotna is 304 km from Wasilla and 812 km from Fairbanks; Wasilla is located 508 km from Fairbanks. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634608478-YGMXFES8HXRFV2PG3VTH/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 2. Photographs of 25 packages of Spice samples acquired from three smoke shops throughout Alaska. Samples A-L were obtained from Soldotna, M-W were obtained from Wasilla, and samples X and Y were obtained from Fairbanks. Legend: Unsealed package, Labelled compli- ant, Blurry graphics, Sticker labels, Contains regulated cannabinoids, Tested with GC-MS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634678569-ERWNIW0E13IEOXZ5YOF8/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 3. Chromatograms and fragmentation patterns of synthetic cannabinoid standards. Note similar structure of cannabinoid compounds and variable retention time (RT), formula mass (FM), and fragmentation patterns of the cannabinoid standards. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634723610-URA20DIMI8VQAAM3BZKC/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 4. Discrepancies in packaging and contents of Spice samples. Note the unsealed packages (A, B, and C; each package is 8.5 cm in width), the label on D.O.A. being a sticker (C and D), the foreign mate- rial on the backside of the sticker (D), as well as the difference in herbal substrate’s appearance in Fear and Loathing II (E and F). Specifically, (F) contains blue petals and contains larger pieces of herbal substrate, while(E) contains finer pieces of herbal matter and lacks the blue petals. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634767545-FYGKC9MMDRDMQ6LAJTY7/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 5. Chromatograms of packages of Spice that are labeled “compliant”. Note that the label for “Magic” states the package of Spice does not contain JWH-018, but the GC-MS test revealed a 95.7% match for JWH-018. The print on “Platinum” states the package of Spice does not contain any JWH compounds, however the GC-MS test revealed a 93.3% match for JWH-015. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522635334337-O470SFHWN710DYYOAH7D/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522635354498-AQRH2J34UL302TL76ITK/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634812640-G5RCPS4UMLBYUTR74HBF/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 6. Chromatograms of D.O.A. brand of Spice purchased from different locations and Fear and Loathing II. Note the difference in the number and specific active ingredients present in the same brand purchased from different locations, and the similarity of active ingredients present in two different brands purchased from the same location. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634883495-MRWEYDKRH32CPNWK8R5R/image-asset.jpeg 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 7. Fragmentation patterns showing suspected active ingre- dients of Spice samples. Note the similar peaks of the sample com- pared to the cannabinoid standard and NIST fragmentation pattern library. Molecular fragmentation from Hudson and Ramsey (2011). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522634965738-AOI8UB96AU1SHEOT36M5/Capture9.JPG 2018, April - Geographic Variability of Active Ingredients in Spice as an Indicator of Mechanisms of Distribution and Manufacture Within Alaska Figure 8. Chemical structures of the synthetic cannabinoids found in Spice samples. Structures obtained from NIST Mass Spectral Library (NIST, 2011). https://www.jyi.org/2018-april/2018/4/1/the-heredity-of-beauty monthly 0.5 2018-11-12 https://www.jyi.org/2018-april/2018/4/1/using-crispr-to-fight-als monthly 0.5 2019-02-12 https://www.jyi.org/2018-april/2018/4/1/compacting-dna-real-time-imaging-of-condensing-in-action monthly 0.5 2018-10-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1522560659452-ZWMX3ZP2RIM8J1DCJX69/Capture.JPG 2018, April - Compacting DNA: real-time imaging of condensing in action Figure 1: Experimental set-up to visualizecondensin-mediated DNA extrusion (Figure taken from reference (1). https://www.jyi.org/2018-april/2018/4/1/career-interview-analytical-chemistry-as-a-mature-student monthly 0.5 2018-06-01 https://www.jyi.org/2018-april/category/Science+Careers monthly 0.5 https://www.jyi.org/2018-april/category/Careers monthly 0.5 https://www.jyi.org/2018-april/category/Features monthly 0.5 https://www.jyi.org/2018-april/category/Research monthly 0.5 https://www.jyi.org/2018-april/category/Science+News monthly 0.5 https://www.jyi.org/2018-april/category/Interviews monthly 0.5 https://www.jyi.org/blog daily 0.75 2025-06-18 https://www.jyi.org/blog/2022/11/2/a-keynote-on-the-aids-epidemic-story monthly 0.5 2022-11-02 https://www.jyi.org/blog/2022/10/1/safeguarding-people-from-harmful-medicines monthly 0.5 2022-10-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1664652305211-AHQHSF9E1H7ZXN1AD7E1/unsplash-image-jwWtZrm67VI.jpg JYI Blog - Safeguarding People from Harmful Medicines - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/blog/2021/2/17/anxiety-in-asian-american-adolescents monthly 0.5 2021-02-17 https://www.jyi.org/blog/2020/11/27/opening-more-than-just-our-eyes-the-importance-of-open-access-research monthly 0.5 2020-11-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606533805437-A8DBY9ACPOWXVWZ7QR0R/Picture1.png JYI Blog - Opening more than just our eyes: the importance of Open Access research Figure 1: Source: Creative Commons, 2016. The Open Access Logo. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606533860060-V9QVT0N5DIV4H8IIVDZR/Picture2.png JYI Blog - Opening more than just our eyes: the importance of Open Access research Figure 2: Source: The University of Waikato, 2020. An overview of the two main types of Open Access. https://www.jyi.org/blog/2020/9/5/on-intersectionality-in-healthcare monthly 0.5 2020-09-05 https://www.jyi.org/blog/2020/7/18/how-to-become-a-science-journalist monthly 0.5 2020-07-18 https://www.jyi.org/blog/2020/6/21/neo-traditionalism-in-asia monthly 0.5 2020-06-21 https://www.jyi.org/blog/2020/5/26/premed-burnout-and-medical-education monthly 0.5 2020-05-26 https://www.jyi.org/blog/2020/1/27/greetings-for-the-new-year monthly 0.5 2020-01-27 https://www.jyi.org/blog/2019/11/28/10-traits-of-a-great-leader monthly 0.5 2019-11-28 https://www.jyi.org/blog/2019/9/8/to-break-out-from-your-own-shell-my-journey-in-japan monthly 0.5 2019-11-28 https://www.jyi.org/blog/2019/9/2/10-tips-to-avoid-burnout monthly 0.5 2019-11-28 https://www.jyi.org/blog/2018/12/28/surviving-and-thriving-off-a-four-hour-commute monthly 0.5 2020-06-21 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546009610689-7CW93LGI5UD4O7D2B2M6/image-asset.jpeg JYI Blog - Surviving and thriving off a four-hour commute https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546009710389-UAO60SPWOFK3J7BXSBM4/A837A488-B409-4DD1-BDAC-7DD928B18DD0.jpeg JYI Blog - Surviving and thriving off a four-hour commute https://www.jyi.org/blog/2018/10/1/adventures-with-headlice-experiments monthly 0.5 2019-08-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1538541517234-IHJOO8QK5DBGLOMAX40C/image-asset.png JYI Blog - Adventures with headlice experiments https://www.jyi.org/blog/2018/7/10/y2v19mn93hdoc4a1biaz5or2he8f6j monthly 0.5 2019-09-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1531370128684-AWOYPKJWLUB0OQJWZ5FM/DSCN2462.JPG JYI Blog - Imposter Syndrome https://www.jyi.org/blog/2018/6/28/using-crispr-in-my-kitchen monthly 0.5 2019-08-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1530542242179-IFP5JZW3L77JUIKAD6N2/image-asset.png JYI Blog - Using CRISPR in my kitchen Jennifer Doudna gives a talk at the Royal Society. Photo credits Florian Hoffmann https://www.jyi.org/blog/2018/6/11/nafisas-top-ten-tips-for-oral-and-poster-presentations monthly 0.5 2019-08-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1528799912516-Z3SHIFIUNLVD1MEIWK0P/Nafisa_Jadavji_Poster_Presentation.jpg JYI Blog - Nafisa’s Top Ten Tips for Oral and Poster Presentations Dr. Jadavji presenting her work at a conference. https://www.jyi.org/blog/2018/5/24/making-the-most-of-your-summer-research monthly 0.5 2019-08-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527212567055-JVL13P080DTUWPD0P8BG/image-asset.jpeg JYI Blog - Making the Most of Your Summer Research Adam presenting his research at the end of the summer. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527213536261-YNRL6MQWSML19Z3NQ8SM/13443132_1084071118332749_408773181615266429_o.jpg JYI Blog - Making the Most of Your Summer Research Adam working at his Ohio State lab. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527212619167-WDVZQLL6TQKBCCTKOBAQ/image-asset.jpeg JYI Blog - Making the Most of Your Summer Research The lab enjoying a lunch break. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1527212700186-XCE265KLNSE6BPKZDZ1Q/image-asset.jpeg JYI Blog - Making the Most of Your Summer Research Adam and friends take a picture outside the Mayo Clinic. https://www.jyi.org/blog/2018/4/18/from-copy-editor-to-editor-in-chief-my-four-year-journey-at-jyi monthly 0.5 2019-08-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1524108511591-7SVW0YOEY3IVDEZR5OY8/image-asset.jpeg JYI Blog - From Copy Editor to Editor-in-Chief: My Four-Year Journey at JYI Editor-in-Chief, Maya Gosztyla (right) and former Chief Development Officer, Sahba Seddighi (left) ran a table promoting JYI at the 2016 Society for Neuroscience Conference in San Diego, CA. https://www.jyi.org/blog/2018/4/18/research-insights-from-dr-alexander-patananan monthly 0.5 2019-08-25 https://www.jyi.org/blog/category/Voices+from+the+BOD monthly 0.5 https://www.jyi.org/blog/category/Voices+of+JYI monthly 0.5 https://www.jyi.org/blog/tag/Medicine monthly 0.5 https://www.jyi.org/blog/tag/FDA monthly 0.5 https://www.jyi.org/blog/tag/gene+editing monthly 0.5 https://www.jyi.org/2019-december daily 0.75 2019-12-28 https://www.jyi.org/2019-december/2019/12/1/using-rapid-bio-assessment-and-habitat-evaluation-methods-to-understand-the-effects-of-different-land-uses-on-a-privately-owned-river-in-southwest-virginia monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1575077730228-4N75AHWM7SCALSVFNM3J/Screen+Shot+2019-11-26+at+2.42.58+PM.png 2019, December - Using Rapid Bio-assessment and Habitat Evaluation Methods to Understand the Effects of Different Land Uses on a Privately-owned River in Southwest Virginia Figure 1. Virginia is located in eastern United States. The study site is specifically located in the Ellett Valley of Montgomery County, Virginia, USA. The study site is divided into the North and South parcel by the property of an outside landowner. Parcel, in the context of this research project, is defined as a plot of land. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1575078118904-KJ1FJ248OC22KJE2JX4O/image.jpg 2019, December - Using Rapid Bio-assessment and Habitat Evaluation Methods to Understand the Effects of Different Land Uses on a Privately-owned River in Southwest Virginia Figure 2. Sample reach distribution in the North (top map layer) and South (bottom map layer) parcels of the North Fork Roanoke River flowing through the study site. The North parcel is upstream of the South parcel. The North parcel river channel is far more sinuous than the South parcel. Sample reaches were 30 m long with 16 reaches in the South and 11 reaches in the North parcel due to the differing lengths of the parcels. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1575078231872-QUU6BD1TJAGOARZF6YQW/Screen+Shot+2019-11-29+at+7.43.38+PM.png 2019, December - Using Rapid Bio-assessment and Habitat Evaluation Methods to Understand the Effects of Different Land Uses on a Privately-owned River in Southwest Virginia Table 1. VSCI results showing macroinvertebrate families that are pollution sensitive (high water quality) and those that are pollution tolerant (low water quality) collected in the downstream and upstream sections of the North Fork Roanoke River. “+” indicates that the macroinvertebrate species was pollution sensitive. “-” indicates that the macroinvertebrate species was pollution tolerant. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1575078431578-72VCMYKTZQ3E3YO3MJPZ/Screen+Shot+2019-11-26+at+2.50.58+PM.png 2019, December - Using Rapid Bio-assessment and Habitat Evaluation Methods to Understand the Effects of Different Land Uses on a Privately-owned River in Southwest Virginia Figure 3. Habitat scores derived from a QHEI assessment of the South parcel (downstream) and North parcel (upstream) of the North Fork Roanoke River. The South parcel spans sample reaches 1-16 while the North parcel spans sample reaches 17-27. The metrics that were evaluated for QHEI are those viewed as most impactful and significant to aquatic vertebrates and invertebrates. A higher habitat score indicates a higher quality habitat. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1575078331454-T8AOSCW7ZB2OC1FMZ1FV/Screen+Shot+2019-11-29+at+7.45.12+PM.png 2019, December - Using Rapid Bio-assessment and Habitat Evaluation Methods to Understand the Effects of Different Land Uses on a Privately-owned River in Southwest Virginia Table 2. Average QHEI and VSCI scores for sample reaches in the South (downstream) and North (upstream) parcels of the North Fork Roanoke River. The QHEI and VSCI scores are compared to their respective indexes to give a category of habitat quality and ecological stress being experienced by macroinver- tebrate organisms of the sample reaches. Reaches 17-20 experienced severe ecological stress demonstrated by VSCI scores, whereas the other reaches were good to excellent. All reaches experienced fair to good habitat quality as indicated by the QHEI. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1575077921357-MLSMTP7RJV5Q2NER3D88/Screen+Shot+2019-11-26+at+3.46.18+PM.png 2019, December - Using Rapid Bio-assessment and Habitat Evaluation Methods to Understand the Effects of Different Land Uses on a Privately-owned River in Southwest Virginia Figure 4. VSCI scores indicative of the level of environmental stress experienced by aquatic organisms. Higher scores indicate less stress and lower scores indicate higher stress. The South parcel (downstream) scored higher than the North parcel (upstream). The South parcel spans sample reaches 1-16 while the North parcel spans sample reaches 17-27. https://www.jyi.org/2019-december/category/Research monthly 0.5 https://www.jyi.org/2019-november daily 0.75 2019-10-30 https://www.jyi.org/2019-november/2019/11/1/press-release-understanding-the-mechanisms-to-treat-working-memory-deficits monthly 0.5 2022-04-08 https://www.jyi.org/2019-november/2019/11/1/understanding-a-physicists-work-to-explore-the-stars-and-his-community-an-interview-with-dr-jorge-lopez-from-the-university-of-texas-at-el-paso monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1572043883932-5ZGL8T5NF9FL7T09CG86/Lopez_Profile.jpg 2019, November - Understanding a Physicist’s Work to Explore the Stars and His Community: An Interview with Dr. Jorge Lopez from the University of Texas at El Paso https://www.jyi.org/2019-november/2019/11/1/mentorship-in-medicine-dr-sarita-khemani-creates-resources-for-aspiring-physicians monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1572044262014-VW3AD9H4ML5UNA5SDAI8/Khemani.jpg 2019, November - Mentorship in Medicine: Dr. Sarita Khemani Creates Resources for Aspiring Physicians https://www.jyi.org/2019-november/2019/10/1/the-use-of-methylphenidate-in-the-treatment-of-adhd-what-is-the-mechanism-for-treating-working-memory-deficits-3f32p monthly 0.5 2019-12-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1569277246373-IPPMH33QMHJFHIKM5UAO/figure.png 2019, November - The Use of Methylphenidate in the Treatment of ADHD: What is the Mechanism for Treating Working Memory Deficits? Figure 1. Molecular structure of Methylphenidate. https://www.jyi.org/2019-november/category/Science+Careers monthly 0.5 https://www.jyi.org/2019-november/category/Careers monthly 0.5 https://www.jyi.org/2019-november/category/Press+Release monthly 0.5 https://www.jyi.org/2019-november/category/Research monthly 0.5 https://www.jyi.org/2019-november/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-october daily 0.75 2019-10-27 https://www.jyi.org/2019-october/2019/10/1/the-role-of-synaptic-plasticity-in-the-pathophysiology-of-cocaine-addiction monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1572205120609-TMF7YNYZFXED4OR2L2CI/image-asset.jpeg 2019, October - The Role of Synaptic Plasticity in the Pathophysiology of Cocaine Addiction Figure 1. The flow of information in the brain reward pathway, from the ventral tegmental area to the nucleus accumbens (NA) to the prefrontal cortex (National Institute on Drug Abuse, 2016; Lynch, 2006). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1572213598758-4LL6JOT1M4OOZPXDUOU3/20-Figures-201-1-4-20190120.jpg 2019, October - The Role of Synaptic Plasticity in the Pathophysiology of Cocaine Addiction Figure 2. The release of DA from a presynaptic neuron, with arrival at DA D1 and D2 receptors on the postsynaptic neuron and DA reuptake by DAT on the presynaptic neuron (Quenzer and Meyer, 2013). https://www.jyi.org/2019-october/category/Research monthly 0.5 https://www.jyi.org/2019-september daily 0.75 2019-08-28 https://www.jyi.org/2019-september/2019/9/1/press-release-smartphones-enable-inclusive-bat-research monthly 0.5 2022-04-13 https://www.jyi.org/2019-september/2019/9/1/scientists-at-temple-health-find-potential-cure-for-hiv monthly 0.5 2019-12-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1567024693061-KBASYTJYM14MEC88T4Q6/Sept+19+HIV.jpg 2019, September - Scientists at Temple Health Find Potential Cure for HIV https://www.jyi.org/2019-september/2019/8/22/smartphones-as-a-non-invasive-surveying-tool-to-monitor-bats monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566485776006-1I2P55SONSO91ZGRG1TA/Figure-1.jpg 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats Figure 1. Google Earth map of study area on Wingate University Campus Lake. This site is a mixture of hardwood forest, open mowed grassy fields, and trails. Areas of bat box deployment Bat boxes 1, 2, 3, and 4 (BB1, BB2, BB3, and BB4) shown in yellow boxes with arrows indicating survey location of call recording. BB1 and BB2 included temperature loggers and were suspended 20 feet on trees with BB1 in full sun and BB2 in partial sun. BB3 and BB4 were in full sun but were not utilized for temperature data. Google map data retrieved 11/2/2018, https://www.google.com/maps/@34.9865251,-80.4310875,639m/data=!3m1!1e3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566485974978-720SA52WO1EKJFKNSO97/Figure-2.jpg 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats Figure 2. Bat Box 1 deployed (BB1) showing placement of HOBO® Pendant MX2202 temperature and luminosity logger (A), and preliminary downloaded data screen using WIFI (B). Data loggers were attached internally with zip ties to record ambient temperature and light (luminosity) every hour. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566486143085-4VKSNIKVCAATUCICX0YC/Figure-3.jpg 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats Figure 3. Echo Meter Touch 2 (Wildlife Acoustics) workspace screenshot. Bat echolocation calls are shown with peaks below 60 Khz (left) and identification and pulse ratio shown with bat species identification (right). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566486220272-556W2AW49EFG89GXT4X4/Figure-4.jpg 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats Figure 4. Temperatures of Bat Box 1 (top) and Bat Box 2 (bottom) for Fall and Spring. Temperatures were recorded and downloaded from HOBO® Pendant MX2202 temperature and luminosity loggers. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566486368590-VLSYQY7V4GE3B3TFDQ09/Figure-5.jpg 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats Figure 5. Luminosity values for Spring (A) and Fall Seasons (B) for Bat Box 1 and Bat Box 2. Luminosity values are shown from HOBO® Pendant MX2202 temperature and luminosity loggers. Bat box 1 represented by BB1 and bat box 2 represented by BB2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566486283849-TDG7FA6L2M8TVVXTXY8A/Figure-6.jpg 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats Figure 6. Relative abundance of bat species identified during the study by the Echo Meter Touch 2. Species identified shown as standard bat identification codes. Codes indicating species are as follows: EPTFUS (Big brown bat), LASCIN (Hoary bat), TADBRA (Mexican free-tailed bat), LASNOC (Silver-haired bat), and LASINT (Northern yellow bat). Note EPTFUS, or Big brown bat is the most common species identified in the Wingate University Campus Lake area. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1566486501472-RST0NFB6JKI8V6OFFW29/Screen+Shot+2019-08-22+at+10.07.34+AM.png 2019, September - Smartphones as a Non-Invasive Surveying Tool to Monitor Bats https://www.jyi.org/2019-september/category/News+Feature monthly 0.5 https://www.jyi.org/2019-september/category/Research monthly 0.5 https://www.jyi.org/2019-september/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-september/category/News+Features monthly 0.5 https://www.jyi.org/2019-august daily 0.75 2019-07-31 https://www.jyi.org/2019-august/2019/8/1/is-mind-reading-the-future-of-bci-technology monthly 0.5 2019-08-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1564538040036-GMERP3A8F0C8I7QM8PZX/image-asset.png 2019, August - Is Mind-Reading the Future of BCI Technology? https://www.jyi.org/2019-august/2019/8/1/the-case-for-making-statistical-significance-less-significant monthly 0.5 2019-08-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1564537377521-S93SYDZ8YSS1H5PLHNW6/image-asset.jpeg 2019, August - The Case for Making ‘Statistical Significance’ Less Significant https://www.jyi.org/2019-august/2019/8/1/photoinduced-inhibition-of-dna-amplification-by-pcr-with-a-photocisplatin-analog monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1564604400036-2FGDYW8N609GDI26TYVY/image-asset.png 2019, August - Photoinduced Inhibition of DNA Amplification by PCR with a Photocisplatin Analog Figure 1. The structure of complex, [Ru(biq)2(dpp)](PF6)2 (biq = 2,2'-biquinoline, dpp = 2,3-bis(2-pyridyl)pyrazine). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1564604608076-0THE65ARR9I9DGBEY0C3/Screen+Shot+2019-07-31+at+3.19.03+PM.png 2019, August - Photoinduced Inhibition of DNA Amplification by PCR with a Photocisplatin Analog Figure 2. (A) Agarose gel electrophoresis results of PCR amplified products, when DNA was incubated for 60 mins with either cisplatin in dark or with [Ru(biq)2(dpp)]2+under dark condition and after photoirradiation. Lane 1 is the molecular weight marker (24kbp, 9.4kbp, 6.6kbp, 4.4kbp, 2.2kbp), Lane 2 is a positive PCR control showing 1228 bp fragment produced using pUC18 DNA as a template, Lane 3 is the product of PCR using pUC18 DNA incubated with cisplatin at bp/mc ratio of 1:5, Lane 4 is the product of PCR using pUC18 incubated with [Ru(biq)2(dpp)]2+ at bp/mc ratio of 1:5 in the dark. Lane 5 is the product of PCR using the same sample irradiated with visible light (λirr≥ 550 nm) for 30 minutes (bp = base pair, mc = metal complex). (B) The relative band intensity of each PCR product. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1564604640623-BTI6FDLTJG8V3YLWU8GM/image-asset.png 2019, August - Photoinduced Inhibition of DNA Amplification by PCR with a Photocisplatin Analog Figure 3. (A) Agarose gel electrophoresis results of PCR amplified product when DNA was incubated for 60 mins with increasing concentrations of metal complex, [Ru(biq)2(dpp)]2+, photolyzed with visible light (visible light at λ_irr ≥ 550 nm for 30 minutes). In Gel A, Lane 1 is the molecular weight marker (24kbp, 9.4kbp, 6.6kbp, 4.4kbp, 2.2kbp), Lane 2 is a positive PCR control showing the 1228 bp fragment produced using pUC18 DNA as a template, Lane 3-6 is the product of PCR using pUC18 incubated with the complex, [Ru(biq)2(dpp)]2+, at bp/mc ratio of 1:1, 1:3, 1:5 and 1:6, respectively (bp = base pair, mc = metal complex). (B) The relative band intensity of each PCR product. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1564604689128-L38ZB3FP49EIRCA1576U/Screen+Shot+2019-07-31+at+3.19.15+PM.png 2019, August - Photoinduced Inhibition of DNA Amplification by PCR with a Photocisplatin Analog Figure 4. (A) Agarose gel electrophoresis on PCR amplified product when DNA was incubated for 60 mins with increasing concentrations of cisplatin. Lane 1 is the molecular weight marker (24 kbp, 9.4 kbp, 6.6 kbp, 4.4 kbp, 2.2 kbp), Lane 2 is a positive PCR control showing the 1228 bp fragment produced using pUC18 DNA as a template, Lane 3-6 is the product of PCR using pUC18 incubated with cisplatin, at bp/cisplatin ratio of 1:1, 1:3, 1:5 and 1:6, respectively (bp = base pair, mc = metal complex). (B) The relative band intensity of each PCR product. https://www.jyi.org/2019-august/2019/8/1/press-release-understanding-how-quantum-applications-enrich-game-theory monthly 0.5 2022-07-15 https://www.jyi.org/2019-august/2019/8/1/sequencing-the-regulations-on-human-germline-editing-research monthly 0.5 2019-11-01 https://www.jyi.org/2019-august/2019/8/1/a-review-of-quantum-games monthly 0.5 2019-11-01 https://www.jyi.org/2019-august/category/News+Feature monthly 0.5 https://www.jyi.org/2019-august/category/Research monthly 0.5 https://www.jyi.org/2019-august/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-july daily 0.75 2019-07-01 https://www.jyi.org/2019-july/2019/7/1/topological-insulators-and-applications-to-quantum-computing monthly 0.5 2019-07-26 https://www.jyi.org/2019-july/2019/7/1/are-physicians-happy-with-their-jobs-addressing-physician-burnout monthly 0.5 2019-07-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561652910279-OFXQ8CB7U0UQC1UAQGHH/NCD1.png 2019, July - Are Physicians Happy with Their Jobs? Addressing Physician Burnout https://www.jyi.org/2019-july/2019/7/1/scanning-electron-microscopy-of-phytoplankton-achieving-high-quality-images-through-the-use-of-safer-alternative-chemical-fixatives monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561995865088-XOK8F2579O3YKYT7UPTA/image-asset.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 1. SEM images of A) Tetraselmis chuii (10 µm), B) Isochrysis galbana (5 µm), C) Nannochloropsis granulata (2 µm), and D) Chaetoceros gracilis (10 µm), used throughout the experiment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561995914107-0OS92LEGFCUND5XSXDNJ/image-asset.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561995958682-XEM64XWKYFH9I195LBPA/image-asset.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996004065-BRGIMNBC1VXR1KN3I9QF/Screen+Shot+2019-07-01+at+10.46.26+AM.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996043338-LI9JQ4FH6STIUUKS0QM9/Screen+Shot+2019-07-01+at+10.47.10+AM.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996184913-4LETQYI868HEQ97TS4WE/image-asset.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 2. Correlative SEM images of T. chuii cells numbered by their respective protocols (Table 5). Scale bar = 10 µM. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996087225-OZREMXKO6OZ25636Y78G/Screen+Shot+2019-07-01+at+10.47.54+AM.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 3. One-Way Analysis of Variance (α = 0.05) and Tukey HSD comparison of average T. chuii image scores across each fixation method. Fixation methods are shorthanded on the X-axis and are referred to in Table 5. Blue bars were non-genipin fixatives and pink bars are genipin fixatives. Error bars ± 1 SE. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996246055-BF7V2HSDWPU3AN4D1GPH/image-asset.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 4. Correlative SEM images of I. galbana cells numbered by their respective protocols (numbered images refer to protocols tested in Table 5). Scale bar = 5 µM. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996293682-4RAC2MTW09F27UNGVP2P/Screen+Shot+2019-07-01+at+10.51.15+AM.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 5. One-Way Analysis of Variance (α = 0.05) and Tukey HSD comparison of average I. galbana image scores across each fixation method. Fixation methods are in shorthand on the X-axis and are referred to in Table 5. Blue bars were non-genipin fixatives and pink bars are genipin fixatives. Error bars ± 1 SE. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996333101-D69GI3X8LBDO87N5NIU8/fig6.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 6. Correlative SEM images of N. granulata cells numbered by their respective protocols (numbered images refer to protocols tested in Table 5). Scale bar = 2 µM. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996417055-RDF578SV4KXFDBEL7MFW/Screen+Shot+2019-07-01+at+10.53.10+AM.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 7. One-Way Analysis of Variance (α = 0.05) and Tukey HSD comparisons of average N. granulata image scores across each fixation method. Fixation methods are in shorthand on the X-axis and refer to table 5. Blue bars were non-genipin fixatives and pink bars are genipin fixatives. Error bars ± 1 SE. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996474973-LDN6PA1PEYSRL1NWHPUB/fig8.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 8. Correlative SEM images of C. gracilis cells numbered by their respective protocols (numbered images refer to protocols tested in Table 5). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1561996450077-3IZKG0XVN9EFXJ7A5AUX/Screen+Shot+2019-07-01+at+10.53.15+AM.png 2019, July - Scanning Electron Microscopy of Phytoplankton: Achieving High Quality Images Through the Use of Safer Alternative Chemical Fixatives Figure 9. One-Way Analysis of Variance (α = 0.05) and Tukey HSD comparisons of average C. gracilis image scores across each fixation method. Fixation methods are in shorthand on the X-axis and refer to table 5. Blue bars were non-genipin fixatives and pink bars are genipin fixatives. Error bars ± 1 SE. https://www.jyi.org/2019-july/category/Research monthly 0.5 https://www.jyi.org/2019-july/category/Science+News monthly 0.5 https://www.jyi.org/2019-june daily 0.75 2019-06-01 https://www.jyi.org/2019-june/2019/6/1/the-fear-factor-fear-deficits-in-psychopathy-as-an-index-of-limbic-dysregulation monthly 0.5 2019-11-01 https://www.jyi.org/2019-june/2019/6/1/psychopathy-fear-factor-or-lack-thereof monthly 0.5 2022-03-24 https://www.jyi.org/2019-june/category/Research monthly 0.5 https://www.jyi.org/2019-june/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-may daily 0.75 2019-04-30 https://www.jyi.org/2019-may/2019/5/1/press-release-how-social-information-in-images-plays-a-role-in-processing-strategies-for-those-with-an-autism-related-phenotype monthly 0.5 2022-09-07 https://www.jyi.org/2019-may/2019/5/1/an-educational-model-for-understanding-acute-deep-tissue-injury-of-motor-units-common-lab-exercises-with-a-new-twist monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556719494165-JM7P0C73L29FZJSF6GNR/Picture1.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist Figure 1. Dorsal part of the crayfish abdomen showing the extensor musculature in the crayfish. (A) The segmental nerve approaches the extensor muscle from the lateral-caudal aspect of each segment. The nerve is close to the SEL muscle. The red arrows depict the approximant locations where the segmental nerve can be located. (B) In this enlarge view the motor nerve can be seen on the surface of the DEL muscle and branching as it heads to the DEM muscle. (C) Schematic drawing from a ventral muscle with labels for the deep extensor medial (DEM), deep extensor lateral group1 (DEL1) and deep extensor lateral group2 (DEL2) used in this study (Scale bar = 2.35 mm; part C modified from Sohn et al., 2000). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556719674603-2XX1P201A16X5A2LPMKI/image-asset.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556719729508-W6F9JFANW7N1XTSV4MHF/Screen+Shot+2019-05-01+at+9.08.35+AM.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556719880948-8YQXJ536BIRRD8D0LFGB/fig2.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist Figure 2. Schematic presentation of crayfish abdomen extensor musculature. Each side of each segment contains deep extensor medial muscle (DEM), deep extensor lateral muscle 1 (DEL1), deep extensor lateral muscle 2 (DEL2), superficial extensor medial muscle (SEM). DEM, DEL1 and DEL2 are fast muscles whereas SEL has a slow muscle phenotype in nature. A3-A4 refers to abdomen segments. (Drawing made by Dr. Yue Chen Zhu). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556720055167-2LLAMWJZKCNTOZVIZPIO/image-asset.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556719943385-YHWMNZEP5PME2T8HDI2M/fig3.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist Figure 3. Relationship in size of the EJPs and membrane potential for muscle homogenate (one part muscle homogenate and three parts saline) and 40 mM [K+]o from SEL muscle. Note only stimulus artifacts are present with the muscle homogenate exposure but with 40 mM K+ EJPs are still observed even with a more depolarized resting membrane potential. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556720173935-MCYIY6FWCOTHBTGZT0FN/image-asset.png 2019, May - An Educational Model for Understanding Acute Deep Tissue Injury of Motor Units: Common Lab Exercises with a New Twist Figure 4: The results of the participant survey on content questions taken before and after conducting the exercise. The numerical responses are shown for each of the answers. The coded rubric A through E for question five is included (see rubric).The small bars at the 0% are drawn in at the 1% level only for reference to illustrate the pre- and post-responses, but the values are 0%. https://www.jyi.org/2019-may/2019/5/1/career-interview-with-dr-jeremy-day-principal-investigator-of-neurobiology-lab monthly 0.5 2019-05-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556652696423-O50ORQ5EWFYK5ILPDZ7Q/image-asset.png 2019, May - Career Interview with Dr. Jeremy Day, Principal Investigator of Neurobiology Lab https://www.jyi.org/2019-may/2019/5/1/varying-amount-of-social-information-in-an-image-affects-facial-processing-strategies-of-participants-with-an-autism-related-phenotype monthly 0.5 2019-11-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556587798446-QWJMPMIW0RKQA7SX6TEJ/724-Figure_1.jpg 2019, May - Varying Amount of Social Information in an Image Affects Facial Processing Strategies of Participants with an Autism-Related Phenotype Figure 1. Distribution of BAPQ scores across subjects. This figure illustrates that 5 subjects scored above the cutoff and were labeled BAPQ+ (red). 14 subjects scored below the cutoff and were labeled BAPQ- (blue). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556587942600-IXSCYM9A1G8FII5M9BBU/image-asset.jpeg 2019, May - Varying Amount of Social Information in an Image Affects Facial Processing Strategies of Participants with an Autism-Related Phenotype Figure 2. Time spent on eyes by participant category. This figure illustrates that effect of BAPQ score on time spent on the eyes of color images was not significant. (p = 0.119) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556587967129-SO7B247LJ7ZLAACVJLMI/image-asset.jpeg 2019, May - Varying Amount of Social Information in an Image Affects Facial Processing Strategies of Participants with an Autism-Related Phenotype Figure 3. Time spent on eyes by group and image category. No main effect of group on time spent on the eyes (p = 0.403). Effect of image category on time spent on the eyes was significant (p = 0.037). Subjects spent more time on the eyes of grayscale images (Mean = 0.22, SD = 0.034) than they did on control images (Mean = 0.186, SD = 0.034). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556588005895-BOU6OT9A268HWI3YRFJ2/image-asset.jpeg 2019, May - Varying Amount of Social Information in an Image Affects Facial Processing Strategies of Participants with an Autism-Related Phenotype Figure 4. Time spent on eyes in BAPQ+ participants. This figure illustrates that effect of image category on time spent on eyes was significant for subjects with an autism phenotype (p = 0.00937). Subjects with an autism phenotype spent more time on the eyes of grayscale images (Mean = 0.21, SD = 0.07) than on the eyes of color images (Mean = 0.14, SD = 0.06) or images under a contrast filter (Mean = 0.16, SD = 0.07). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556588038867-30JPV9BXC91AUFXG026C/fig5.jpg 2019, May - Varying Amount of Social Information in an Image Affects Facial Processing Strategies of Participants with an Autism-Related Phenotype Figure 5. Time spent on eyes in BAPQ- participants. This figure illustrates that effect of image category on time spent on eyes was not significant for subjects without an autism phenotype (p = 0.00937). https://www.jyi.org/2019-may/2019/5/1/interview-with-dr-amanda-freise-phd monthly 0.5 2019-05-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1556651917163-OYOF3TAX74336N7BW0TB/FreiseInterview_TinaZ.jpg 2019, May - Interview with Dr. Amanda Freise, PhD https://www.jyi.org/2019-may/category/Science+Careers monthly 0.5 https://www.jyi.org/2019-may/category/Research monthly 0.5 https://www.jyi.org/2019-may/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-april daily 0.75 2019-04-01 https://www.jyi.org/2019-april/2019/4/1/dispelling-the-danger-of-monosodium-glutamate-msg monthly 0.5 2019-04-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1554129016832-Y6U4ZSL3ILPDAZFAOIK8/MSG.png 2019, April - Dispelling the Danger of Monosodium Glutamate (MSG) https://www.jyi.org/2019-april/2019/4/1/from-primitive-to-specialized-new-fossil-changes-the-tune-on-hagfish monthly 0.5 2019-04-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1554128866029-RVBL7HMQQJC9ANE8NT7B/image-asset.png 2019, April - From “Primitive” to “Specialized”: New Fossil Changes the Tune on Hagfish https://www.jyi.org/2019-april/2019/4/1/monomer-dimer-equilibrium-of-mycobacterium-tuberculosis-alanine-racemase-depends-on-buffer-conditions monthly 0.5 2019-04-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1554128067186-O2K4ZH9EOPYSTSZJE72B/Screen+Shot+2019-04-01+at+9.14.10+AM.png 2019, April - Monomer-dimer Equilibrium of Mycobacterium tuberculosis Alanine Racemase Depends on Buffer Conditions https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1554128177294-1H3JXM8LZ76X7TXNHN53/image-asset.png 2019, April - Monomer-dimer Equilibrium of Mycobacterium tuberculosis Alanine Racemase Depends on Buffer Conditions Figure 1. Relationship between the molecular mass of protein standards and the retention volume, used as the calibration curve for determining the apparent molecular mass of M. tuberculosis alanine racemase. The retention volumes remained essentially constant over the pH values of 6.0, 7.0, and 8.0. The line of best fit was constructed using all three pH values. The apparent larger deviation at lower molecular mass is due to the logarithmic relationship, not greater errors in that range. Measurements performed on a Bio-Rad ENrich SEC 650 column at ambient temperature and a flow rate of 0.50 mL/min. The protein standard (2000 kDa) was tested at only pH 8 for stability reasons. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1554128295067-SOLJKC6LT9YBRJRK59WJ/Screen+Shot+2019-04-01+at+9.17.54+AM.png 2019, April - Monomer-dimer Equilibrium of Mycobacterium tuberculosis Alanine Racemase Depends on Buffer Conditions *Each apparent molecular mass was obtained by averaging the values obtained for retention volume measurements **These represent independent experiments and give an estimate of the experimental error. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1554128495842-66QNV94H9CQKCBM66MDH/image-asset.png 2019, April - Monomer-dimer Equilibrium of Mycobacterium tuberculosis Alanine Racemase Depends on Buffer Conditions Figure 2. The equilibrium constant for dimerization (K_dimer) of M. tuberculosis alanine racemase as a function of pH and buffer conditions, determined using size exclusion chromatography. All buffers had 50 mM total buffering agent and 100 mM NaCl. K_dimer was calculated from the apparent molecular mass as described in the text. Buffers without phosphate showed greater dimerization than ones with phosphate. https://www.jyi.org/2019-april/2019/4/1/b-vitamin-and-choline-supplementation-changes-the-ischemic-brain monthly 0.5 2019-04-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1553721236408-TRX88MVJPDK846T8TGWU/image-asset.png 2019, April - B-Vitamin and Choline Supplementation Changes the Ischemic Brain https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1553721153294-GCZJ9RNT0ZSTYWX254IN/image-asset.png 2019, April - B-Vitamin and Choline Supplementation Changes the Ischemic Brain Figure 1. The impact of supplemental diet (SD) after ischemic damage on brain-derived neurotrophic factor (BDNF). Representative images of brain tissue stained with BDNF (red) and DAPI (blue) at the damage site from CD (A) and SD (B) mice. Quantification of BDNF and DAPI positive cells within the damage site (C). * indicates a p < 0.05. All pictures at 400X magnification, scale bar = 50 µm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1553721197216-95GDDL7S6WE4ZL3FYTDA/image-asset.png 2019, April - B-Vitamin and Choline Supplementation Changes the Ischemic Brain Figure 2. The impact of supplemental diet (SD) after ischemic damage on growth differential factor (GDF-8/110). Representative images of brain tissue stained with GDF-8/11 (red) and neuronal nuclei (NeuN; green) at the damage site from CD (A) and SD (B) mice. Quantification of GDF-8/11 and NeuN positive cells within the damage site (C). All pictures at 400X magnification, scale bar = 50 µm. https://www.jyi.org/2019-april/2019/4/1/press-release-the-role-of-b-vitamins-in-post-stroke-recovery monthly 0.5 2022-03-24 https://www.jyi.org/2019-april/category/Features monthly 0.5 https://www.jyi.org/2019-april/category/Research monthly 0.5 https://www.jyi.org/2019-april/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-march daily 0.75 2019-02-28 https://www.jyi.org/2019-march/2019/3/1/the-implication-of-the-corticotropin-releasing-factor-in-nicotine-dependence-and-significance-for-pharmacotherapy-in-smoking-cessation monthly 0.5 2019-04-26 https://www.jyi.org/2019-march/2019/2/27/txze8e505d5w9yfoonhqhasf375uee monthly 0.5 2022-03-14 https://www.jyi.org/2019-march/2019/2/27/fgx8mllu50ztkngfx9hb959xz4pj1x monthly 0.5 2019-03-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1551295870846-LW0YDSGJBMBDMI0L9LLH/image-asset.png 2019, March - Insight into the Life of a Vascular Surgeon https://www.jyi.org/2019-march/2019/3/1/routes-of-regeneration-from-axolotls-to-a-human-heart monthly 0.5 2019-03-04 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1551370281771-5Q6M9A0TJCBHQ4ZR7OMV/image-asset.png 2019, March - Routes of Regeneration: from Axolotls to a Human Heart https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1551370298434-WMT1WH4BVUDA0K5QBJTL/image-asset.png 2019, March - Routes of Regeneration: from Axolotls to a Human Heart https://www.jyi.org/2019-march/2019/3/1/a-chilly-change-in-perspective-on-arctic-algae-blooms monthly 0.5 2019-03-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1551371498216-T5IHK7EH0B0WUYKSBC43/image-asset.png 2019, March - A Chilly Change in Perspective on Arctic Algae Blooms https://www.jyi.org/2019-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2019-march/category/Careers monthly 0.5 https://www.jyi.org/2019-march/category/Press+Release monthly 0.5 https://www.jyi.org/2019-march/category/Features monthly 0.5 https://www.jyi.org/2019-march/category/Research monthly 0.5 https://www.jyi.org/2019-march/category/Press+Releases monthly 0.5 https://www.jyi.org/2019-febuary daily 0.75 2019-02-01 https://www.jyi.org/2019-febuary/2019/2/1/artificial-cells-creating-life-from-scratch monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1549035752793-EUXNGR3SE3URPZ4LMCH7/image-asset.png 2019, Febuary - Artificial Cells: Creating Life from Scratch? https://www.jyi.org/2019-febuary/2019/2/1/convergence-in-mixed-effects-logistic-regression-models monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548796563227-35X99783DFGX2ZLU682V/Screen+Shot+2019-01-29+at+3.14.57+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 1. Display of the hypothetical dataset of litter size 12 consisting of 4 pups. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548796676314-V30J818SAFFV19F98H10/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 1 (continued). Display of the hypothetical dataset of litter size 12 consisting of 4 pups each appears. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548796744060-YUA5VIHF92Q3UKJ4LLMA/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 2A. Model summary results for females in the AZT tumors example dataset. The significant values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. * No values produced as optimization could not be completed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548796790920-WRMNJOB8QCGFDRYHBO3M/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 2B. Model summary results for males in the AZT tumors example dataset. The significant values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. * No values produced as optimization could not be completed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548796844515-PELOXG17VS285BJQW616/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 3A. Display of the model summary results for females with the dam of the identifier for the AZT tumors dataset. The significant p-values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548796971554-0Y4FW18DW42C4X3Q6YQT/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 3B. Display of the model summary results for males with the dam of the identifier for the AZT tumors dataset. The significant p-values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797020950-KNDGDHFCR751JMT0J8L8/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 3C. Display of the model summary results for females with the sire of the identifier for the AZT tumors dataset. The significant p-values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797065916-G35U8Y8Q34OTSSHO98S0/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 3D. Display of the model summary results for males with the sire of the identifier for the AZT tumors dataset. The significant p-values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797143258-CWV23VASFXAMB1I7QFRF/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 4. Display of the summary model results of the organ weight dataset. The significant p-values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797203897-0FZJQ13HYVYA5Y3ZIEOH/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 5. Display of the differences of least squares means results from the organ weight data. The significant p-values are highlighted in yellow. Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797265288-VPDEJQH4OW60958PTXNF/Screen+Shot+2019-01-29+at+3.27.14+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Figures 1A-D. Means with standard error bars as a function of dose, for each of the three significant organs. A) Dorsal prostate weight for males in age group 2.B) Paired seminal vesicles weight for males in age group 2. C) Terminal body weight for males in age group 1. D) Terminal body weight for males in age group 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797670417-9AW7HQUMQLIE6XK61NLA/Screen+Shot+2019-01-29+at+3.29.42+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 6. Display of the hypothetical dataset format. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797769159-RLVUZDUOQPM3C7C3IQ5F/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 6 (continued). Display of the hypothetical dataset format. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797807545-6QEVI520LVDE9YI4YMQH/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 6 (continued). Display of the hypothetical dataset format. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797860415-RLVKWKF2AS90YTXJJVXJ/Screen+Shot+2019-01-29+at+3.30.10+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 6 (continued). Display of the hypothetical dataset format. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548797972270-6EXY7YJM9WNGLBTSV3ZA/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 7. Display of the model summary results for the hypothetical datasets. The significant p-values are highlighted in yellow. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798015719-205GIHTSUTC1NM281OJF/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 7 (continued). Display of the model summary results for the hypothetical datasets. The significant p-values are highlighted in yellow. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798049313-PAO0LEP7KIB6E4WHVHHG/Screen+Shot+2019-01-29+at+3.38.42+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 7 (continued). Display of the model summary results for the hypothetical datasets. The significant p-values are highlighted in yellow. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798079690-9RHJRZQQIHWKC2HA000E/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 7 (continued). Display of the model summary results for the hypothetical datasets. The significant p-values are highlighted in yellow. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798123037-0LYECYQ82DBX3EPDSTV0/Screen+Shot+2019-01-29+at+3.38.59+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 7 (continued). Display of the model summary results for the hypothetical datasets. The significant p-values are highlighted in yellow. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798181644-792GRUVUYV0UFQHLF83I/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 7 (continued). Display of the model summary results for the hypothetical datasets. The significant p-values are highlighted in yellow. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798238313-AEWJ4IZAALRY37VF09T3/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 8A. Display of the results from the mixed effects logistic regression modeling of the hypothetical dataset with 25% of the pups being affected per group. Litter size is 48 with 6 pups per litter. The significant p-values are highlighted in yellow. b0 is the intercept; Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798271979-NT4SDLR3TMYRK8CEDN88/image-asset.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Table 8B. Display of the results from the mixed effects logistic regression modeling of the hypothetical dataset with 25% of the pups being affected per group. Litter size is 48 with 6 pups per litter. The significant p-values are highlighted in yellow. b0 is the intercept; Pr > | t | is the probability that a greater absolute value of t, under the null hypothesis, is observed. s2u refers to the variance of the random effect u. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548798938407-MFZNPCDQQGA51YBX89RV/Screen+Shot+2019-01-29+at+3.54.58+PM.png 2019, Febuary - Convergence in Mixed Effects Logistic Regression Models Figure 2. The relationships between the control and the treatment groups and their littermate correlation p-value. A) Results from the mixed effects logistic regression modeling of the hypothetical dataset with 50% of the pups being affected per group with 4 pups per litter. B) Results from the mixed effects logistic regression modeling of the hypothetical dataset with 25% of the pups being affected per group with 6 pups per litter. https://www.jyi.org/2019-febuary/2019/2/1/b8u3yjblvsywcu7sdy7orw4tctxs2g monthly 0.5 2019-04-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690166024-YBJ903KYMPY1KVQL1FZ4/Screen+Shot+2019-01-28+at+9.41.41+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 1. Eight images showcasing the variety of ISIC16 dataset. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690245865-AVAQNZ9CWK29R8MGPM8B/Screen+Shot+2019-01-28+at+9.43.28+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 2. An example of an original color image of a lesion from ISIC 16 dataset (A) and its grayscale version used by the algorithm after pre-processing with ground truth segmentation outline in blue (B). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690288662-BB62R4FESSYDDUSYYM3W/Screen+Shot+2019-01-24+at+3.46.24+PM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 3. Automated Segmentation Algorithm flowchart. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690348025-H31XCYLBHY3XF3UMSLM4/Screen+Shot+2019-01-28+at+9.45.30+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 4. Original image (A) and pre-processed image (B) from ISIC16 dataset (index 65). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690404002-7EZ4OE82M0EZQWWS5ZS5/Screen+Shot+2019-01-28+at+9.46.31+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 5. Original image (A) and color thresholded image (B) from ISIC16 dataset (index 24). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690615243-K0BH0EU8XYGCRA1BVGKQ/Screen+Shot+2019-01-28+at+9.50.04+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 6. An example of original (A), color thresholded (B), and selected connected-component (C) images, ISIC16 (index 440). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690463174-5CGPDT97BFURA52IVACH/Screen+Shot+2019-01-28+at+9.47.32+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Table 1. Segmentation of performance measures and how they are calculated. TP = True positive, the number of pixels correctly labeled as foreground (value = 1). TN = True negative, the number of pixels correctly labeled as background (value = 0). FP = False positive, the number of pixels wrongly labeled as foreground. FN = False negative, the number of pixels wrongly labeled as background. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690705168-XYAACKNK37W7W1PURVP9/image-asset.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 7. Dice Coefficient boxplot demonstrating how the proposed algorithm outperforms baseline methods. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690507481-97NCGE4YJDP17VOH14CU/Screen+Shot+2019-01-28+at+9.48.10+AM.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Table 2. Median performance metrics for proposed algorithm and baseline methods of segmentation on testing data set. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548690760936-6EE68OE8CPHA5F9BCYWR/image-asset.png 2019, Febuary - Fully Automated GrowCut-based Segmentation of Melanoma in Dermoscopic Images Figure 8. Example of a case where the algorithm fails due to presence of two lesions in an image. Original image (A) with an overlaid segmentation contour (B), and ground truth segmentation contour (C) in blue, ISIC16 training dataset (index 285). https://www.jyi.org/2019-febuary/2019/1/7/researching-complex-carbohydrates-interview-with-dr-alan-darvill monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1548788700898-YTOFDTGWDKLKBJF4TIHJ/image-asset.jpeg 2019, Febuary - Researching Complex Carbohydrates: Interview with Dr. Alan Darvill https://www.jyi.org/2019-febuary/category/Science+Careers monthly 0.5 https://www.jyi.org/2019-febuary/category/Features monthly 0.5 https://www.jyi.org/2019-febuary/category/Research monthly 0.5 https://www.jyi.org/2019-january daily 0.75 2019-01-01 https://www.jyi.org/2019-january/2019/1/1/developments-in-spine-therapy-helping-paralyzed-patients-walk-again monthly 0.5 2019-11-29 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546371968146-ZTO1R9BVTQ24JCJ7KHYA/Screen+Shot+2019-01-01+at+1.45.34+PM.png 2019, January - Developments in Spine Therapy Helping Paralyzed Patients Walk Again https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546372005186-G7YFSMMT35F28W210987/edited.jpg 2019, January - Developments in Spine Therapy Helping Paralyzed Patients Walk Again https://www.jyi.org/2019-january/2019/1/1/press-release-flavonoids-as-a-potential-treatment-for-cancer monthly 0.5 2022-03-14 https://www.jyi.org/2019-january/2019/1/1/comparative-study-on-the-status-of-glycation-precursors-advanced-glycation-end-products-and-cell-viability-under-effects-of-kaempferol-myricetin-and-azaleatin-in-hgc-27-cell-line monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546369366203-6K6D3MWJAQQO1O7F3IIJ/image-asset.png 2019, January - Comparative Study on the Status of Glycation Precursors, Advanced Glycation End Products, and Cell Viability Under Effects of Kaempferol, Myricetin, and Azaleatin in HGC-27 Cell Line Figure 1. The effect of cell treatment with three different compounds on cell viability as evaluated by MTT assay. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546369443359-OPPDN678N6E658Y64NBO/image-asset.png 2019, January - Comparative Study on the Status of Glycation Precursors, Advanced Glycation End Products, and Cell Viability Under Effects of Kaempferol, Myricetin, and Azaleatin in HGC-27 Cell Line Figure 2. The effect of cell treatment with different concentrations of three compounds on pentosidine concentration after 24 hr incubation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546369566919-DC5ONMN2SF6D0HAPDI2T/image-asset.png 2019, January - Comparative Study on the Status of Glycation Precursors, Advanced Glycation End Products, and Cell Viability Under Effects of Kaempferol, Myricetin, and Azaleatin in HGC-27 Cell Line Figure 3. The effect of cell treatment with different concentrations of three compounds on 3-deoxyglucosone after 24 hr incubation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546369639314-4NUVCI7CXH93QK8M12TG/image-asset.png 2019, January - Comparative Study on the Status of Glycation Precursors, Advanced Glycation End Products, and Cell Viability Under Effects of Kaempferol, Myricetin, and Azaleatin in HGC-27 Cell Line https://www.jyi.org/2019-january/2019/1/1/effect-of-ph-on-the-kinetics-of-alanine-racemase-from-mycobacterium-tuberculosis monthly 0.5 2019-02-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546367086463-T211PL3HQGA62GJGUXB2/Screen+Shot+2019-01-01+at+12.08.38+PM.png 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546366056356-ZNC1FQZT42W4LPVHF65V/Fig1.jpg 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis Figure 1. Recombinant pET28B-MT_Alr plasmid map. MT_Alr gene indicated by arrow. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546366241618-V4HJ6Q3GEUCKZMI5GRB2/image-asset.jpeg 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis Figure 2. SDS-PAGE for purified MT_Alr. Molecular weight standard (left). Purified MT_Alr (indicated by arrow). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546366923888-UIF5L8ERX46XSRYCBLSQ/image-asset.jpeg 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis Figure 3. Isomerization of D-alanine to L-alanine in the presence of Alr followed by the NAD+ dependent oxidation of L-alanine to pyruvate in the presence of alanine dehydrogenase. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546367022727-5Q4KBO2BEE3BZ8NNFITD/Screen+Shot+2019-01-01+at+12.23.26+PM.png 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546367192980-MY7LZ4BTV2YN19B7PLLS/image-asset.jpeg 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis Figure 4. The mechanism of Alr catalysis for D-alanine to L-alanine direction. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1546367243485-FLEE5OJ095GJD745BJ82/image-asset.jpeg 2019, January - Effect of pH on the Kinetics of Alanine Racemase from Mycobacterium tuberculosis Figure 5. Plot of the catalytic efficiency k_cat/K_m for the reaction of MT_Alr with D-alanine. The line represents the best fits of the data using nonlinear regression curve fitting. https://www.jyi.org/2019-january/category/Features monthly 0.5 https://www.jyi.org/2019-january/category/Research monthly 0.5 https://www.jyi.org/2019-january/category/Press+Releases monthly 0.5 https://www.jyi.org/summer-research-programs-1 daily 0.75 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-4cnmf monthly 0.5 2019-12-01 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-mtmes monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-e39we monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-79df2 monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-nb9ce monthly 0.5 2019-12-21 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-tanp8 monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/template-dmmmj monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/columbia-university-dept-biological-sciences-summer-undergraduate-research-fellowshipamgen-scholarship-columbia-usa monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/summer-internship-program-in-biomedical-research-national-institutes-of-health-us monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/30/university-of-michigan-big-data-summer-institute-in-biostatistics monthly 0.5 2019-11-30 https://www.jyi.org/summer-research-programs-1/2019/11/15/submit-information-for-your-undergraduate-program monthly 0.5 2019-11-15 https://www.jyi.org/summer-research-programs-1/2019/11/15/summer-program-in-cancer-research-university-of-texas-md-anderson-cancer-center monthly 0.5 2019-11-15 https://www.jyi.org/summer-research-programs-1/2019/10/14/summer-placements-unilever-uk monthly 0.5 2019-10-14 https://www.jyi.org/summer-research-programs-1/2019/10/14/summer-placements-wellcome-sanger-institute-in-cambridge-uk monthly 0.5 2019-10-14 https://www.jyi.org/summer-research-programs-1/2019/7/4/summer-lab-science-program-mayo-clinic-in-rochester-mn monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2019/7/4/mayo-clinic-summer-undergraduate-research-fellowship-surf monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/crick-calleva-summer-student-programme monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/summer-programs-at-the-national-institutes-of-health monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/vienna-biocentre-summer-school monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/university-of-michigan-big-data-summer-institute monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/unilever monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/sanger-institute monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/john-innes-summer-placements monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/2018/12/28/nuffield-placement-scheme monthly 0.5 2019-07-11 https://www.jyi.org/summer-research-programs-1/category/Medicine monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Chemistry monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Neuroscience monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Psychology monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Computer+Science monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Biology monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Mathematics monthly 0.5 https://www.jyi.org/summer-research-programs-1/category/Physics monthly 0.5 https://www.jyi.org/jyi-webinars daily 0.75 2025-06-18 https://www.jyi.org/jyi-webinars/2019/8/16/anouncing-the-jyi-webinar-series monthly 0.5 2019-08-16 https://www.jyi.org/jyi-webinars/2019/8/16/54rv38ydw54fkoxulnv2er9v8d4nec monthly 0.5 2019-08-25 https://www.jyi.org/2020-january daily 0.75 2019-12-28 https://www.jyi.org/2020-january/2020/1/1/effects-of-bait-type-and-conspecific-attraction-in-diamondback-terrapin-malaclemys-terrapin-bycatch monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1577563644655-AQTDIA1P9RLCIQE3DBIE/Screen%2BShot%2B2019-12-28%2Bat%2B2.05.59%2BPM.jpg 2020, January - Effects of Bait Type and Conspecific Attraction in Diamondback Terrapin (Malaclemys terrapin) Bycatch Figure 1. Terrapin entries and escapes (A) increased with time (and trial number as a proxy measure of time) whereas investigations per entry and entries following a conspecific (B) did not. Linear trend lines are presented in (A) with the solid line indicating entries and dotted line indicating escapes. Trial number indicates the order of the treatments which were as follows: (1) control, (2) two female conspecifics, (3) one male conspecific, (4) fish bait, (5) chicken bait, (6) one female conspecific, (7) two male conspecifics, (8) shrimp bait, (9) one male and one female conspecific, and (10) control. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1577563447698-JCAN3U71Z2EM9AMDRQW4/Screen%2BShot%2B2019-12-28%2Bat%2B2.01.59%2BPM.jpg 2020, January - Effects of Bait Type and Conspecific Attraction in Diamondback Terrapin (Malaclemys terrapin) Bycatch Figure 2. Treatment affected residuals of the relationship between time and terrapin entry into crab pots (A) and the number of investigations per entry (B). Residuals are presented in (A) because they were correlated with trial number, or time. For conspecific treatments, numbers represent the number of individuals placed into the traps and “F” or “M” represent the sex of these individuals. Error bars represent one standard error. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1577563501000-GTIEE6U53QF9FAQ0O3IL/Screen+Shot+2019-12-28+at+2.04.28+PM.png 2020, January - Effects of Bait Type and Conspecific Attraction in Diamondback Terrapin (Malaclemys terrapin) Bycatch https://www.jyi.org/2020-january/2020/1/1/nanoparticles-the-future-of-drug-delivery monthly 0.5 2022-05-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1577565843843-VJ9966YP52FPVDBMRGZY/Nanoparticle_diagram.jpg 2020, January - Nanoparticles: the Future of Drug Delivery Nanoparticle diagram attributed to W. Long, Y. Yi, S. Chen, Q. Cao, W. Zhao and Q. Liu [CC BY 4.0]. https://www.jyi.org/2020-january/2020/1/1/how-dr-carolyn-mutter-and-her-colleagues-help-feed-the-world monthly 0.5 2020-01-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1577565301312-8CFKMUQVR2D2MRXYTIO0/Mutter_CF.png 2020, January - How Dr. Carolyn Mutter and Her Colleagues Help Feed the World Photo courtesy of Carolyn Mutter https://www.jyi.org/2020-january/2020/1/1/press-release-minimizing-diamondback-terrapin-bycatch-rates monthly 0.5 2022-09-07 https://www.jyi.org/2020-january/category/Science+Careers monthly 0.5 https://www.jyi.org/2020-january/category/News+Feature monthly 0.5 https://www.jyi.org/2020-january/category/Press+Release monthly 0.5 https://www.jyi.org/2020-january/category/Research monthly 0.5 https://www.jyi.org/2020-january/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-february daily 0.75 2020-01-29 https://www.jyi.org/2020-february/2020/2/1/the-significance-of-environmental-health-an-interview-with-maggie-li-phd-student monthly 0.5 2020-02-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580074362034-J40E1FQOGCTEOQWA345F/Maggie_Li_CF.png 2020, February - The Significance of Environmental Health: An interview with Maggie Li, PhD Student Photo courtesy of Maggie Li. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580074431505-M3B9L6H2T40LZABBLNBA/Maggie_Li_Tips.jpg 2020, February - The Significance of Environmental Health: An interview with Maggie Li, PhD Student Infographic attributed to Syed Muneeb Ali. https://www.jyi.org/2020-february/2020/2/1/engineering-a-cell-penetrating-anti-her2-monoclonal-antibody-for-efficient-delivery-of-gold-nanoparticles-into-cancer-cells-to-enhance-x-ray-cancer-radiation-therapy monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580075781971-9JSCO9L2X639QISOIFEK/image-asset.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 1. Structure of engineered penetratin-antibody fusion proteins. The structure of the two recombinant mAb-CPP fusion proteins is illustrated in Figure 1A and Figure 1B. Figure 1A. Two copies of penetratin (16 amino acids) were fused on the C-terminus of the anti-HER2 mAb heavy chain. Thus, the mAb-2CPP carries two copies of penetratin sequence. Figure 1B. Two copies of penetratin were fused to the N-terminus and C-terminus of anti-HER2 mAb heavy chain, respectively. Hence, the mAb-4CPP carries four copies of penetratin sequence. The diagrams were adapted from the immunoglobulin structure. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580075924737-P7QJSC3AMZW2LRRGCJ36/Screen+Shot+2020-01-26+at+3.58.09+PM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 2. Flow cytometry analysis to compare the binding of wild-type and the recombinant antibodies to MCF7 and PC3 cells expressing HER2 receptor. Flow cytometry method was used to measure the binding of wild type and two recombinant antibodies, mAb-2CPP and mAb-4CPP, to MCF7, PC3, and CHO cells is measured below. Figure 2A. MCF-7, PC3, and CHO cells were stained by wild-type antibody. The wild-type antibody bound to MCF7 and PC3 cells, with the binding to PC3 cells was lower than that to MCF-7 cells. However, the wild-type antibody did not bind to CHO cells. Figure 2B. MCF-7, PC3, and CHO cells were stained by mAb-2CPP. The mAb-2CPP bound MCF7 and PC3 cells, with the binding to PC3 cells lower than that to MCF-7 cells. However, mAb-2CPP did not bind to CHO cells. Figure 2C. MCF-7 and PC3 cells were stained by mAb-4CPP. The binding of mAB-4CPP to HER2 receptor on both MCF-7 or PC3 cells was significantly impaired. Figure 2D. The binding activity in flow cytometry analysis was represented by a median assay signal. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580076220004-8GKZ4ZGOSV7DS2QD44R8/image-asset.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 3. Confocal microscope imaging to monitor the internalization of wild-type and mAb-2CPP antibodies into PC3 and CHO cells. Confocal microscope was used to visualize the internalization of antibodies into PC3 expressing HER2 receptor and CHO cells that do not express HER2 receptor and serve as a negative control. The images were taken three hours after treating cells with antibodies. The green dots indicate internalized antibody inside cells. Figure 3A. The PC3 cells were treated with mAb-2CPP. Based on imaging, mAb-2CPP were internalized at a high level three hours after treatment. Figure 3B. The CHO cells treated with mAb-2CPP antibody showed a clean background since they do not express HER2 receptor. Figure 3C. The PC3 cells treated with wild-type antibody demonstrated a low level of internalization. Figure 3D. The CHO cells treated with wild-type antibody showed a clean background since they do not express HER2 receptor. then removed and replaced by fresh medium. Cells were then imaged under a fluorescent microscope to monitor the internalization of Alexa fluor 488 labeled antibodies at different time points (Fig. 3). MAb-2CPP was internalized as early as 3 hours after treatment, a much higher level than the wild-type antibody. (Fig. 3A, Fig. 3C). However, CHO cells showed a clean background since they do not express HER2 receptor (Fig. 3B, Fig. 3D). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580076401634-LK3C0S51CVO8JPZFHIMI/Screen+Shot+2020-01-26+at+4.06.13+PM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 4. The growth kinetic curves for MCF-7 and PC3 cells. The CellTiter-Glo® viability assay was performed on Day 1 (48 hours after cell seeding) and Day 3 (72 hours after cell seeding) for both MCF-7 and PC3 cells. The chemiluminescent assay signal at each time point (Day 1 or Day 3) was plotted against the number of cells initially seeded to generate the cell growth kinetic curves. Figure 4A. The MCF-7 cells were seeded at 2000 cells/well so that the assay signal would fall in the mid-point of the linear range of detection in both Day 1 and Day 3. Figure 4B. The PC3 cells would be seeded at 3000 cells/well so that the assay signal would fall in mid-point of the linear range of detection. The luminescent signal generated during the assay was measured by the luminometer and recorded in relative light units (RLU). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580172206130-QQ0FDBG16CENJ0F3QI05/Screen+Shot+2020-01-27+at+6.43.05+PM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580222651587-XYNRCZZO7HJ0TG0LWC53/Screen+Shot+2020-01-28+at+8.43.41+AM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 5. The dose-response curves of X-ray radiation. The dose-response curves were generated by plotting %Mortality against the corresponding dose of X-ray radiation in Day 1 or Day 3. The results showed that 10 Gray and 250 Gray generated approximately 20% and 50% cell mortality respectively on Day 1 and Day 3 and would be the selected doses for X-ray radiation treatment. Figure 5A. Day 1 dose-response of MCF7 and PC3 cell viability to X-ray radiation. Figure 5B. Day 3 dose-response of MCF7 and PC3 cell viability to X-ray radiation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580311909316-QCSXK7GT69FKR2BKUWH1/Screen+Shot+2020-01-29+at+9.26.11+AM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580311972543-WJM62IHT5U7Y1P2TG0NK/Screen+Shot+2020-01-29+at+9.26.28+AM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580312016105-FIMHPXSXWV0H2QRKS64F/image-asset.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 6. Schematic diagram illustrating increased cell mortality rate after treatment by mAb-2CPP-GNP complexes. The mortality rate was compared between cells treated by the WT-mAb-GNPs or mAb-2CPP-GNPs. The % Increase was computed using the formula: %Increase = [(Mortality Rate_mAb-2CPP-GNP/Mortality Rate_mAb-GNP)-1] x 100%. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580312233197-3HYXYR0TVVG2O1SWFO1P/image-asset.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580312324268-KNGFEJHIMG569D0COWDB/Screen+Shot+2020-01-29+at+9.38.22+AM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy Figure 7. Schematic diagram illustrating the dose-dependent increase of cell mortality rate in response to antibody-GNP treatment and X-ray radiation. Figure 7A. Dose-dependent increase of cell mortality rate 24 hours (Day 1) after X-ray radiation exposure. Figure 7B. Dose-dependent increase of cell mortality rate 72 hours (Day 3) after X-ray radiation exposure. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580173025437-LZVMMZ1SBX1510ZXMX8D/Screen+Shot+2020-01-27+at+6.56.42+PM.png 2020, February - Engineering a Cell-Penetrating Anti-HER2 Monoclonal Antibody for Efficient Delivery of Gold Nanoparticles into Cancer Cells To Enhance X-Ray Cancer Radiation Therapy https://www.jyi.org/2020-february/2020/2/1/novel-technology-to-read-neuronal-cells-and-stimulate-them-to-alter-thoughts monthly 0.5 2020-02-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1580330139516-1GI6X148HB5RBYQ3C42K/MindReading.png 2020, February - Novel Technology to Read Neuronal Cells and Stimulate Them to Alter Thoughts https://www.jyi.org/2020-february/category/Science+Careers monthly 0.5 https://www.jyi.org/2020-february/category/News+Feature monthly 0.5 https://www.jyi.org/2020-february/category/Research monthly 0.5 https://www.jyi.org/2020-march daily 0.75 2020-02-28 https://www.jyi.org/2020-march/2020/3/1/the-work-of-an-experimental-physicist-at-atlas-an-interview-with-dr-evelyn-thomson monthly 0.5 2020-03-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1582741100232-UCW6N9K9PEQK7EQVHAVR/image-asset.jpeg 2020, March - The Work of an Experimental Physicist at ATLAS: An Interview with Dr. Evelyn Thomson Photo courtesy of Evelyn Thomson. https://www.jyi.org/2020-march/2020/3/1/optimal-targeting-of-a-tumor-through-proton-beam-therapy monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583018936655-AGIQ6CYYO0CD828KPQ65/Screen%2BShot%2B2020-02-29%2Bat%2B5.27.29%2BPM.jpg 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583019873393-LA7DEMFVSU4KTNA0Y9GV/Screen+Shot+2020-02-29+at+5.43.39+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583019908005-71SFTS2O1CC30HEFFJBZ/Screen+Shot+2020-02-29+at+5.44.50+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583020181600-AIDAB7RZ3PQXQXHEIX08/Screen+Shot+2020-02-29+at+5.49.25+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583020324556-NPQ6L2B02YXE2L5OGRT1/Screen%2BShot%2B2020-02-29%2Bat%2B5.50.55%2BPM.jpg 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583021105157-W3O96JYPB53A1CDKMXA7/Screen+Shot+2020-02-29+at+6.04.48+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583258757188-0JWLY1QUOOR0VRQY0D7L/Screen+Shot+2020-02-29+at+6.05.33+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583022674970-9ZE9QHR6N4EZ5EAPW9AR/image-asset.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy Figure 1. Simulated Bragg curves (energy loss rate as a function of depth) of 150 MeV, 200 MeV, and 250 MeV protons shown in blue, green, and red, respectively. Figure (a) shows the Bragg curves on a log scale axis, and Figure (b) shows the Bragg curves on a standard axis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583022732143-CXJ3J1J1GQ1B2T0V53JJ/fig2.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy Figure 2. Objective function for a range of proton beam energies and widths in terms of the standard deviation of a Gaussian, s. The initial beam energy ranges from 80 MeV to 100 MeV with a step size of 2 MeV. The target tumor has a radius, r, of 2 cm with a distance from the surface to the midpoint of the tumor, d, of 6 cm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583258647463-QSE1XMMCB8SDTHVUWFKC/Screen+Shot+2020-03-03+at+12.03.43+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583022840723-JMG3B8U89BDYIK5VG1JB/image-asset.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy Figure 3. (a) Top-down view and (b) perspective view of a simulated proton beam optimally entering the system. In these figures, yellow represents maximal energy deposition. A circular tumor is simulated and is shown as a dark, shaded region on the plots above. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1583258948160-OU5EWV9ZM58AQHL0CYTZ/fig4+12.08.24+PM.png 2020, March - Optimal Targeting of a Tumor through Proton Beam Therapy Figure 4. Energy dispersion of a proton beam in three dimensions. The target is here shown as a gray wireframe; the colorized surface contains 80% of the energy deposited at a given depth (x coordinate), with the total energy at that depth represented by surface color. https://www.jyi.org/2020-march/2020/3/1/breakthrough-drug-is-a-breath-of-fresh-air-for-cystic-fibrosis-patients monthly 0.5 2020-03-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1582923126237-UM42W3WXOVW3DIU6NUIV/Screen+Shot+2020-02-28+at+2.45.25+PM.png 2020, March - Breakthrough Drug is a Breath of Fresh Air for Cystic Fibrosis Patients Infographic describing different designations for expedited drug review, adapted from the U.S. Food and Drug Administration. https://www.jyi.org/2020-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2020-march/category/News+Feature monthly 0.5 https://www.jyi.org/2020-march/category/Research monthly 0.5 https://www.jyi.org/2020-april daily 0.75 2020-04-05 https://www.jyi.org/2020-april/2020/4/5/epigenetics-misregulation-and-obesity-or-epigenetics-another-important-piece-in-the-obesity-puzzle monthly 0.5 2020-04-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1586112626490-XK4BA9EVBI4Z51RFCL2H/Photo_by_Siora_Photography_on_Unsplash.jpg 2020, April - Epigenetics Misregulation and Obesity or Epigenetics: Another Important Piece in the Obesity Puzzle Photo by Siora Photography on Unsplash https://www.jyi.org/2020-april/2020/4/3/press-release-the-role-of-dna-mismatch-repair-genes-in-chemotherapy-resistance monthly 0.5 2020-04-05 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1586111026138-1TEKW10THFL88SDZVOH6/Acute_lymphoblastic_leukaemia_smear.jpg 2020, April - Press Release: The Role of DNA Mismatch Repair Genes in Chemotherapy Resistance Image by: James Grellier - derivative of original work by VashiDonsk at en.wikipedia / CC BY-SA (https://creativecommons.org/licenses/by-sa/3.0) https://www.jyi.org/2020-april/2020/4/1/analysis-of-expression-of-msh2-and-msh3-genes-in-mixed-lineage-leukemia-mll-acute-lymphoblastic-leukemia-all-human-cell-lines monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585519891534-PFRUO4RKTDKKCOE90TWD/Screen+Shot+2020-03-29+at+5.08.28+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 1. A bar chart to show the most common cancers by gender in UK: 2015. Leukemia is the 12th common cancer and makes up 9900 new cases in the year of 2015, in UK (adapted from Cancer Research, 2018). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585519979009-1EYJRCZ3VQABJ1RQEJR3/Screen+Shot+2020-03-29+at+5.12.39+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 2. MLL partner genes. The N-terminal portion of MLL fuses with C-terminal portion of the partner gene. MLL-AF4 and MLL-ENL fusion genes belong to MLL-ALL (adapted from Zheng, 2013). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585520080710-QBKEEXNK7HMC6COMCND4/Screen+Shot+2020-03-29+at+5.14.37+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 3. MMR genes and their role in MMR pathway. The Mutsα recognizes single base mismatches and small IDLs (A and B). Mutsαβ recognizes larger IDLs (C) (adapted from Martin et al., 2010). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585797825829-0BCDQS8383YB41O8OZED/Screen%2BShot%2B2020-03-29%2Bat%2B5.16.12%2BPM.jpg 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 4. MMR genes, heterodimer complexes and their role in MMR pathway. MSH2 and its partner (MSH6/MSH3) recognizes DNA mismatch (A). Recruitment of MLH1 and its partner PMS2 and other cofactors (PCNA) and enzymes (EXO1) conduct excision, resynthesis and ligation of the repaired DNA strand (B & C) (Wei et al., 2002). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585520246146-49IB0B76TGDATTPTCVPI/Screen+Shot+2020-03-29+at+5.17.15+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 5. Action mechanism of Analog Triphosphate (Ara-C). Ara-C, inhibits DNA strand synthesis by binding onto incorporating DNA chain- leading to cell death signalling (adapted from Ewald et al., 2008). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585521537916-1TSRXS3E3KD4G9I3O9EY/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585521552403-2B600UISE4J48BLQJY3A/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585521600055-ZG73QM3FO0VZ92FOP9XD/Screen+Shot+2020-03-29+at+5.05.28+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585602470004-J77JG6CRSFEHK59IF33J/Screen+Shot+2020-03-30+at+4.07.03+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585520468277-QGXEB4F7DRDXV3JW04P5/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585522324728-69JD7VTSQ2NOSS1XSR9C/Screen+Shot+2020-03-29+at+5.45.47+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585522345616-Y0AJUMGH3SSUY6038J95/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585522372726-UULES1UEKEU9AZWVAJKH/Screen+Shot+2020-03-29+at+5.51.42+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585797746300-A92713YKW09MV4GT0VHG/Screen%252BShot%252B2020-03-29%252Bat%252B5.06.45%252BPM.jpg 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585521070393-AOWWR000CR1RBBRHVDAU/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585520839199-UF21DV746EWP2A7QT0L4/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 6. Summary of the whole method and the purpose behind each step. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585680555478-IVPSMEME3L1S8F3Q0NAC/Screen+Shot+2020-03-31+at+1.48.06+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585680555725-9RGI2KZ77W8D8F1FEMDP/Screen+Shot+2020-03-31+at+1.48.21+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585680799855-DCG8158G3NGO045L3QQX/Screen+Shot+2020-03-31+at+1.52.36+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585680800047-QY184YUQOJ4XEVYN10MO/Screen+Shot+2020-03-31+at+1.52.49+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585523738638-G5L6B07IIPR8GIII3C62/image-asset.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines Figure 11. Gel electrophoresis results. Based on the semi-quantitative PCR results of GAPDH, MSH2 and MSH3 at 28 cycles. Independent replica. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585523964672-PGXE77YI1VUP3B46WNIN/Screen+Shot+2020-03-29+at+6.18.26+PM.png 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1585681051516-EKTXZUF6BV0884K55LC2/Screen%2BShot%2B2020-03-29%2Bat%2B6.19.08%2BPM.jpg 2020, April - Analysis of expression of MSH2 and MSH3 genes in Mixed Lineage Leukemia (MLL)-Acute Lymphoblastic Leukemia (ALL) human cell lines https://www.jyi.org/2020-april/category/News+Feature monthly 0.5 https://www.jyi.org/2020-april/category/Research monthly 0.5 https://www.jyi.org/2020-april/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-may daily 0.75 2020-05-17 https://www.jyi.org/2020-may/2020/5/18/to-breathe-or-not-to-breathe-salmon-parasite-is-the-first-animal-that-does-not-aerobically-respire monthly 0.5 2020-05-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1589741841577-WJ3EVQR1TG2KBIWAA8CA/Tapioca_disease.png 2020, May - To Breathe, or Not to Breathe: Salmon Parasite Is the First Animal That Does Not Aerobically Respire https://www.jyi.org/2020-may/2020/5/1/microrna-a-new-target-for-breast-cancer-research monthly 0.5 2020-05-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1588285205293-4DBW6K41BQOCJMM0OBXW/image-asset.png 2020, May - MicroRNA: A New Target for Breast Cancer Research https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1588285228421-HVM2RERQBNGPF5TT2APS/Picture.png 2020, May - MicroRNA: A New Target for Breast Cancer Research https://www.jyi.org/2020-may/2020/5/1/novel-suspension-yields-top-proof-rover monthly 0.5 2020-05-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1588283331800-KZJ3TZ0EJA31HDYZ8E1X/Picture1.jpg 2020, May - Novel Suspension Yields Top-Proof Rover https://www.jyi.org/2020-may/category/News+Feature monthly 0.5 https://www.jyi.org/2020-may/category/Press+Release monthly 0.5 https://www.jyi.org/2020-may/category/Research monthly 0.5 https://www.jyi.org/2020-may/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-june daily 0.75 2020-05-29 https://www.jyi.org/2020-june/2020/6/1/press-release-study-shows-cats-and-dogs-have-large-ecological-footprint monthly 0.5 2021-03-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590719048307-SGFE9GEYTF674TDM0BWY/Screen+Shot+2020-05-28+at+9.19.46+PM.png 2020, June - Press Release: Study Shows Cats and Dogs Have Large Ecological Footprint https://www.jyi.org/2020-june/2020/6/1/effects-of-cat-and-dog-interactions-on-urban-wildlife-admitted-to-a-wildlife-center-in-wisconsin monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590718454307-60FZFQFGH6TR7X5ON5ND/5618162104_741f9392e5_b.jpg 2020, June - Effects of Cat and Dog Interactions on Urban Wildlife Admitted to a Wildlife Center in Wisconsin "Northern Cardinal on National Zoo Grounds" by Mr.TinDC is licensed under CC BY-ND 2.0 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590717445107-MR39TJZTQ9O0BQGMD9IU/Screen%2BShot%2B2020-05-28%2Bat%2B8.55.05%2BPM.jpg 2020, June - Effects of Cat and Dog Interactions on Urban Wildlife Admitted to a Wildlife Center in Wisconsin https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590717486084-AI3BJJK98LBV733LI3RT/Screen+Shot+2020-05-28+at+8.56.16+PM.png 2020, June - Effects of Cat and Dog Interactions on Urban Wildlife Admitted to a Wildlife Center in Wisconsin https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590717678151-QFDW1ZF4FJX1B6B7O1SV/Screen+Shot+2020-05-28+at+9.00.32+PM.png 2020, June - Effects of Cat and Dog Interactions on Urban Wildlife Admitted to a Wildlife Center in Wisconsin Figure 1. Number of birds and mammals admitted to DCHS Wildlife Center because of a cat or dog interaction in 2014 - 2017. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590717828890-4YAGOUKOS37O2GKE6P36/Screen+Shot+2020-05-28+at+9.02.10+PM.png 2020, June - Effects of Cat and Dog Interactions on Urban Wildlife Admitted to a Wildlife Center in Wisconsin Figure 2. Monthly totals of birds and small mammals admitted to the DCHS wildlife center each year. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1590717915302-XFIZMLI0UQZGBFMEKLLL/Screen%252BShot%252B2020-05-28%252Bat%252B9.02.29%252BPM.jpg 2020, June - Effects of Cat and Dog Interactions on Urban Wildlife Admitted to a Wildlife Center in Wisconsin Figure 3. The number of birds by life stage admitted in 2014-2017 because of a cat or dog interaction per month. https://www.jyi.org/2020-june/category/Research monthly 0.5 https://www.jyi.org/2020-june/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-july daily 0.75 2020-06-30 https://www.jyi.org/2020-july/2020/7/1/an-interview-with-lesley-anson-establishing-yourself-in-the-science-editing-world monthly 0.5 2020-07-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593542654860-WRNQGF6I3AYPFNP12ZBZ/DrLesleyAnson_Crop.jpg 2020, July - An Interview with Lesley Anson: Establishing Yourself in the Science Editing World Photo curtesy of Lesley Anson. https://www.jyi.org/2020-july/2020/7/1/new-drug-lowers-cortisol-in-cushings-disease-patients monthly 0.5 2020-07-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593542009970-EHE7912AW4FNYL7Y8SRP/pills-1885550_1920.jpg 2020, July - New Drug Lowers Cortisol in Cushing’s Disease Patients https://www.jyi.org/2020-july/2020/7/1/finding-probable-frequency-sums-to-reduce-the-key-space-of-homophonic-substitution-ciphers monthly 0.5 2020-07-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593535967562-F0T2GCCESDKO6LS62QGR/Screen+Shot+2020-06-30+at+11.49.54+AM.png 2020, July - Finding Probable Frequency Sums to Reduce the Key Space of Homophonic Substitution Ciphers https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593536140324-UD43HFUFS9FBNOGYQSLT/Screen+Shot+2020-06-30+at+11.55.10+AM.png 2020, July - Finding Probable Frequency Sums to Reduce the Key Space of Homophonic Substitution Ciphers https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593537730045-4DUMGISM9XL40UHNAMQU/959037-figure-1.jpg 2020, July - Finding Probable Frequency Sums to Reduce the Key Space of Homophonic Substitution Ciphers Figure 1. Plaintext Character Frequency Model. The normalised frequencies (number of instances of given character ÷ total number of characters) for English language plaintext characters, based on data from classic English language novels. The means and standard deviations are weighted by the length of their sources. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593537798881-GENYZXR8FA3N3KMS4578/959037-figure-2.jpg 2020, July - Finding Probable Frequency Sums to Reduce the Key Space of Homophonic Substitution Ciphers Figure 2. ‘Dagon’ Plaintext Character Frequency Analysis. The normalised frequencies (number of instances of given character ÷ total number of characters) for the ‘Dagon’ plaintext characters. The expected bounds span two and three times the standard deviation on the expected mean normalised character frequencies from the plaintext character frequency model respectively and are centred on those means. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1593538169008-Q3BR8JTOM480A19ERJO5/959037-figure-3.jpg 2020, July - Finding Probable Frequency Sums to Reduce the Key Space of Homophonic Substitution Ciphers Figure 3. ‘Dagon’ Ciphertext Character Frequency Analyses. The normalised frequencies (number of instances of given character ÷ total number of characters) for the ‘Dagon’ ciphertext characters when encrypted using a. two homophones per plaintext alphabet character, and b. three homophones per plaintext alphabet character. https://www.jyi.org/2020-july/category/Science+Careers monthly 0.5 https://www.jyi.org/2020-july/category/News+Feature monthly 0.5 https://www.jyi.org/2020-july/category/Research monthly 0.5 https://www.jyi.org/2020-august daily 0.75 2020-08-22 https://www.jyi.org/2020-august/2020/8/24/applications-of-deep-learning-in-healthcare monthly 0.5 2020-08-24 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598065611123-LAQ0G6CQ01L8QCEXJ4SY/Deep_Learning.jpg 2020, August - Applications of Deep Learning in Healthcare Background vector created by starline from www.freepik.com. https://www.jyi.org/2020-august/2020/8/1/press-release-mold-meets-maize-understanding-kenyas-2004-aflatoxicosis-outbreak monthly 0.5 2021-06-23 https://www.jyi.org/2020-august/2020/8/1/aflatoxin-and-its-toxic-tragedies-in-kenya monthly 0.5 2020-11-15 https://www.jyi.org/2020-august/2020/8/1/first-genomic-study-of-schizophrenia-in-african-people-reveals-potential-genetic-causes monthly 0.5 2020-08-03 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1596473898091-017BC13LZ9BNCV90KCLP/Genetic_Cause_of_Schizophrenia.png 2020, August - First Genomic Study of Schizophrenia in African People Reveals Potential Genetic Causes https://www.jyi.org/2020-august/category/News+Feature monthly 0.5 https://www.jyi.org/2020-august/category/Research monthly 0.5 https://www.jyi.org/2020-august/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-september daily 0.75 2020-08-30 https://www.jyi.org/2020-september/2020/9/1/cognitive-empathy-its-development-genetic-influence-and-mechanisms-of-control monthly 0.5 2020-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598124565179-HARAQ7MN9G16REB9K326/Cognitive_Empathy_image.png 2020, September - Cognitive Empathy: Its Development, Genetic Influence, and Mechanisms of Control https://www.jyi.org/2020-september/2020/9/1/press-release-a-novel-prosthetic-motor-clutch-from-flexinol monthly 0.5 2020-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598823772823-KBOIV24VS5NJ7XXACCZ1/Screen+Shot+2020-08-30+at+4.42.44+PM.png 2020, September - Press Release: A Novel Prosthetic Motor Clutch from Flexinol Image from Andrew Chan, Jacob Altholz, Matthew Davidson, and Richard Weir (Chan et al., 2020). https://www.jyi.org/2020-september/2020/9/1/a-novel-nickel-titanium-wire-actuated-prosthetic-motor-clutch monthly 0.5 2020-11-15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598823716385-M0QOMZHKZG3GVZMQXTLU/Screen+Shot+2020-08-30+at+4.41.47+PM.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch Figure 1. Clutch calipers placed inside the motor collar and threaded with a single strand of nitinol wire wound around the outside of the calipers and through the open hole in the motor collar. The housing was modified to accommodate the size of the calipers and to allow the wire to exit the housing (to the right of the screw in the figure). The calipers were machined to slip-fit tolerances to fit below the pinion gear. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598646122084-WIHOEZHNWYYSN148KAXE/Screen%2BShot%2B2020-08-28%2Bat%2B3.21.20%2BPM.jpg 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598646457406-FD6PKJCDAQ78VVNYT1MY/Screen%252BShot%252B2020-08-28%252Bat%252B3.25.41%252BPM.jpg 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598313322879-HUH4QRMVTZSPD01UDY0N/Picture4.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch Figure 3. The complete testing assembly picturing the secured motor with clutch enclosed. The motor had to be secured by two clamps to prevent it rotating in relation to the gearbox. The wire was clamped between two nuts for ease of testing. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598314022697-GB2XO39MO04G8Y62IHA9/Picture4a.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch Figure 4A. A side by side comparison between clutch design 1 and clutch design 2. Clutch design 2 is thinner, concentric to the drive shaft, and contains a concentric clutch, a thinner outside housing, and a large hole through the center, that make it easier to manufacture and assemble. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598314053139-IGNYXWM0FQJ022OAVKWV/image-asset.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch Figure 4B. A comparison of all three clutch designs to indicate the evolution in design over the three iterations (from left to right, Altholz Clutch, Clutch 1, Clutch 2). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598313254654-DABVIR7CBEPSGB9IRP8B/image-asset.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598314103182-MZ47EJI597R8C8VDWJVK/Picture5.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch Figure 5. A simplified drawing of the testing setup depicted in Figure 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598314130298-GCFTYGC38P14L3Q8JKQM/image-asset.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch Figure 6. Comparison of the torque of the different systems and statistically significant differences which are indicated by the stars. There was no significant difference between the torque for the unclutched system and design 1, nor was there between design 2 2-strand and design 2 3-strand. All other combinations experienced significant differences. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1598314177715-LCIXMS1MU9QT8Z79A684/Screen+Shot+2020-08-24+at+6.51.07+PM.png 2020, September - A Novel Nickel-Titanium Wire-Actuated Prosthetic Motor Clutch https://www.jyi.org/2020-september/category/News+Feature monthly 0.5 https://www.jyi.org/2020-september/category/Research monthly 0.5 https://www.jyi.org/2020-september/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-october daily 0.75 2020-10-23 https://www.jyi.org/2020-october/2020/10/26/houhidal2nmsb00r54vuqqn89zx3br monthly 0.5 2020-10-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1603491215528-LJ3CAUDNVYTIA66UTV5W/Microbiome_Image.jpg 2020, October - The Microbiome: Bacterial Soldiers Fighting Against Infectious Disease https://www.jyi.org/2020-october/2020/10/1/press-release-targeting-a-glucosidase-for-potential-diabetes-treatment monthly 0.5 2021-11-29 https://www.jyi.org/2020-october/2020/10/1/structural-analysis-of-a-new-saccharomyces-cerevisiae-glucosidase-homology-model-and-identification-of-potential-inhibitor-enzyme-docking-sites monthly 0.5 2020-11-15 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601477645279-GJ5AVU9EOPUUQ289QQRH/image-asset.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 1. Structures of flavonoids: (a) general flavonoid structure (b) quercetin with arrows pointing to the 3-OH of the C-ring (c) myricetin with arrows pointing to the 3-OH of the C-ring (d) luteolin. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601477793690-XF2Q5H84FXYK4WDQX4PG/image-asset.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 2. NCBI BLAST alignment of the primary sequence of Saccharomyces cerevisiae isomaltase (PDB 3A47) with Saccharomyces cerevisiae α-glucosidase (Mal12). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601477927929-KRET6F2NHKZ5D3P2M1V5/Picture1.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 3. Structural comparison of the S. cerevisiae α-glucosidase model (silver) with the isomaltase (PDB: 3A47) template (red). Areas of misalignment are highlighted with blue and green boxes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601477963712-93Q5LKU2C2R8G61L1Q0N/image-asset.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 4. Seven pockets identified in S. cerevisiae α-glucosidase that are potentially able to bind to small drug molecules. The darker shade of blue indicates the most common size drug pockets. The highest scoring pocket was Pocket 1 by both DLID and the size of the pocket. The second most drug-like pocket according to the DLID score is Pocket 3, which is an allosteric pocket. Pocket 2 also had a favorable score and was investigated in some initial docking studies. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601482285672-8FE3Q7C1YG65GYI0SRID/image-asset.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601478027687-GMG6XRF5HJ2UNU5PI1OR/image-asset.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 5. Homology model of S. cerevisiae α-glucosidase 3A47 (colored pink) binding pocket 2 electrostatic potential mesh viewed from the opening with docking of myricetin, the highest scoring flavonoid for this pocket. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601478089308-HMV6RVDT4NNSKU378PCS/Picture1.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 6. Homology model of S. cerevisiae α-glucosidase (colored pink) binding pocket 3 electrostatic potential mesh view from the pocket opening with docking of hesperetin, the highest scoring flavonoid for this pocket. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601482326869-0T1E8R0L3N32QAHKRGAZ/image-asset.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 7. Top scoring flavonoid derivatives docked into Pocket 3 (non-interactive amino acids removed for clarity). The hydrogen bond formed between the protein and inhibitor are shown. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1601482376289-GLFDPZ40LKAZEK09OLDG/1.png 2020, October - Structural Analysis of a New Saccharomyces cerevisiae α-glucosidase Homology Model and Identification of Potential Inhibitor Enzyme Docking Sites Figure 8. Inhibition of S. cerevisiae α-glucosidase by luteolin shown in a Lineweaver-Burk plot. Inhibition occurs even with sub-micromolar concentrations of inhibitor and appears to have a mixed or non-competitive binding mode. https://www.jyi.org/2020-october/category/News+Feature monthly 0.5 https://www.jyi.org/2020-october/category/Research monthly 0.5 https://www.jyi.org/2020-october/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-november daily 0.75 2020-11-20 https://www.jyi.org/2020-november/2020/11/23/misinformation-in-a-global-pandemic-where-does-it-come-from-and-how-do-we-stop-it monthly 0.5 2020-11-29 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1605889818131-Z31ABWBEDQ4I6SROVFE9/misinformation_image_from_freepik.jpg 2020, November - Misinformation in a Global Pandemic: Where Does it Come From and How do we Stop it? With so much information to process during the pandemic, it can be difficult to identify misinformation. Social media vector created by freepik: https://www.freepik.com/vectors/social-media. https://www.jyi.org/2020-november/2020/11/1/press-release-modified-immune-cells-better-at-finding-killing-cancer-cells monthly 0.5 2021-11-07 https://www.jyi.org/2020-november/2020/11/1/the-engineering-of-natural-killer-cells-as-an-emerging-adoptive-cancer-immunotherapy monthly 0.5 2020-11-15 https://www.jyi.org/2020-november/2020/11/1/does-providing-hiding-spaces-for-zebrafish-in-large-groups-reduce-aggressive-behaviour monthly 0.5 2020-11-20 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604072758287-53FF86JJ1G3HXCWEY643/Screen+Shot+2020-10-30+at+10.45.40+AM.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604072914548-ENX3TY68L2G7STHCG33J/a1.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? Figure 2. Different types of enrichment used in this experiment. A = artificial plant, B = pup tent, C = lily pad. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604072822801-GR8DHTBOU4NKAV27TOB2/Screen+Shot+2020-10-30+at+10.46.19+AM.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604073002439-2SZ4A2VKQKIAP54VRT46/b.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? Figure 3. Photograph showing the set-up of the cross maze used for preference testing of different types of enrichment. A = artificial plant, B = Pup tent, C = Lily pad, D = Barren. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604074073161-H06F4O5XMDZZHHAT5NMT/1.png+copy.jpg 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604074245973-O5SZ8YBQ1WWSRGHNZPO6/c.png+copy.jpg 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? Figure 4a-b. Photographs showing the NTLABS Aquarium Lab. Multi-test water quality test being carried out, including the instructions (NTLABS, 2018). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604074350997-EPTJNWMI6ZUSVGL83AG1/d.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? Figure 5. Frequency of fish activity in tank 1 between the different types of enrichment compared to control environment. Values are mean + SD. Significant differences are indicated by a ** (p < 0.01) and **** (p < 0.0001). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604074403921-6E8ONB0OR1JEJMT5UFA2/a.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? Figure 6a-c. Tank 1 weekly changes in the frequency of aggression when different types of enrichment were introduced, compared to a control environment. Includes data from morning and afternoon recordings. Values are mean + SEM. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604523972732-D3LN8CD1PFEPRGKYB4EV/g.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? Figure 7a-b. The average time spent by each fish in each section that contained a different type of enrichment or no enrichment. Values are mean + 95% CI. Significant differences (p < 0.001; 2way ANOVA multiple comparison test) are indicated by a (****). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1604073846502-BVBEXS34TSJWX4YSL49L/Screen+Shot+2020-10-30+at+11.03.29+AM.png 2020, November - Does Providing Hiding Spaces for Zebrafish in Large Groups Reduce Aggressive Behaviour? https://www.jyi.org/2020-november/category/News+Feature monthly 0.5 https://www.jyi.org/2020-november/category/Research monthly 0.5 https://www.jyi.org/2020-november/category/Press+Releases monthly 0.5 https://www.jyi.org/2020-december daily 0.75 2020-12-01 https://www.jyi.org/2020-december/2020/12/1/advanced-manufacturing-and-instrumentation-for-neutron-chopper-design monthly 0.5 2021-06-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606784296081-PO01KQ9G15GAJWQJ62YG/Screen+Shot+2020-11-30+at+6.57.55+PM.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785434795-R95SUVU4RSRLOV8O0F77/Screen+Shot+2020-11-30+at+7.15.53+PM.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design Figure 1. Common Chopper Designs (Sutton 2018). A) Fermi Chopper. B) Disk Chopper. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785550037-328F53AGH0IDEX6DWSSJ/Picture2.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design Figure 2. Rotor of a Velocity Selector (Soldner 2015). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785652026-MQZ0M5FYKVS2I2QMCFOP/3.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design Figure 3. Neutron Chopper with Water Cooling (Harling 1966). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785204140-Q6DLS0Q42IONDCHW2G6S/Screen+Shot+2020-11-30+at+7.12.25+PM.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785906812-UNSSP9ABSR7A8TZQPCQO/4.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design Figure 4. GE’s 3D Printed Heat Exchanger Prototype (Sher 2019). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785940651-6D52JJUD7GCA4LQXYUUA/5.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design Figure 5. Neutron Trajectory through Chopper Blades. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785227891-40YEB2R2VOMN7P7ZTZZ5/image-asset.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606786280717-1608WDR1II7A8RO4LN97/image-asset.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design Figure 6. Chopped Neutron Energy Distribution. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1606785311793-KVJOW0DYL4LD1WG4Q7J5/Screen+Shot+2020-11-30+at+7.12.42+PM.png 2020, December - Advanced Manufacturing and Instrumentation for Neutron Chopper Design https://www.jyi.org/2020-december/category/Research monthly 0.5 https://www.jyi.org/2021-january daily 0.75 2021-01-20 https://www.jyi.org/2021-january/2021/1/5/stressful-event-exposure-and-ptsd-symptoms-are-related-to-differences-in-safety-memory monthly 0.5 2021-06-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1609879141826-EHPXXS4H2H87ASVU33DP/f1.jpg 2021, January - Stressful Event Exposure and PTSD Symptoms are Related to Differences in Safety Memory Figure 1. Fear conditioning, extinction, and extinction recall (Joshi, S. 2017). Fear conditioning contingencies (danger context and light color) were established on day one, followed by extinction in the safety context to establish CS+E. On day two, extinction recall was tested using re-presentation of the CS+ (without the presence of a loud noise) interleaved with CS- in the safety context. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1609879163892-Z0FI9611MEOV28U1GSIX/f2.png 2021, January - Stressful Event Exposure and PTSD Symptoms are Related to Differences in Safety Memory Figure 2. Positive relationship between PTSD symptom severity and expectancy ratings. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1609879191533-7Z9JKOHU52NCDCFL79JR/f3.png 2021, January - Stressful Event Exposure and PTSD Symptoms are Related to Differences in Safety Memory Figure 3. Positive relationship between stressful event exposure and expectancy ratings. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1609879246579-G0CEGJ2DY4C8T131OF45/image-asset.png 2021, January - Stressful Event Exposure and PTSD Symptoms are Related to Differences in Safety Memory Figure 4. Trend towards a negative relationship between hippocampal activity during CS+E and PTSD symptom severity in all participants (p < 0.063 FWE SVC). 4a. Sagittal view of the brain 4b. Coronal view of the brain. 4c. Ventral view of the brain. 4d. Scale indicating strength of relationship. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1609879401723-350JCPFS27O1YXCPCQT9/image-asset.png 2021, January - Stressful Event Exposure and PTSD Symptoms are Related to Differences in Safety Memory Figure 5. Trend towards a negative relationship between hippocampal activity during CS+E and LEC-5 scores in all participants (p < 0.064 FWE SVC). 5a. Sagittal view of the brain 5b. Coronal view of the brain. 5c. Ventral view of the brain. 5d. Scale indicating strength of relationship. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1609879419822-HF25C88XUF2TLJB7V1GF/image-asset.png 2021, January - Stressful Event Exposure and PTSD Symptoms are Related to Differences in Safety Memory Figure 6. Significant negative relationship between hippocampal activity during CS+E and CAPS scores in participants with PTSD (p < 0.034 FWE SVC). 6a. Sagittal view of the brain 6b. Coronal view of the brain. 6c. Ventral view of the brain. 6d. Scale indicating strength of relationship. https://www.jyi.org/2021-january/2021/1/5/promising-investigational-therapeutic-drugs-for-the-treatment-of-covid-19-a-review monthly 0.5 2021-06-19 https://www.jyi.org/2021-january/category/Research monthly 0.5 https://www.jyi.org/2021-february daily 0.75 2021-01-30 https://www.jyi.org/2021-february/2021/2/1/fomites-in-the-fitness-center-fitness-equipment-harbors-antibiotic-resistant-and-pathogenic-bacteria monthly 0.5 2021-06-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612042307271-YTQN2QHZWNO3INGM89IZ/Screen+Shot+2021-01-30+at+3.31.19+PM.png 2021, February - Fomites in the Fitness Center: Fitness Equipment Harbors Antibiotic Resistant and Pathogenic Bacteria https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612042425385-BOQ6P0QKMIUODUFVKCF2/1.png 2021, February - Fomites in the Fitness Center: Fitness Equipment Harbors Antibiotic Resistant and Pathogenic Bacteria Figure 1. API® 20 E Test Panels. API® 20E test panels were used to further identify specimen which showed positive results for screening via Gram-negative selective media. These panels included a series of 20 biochemical tests; the results of which were then cross referenced with the Analytical Profile Index (APIWEBTM), Bergey’s Manual of Determinative Microbiology (Holt, 1994), and D-Bite Database (B. M. Birla Science and Technology Centre, 2016) to confirm identification on genus and/or species level(s). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612042266590-YLCMV3YMCEJZH5AWZBBF/Screen+Shot+2021-01-30+at+3.30.45+PM.png 2021, February - Fomites in the Fitness Center: Fitness Equipment Harbors Antibiotic Resistant and Pathogenic Bacteria https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612042483138-NBFO08H9RAGXVQN3N32L/2.jpg 2021, February - Fomites in the Fitness Center: Fitness Equipment Harbors Antibiotic Resistant and Pathogenic Bacteria Figure 2. Bacterial Load Distribution by Equipment Type. A comparison of combined bacterial loads among the three types of fitness equipment investigated: barbells had the highest combined bacterial load (1.2 x 10^13 CFU/mL), followed closely by chest fly machines (1.0 x 10^13 CFU/mL). There were much less bacteria (4.5 x 10^10 CFU/mL) found on dumbbells, significantly less than on barbells (F = 502.95, p < 0.001) or on chest fly machines (F = 541.96, p < .001). https://www.jyi.org/2021-february/2021/2/1/effect-of-co-flow-jet-characteristic-on-the-aerodynamic-performance-of-an-airfoil monthly 0.5 2021-06-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044048169-73A41FZX2KPI45WTP21E/Screen+Shot+2021-01-30+at+4.00.26+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil Figure 1. A Typical CFJ Airfoil. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612043188907-AUMU5EQGB6AB8VETQZVD/Screen+Shot+2021-01-30+at+3.46.15+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612043563456-RTMWU2FRK9HZJDT58MVX/Screen+Shot+2021-01-30+at+3.52.31+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612043705366-G4FKVD1AJHH2YL63FATG/Screen%2BShot%2B2021-01-30%2Bat%2B3.53.50%2BPM.jpg 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044275463-67JSH8NLM92NU2FZOEUW/Screen+Shot+2021-01-30+at+4.04.18+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044374920-H8P6ASV9MXCKKVXKI92K/Screen+Shot+2021-01-30+at+4.05.42+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil Figure 3. Comparison of baseline (above) and minus 30 (below) at 18° AoA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044440700-2959JUSCIAHUWY8YP9H7/Screen+Shot+2021-01-30+at+4.07.08+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil Figure 4. Comparison of baseline (above) and minus 20 (below) at 18° AoA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044610684-COY98KF3QPQMX3UB7WNL/Screen+Shot+2021-01-30+at+4.09.58+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil Figure 5. Comparison of baseline (above) and minus 10 (below) at 18° AoA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044678782-JA16TWHSYS7961AN9RNZ/Screen+Shot+2021-01-30+at+4.10.57+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil Figure 6. Comparison of baseline (above) and zero (below) at 18° AoA. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1612044719650-U9MQAHZMRDBKQ55MOMBZ/Screen+Shot+2021-01-30+at+4.11.49+PM.png 2021, February - Effect of Co-Flow Jet Characteristic on the Aerodynamic Performance of an Airfoil Figure 7. Comparison of baseline (above) and plus 10 (below) at 18° AoA. https://www.jyi.org/2021-february/category/Research monthly 0.5 https://www.jyi.org/2021-march daily 0.75 2021-02-28 https://www.jyi.org/2021-march/2021/3/1/potential-for-concordance-between-plurality-and-instant-runoff-election-algorithms-as-a-function-of-ballot-dispersion monthly 0.5 2021-06-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553133494-8ISM0YQ7Z40DR32YPNZW/Screen+Shot+2021-02-28+at+4.58.31+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553304852-IXOHUG8IJ8YDG3OWTORR/Screen+Shot+2021-02-28+at+4.01.26+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553379656-ARLHFM3ETDQ201GHJCTP/Screen+Shot+2021-02-28+at+4.02.45+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553512052-OSJBQ35NBMPDP9FKO7TU/Screen+Shot+2021-02-28+at+4.07.00+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553530001-RHLWJD719USLOGDQNC01/Screen+Shot+2021-02-28+at+4.08.30+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553618051-QT3NKQ9PL64XH262BQAP/Screen+Shot+2021-02-28+at+4.10.10+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614553656755-O70H738YPWC2PCBX3Q9N/Screen+Shot+2021-02-28+at+4.11.04+PM.png 2021, March - Potential for Concordance between Plurality and Instant-Runoff Election Algorithms as a Function of Ballot Dispersion https://www.jyi.org/2021-march/2021/3/1/the-relationship-between-implicit-preference-between-high-calorie-foods-and-dietary-lapse-types-in-a-behavioral-weight-loss-program monthly 0.5 2021-06-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1614547961810-CFXDFXQ5YGKMOETWJ0ZH/Picture1.jpg 2021, March - The Relationship Between Implicit Preference Between High-Calorie Foods and Dietary Lapse Types in a Behavioral Weight Loss Program Figure 1. Proportion of Unintended Time Lapses by Implicit Preference for High-Calorie Foods (Baseline IAT Scores). The proportion of unintended time lapses out of all participant surveys was calculated to control for the effect that higher participant adherence to the EMA protocol (i.e., people reporting more lapses because they are more compliant with the EMA protocol) may have on the relationship between baseline IAT scores and dietary lapses and on the higher likelihood for reporting a lapse overall. https://www.jyi.org/2021-march/category/Research monthly 0.5 https://www.jyi.org/2021-april daily 0.75 2022-01-14 https://www.jyi.org/2021-april/2021/4/1/machine-learning-can-help-predict-new-uses-for-existing-drugs monthly 0.5 2021-04-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617215991919-95SUTG7JFVWLL7L3EIB8/Picture1.png 2021, April - Machine Learning can Help Predict New Uses for Existing Drugs Graphic created by Sona Popat. https://www.jyi.org/2021-april/2021/4/1/applications-of-prostate-cancer-proteomics-a-review monthly 0.5 2022-01-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617223259273-MCCST5BKGS0BAWQJWBJE/Screen+Shot+2021-03-31+at+3.40.39+PM.png 2021, April - Applications of Prostate Cancer Proteomics: A Review https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617223275999-13OQS5T5NWLH8WDM8IDD/Screen+Shot+2021-03-31+at+3.40.29+PM.png 2021, April - Applications of Prostate Cancer Proteomics: A Review https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617223297102-HSCR57EZOSK03KZ9JAC1/fig1.png 2021, April - Applications of Prostate Cancer Proteomics: A Review Figure 1: FABP5 is required for in vivo prostate cancer metastasis mediated by FASN and MAGL. (A) Demonstrative luciferase signals of PC3-Luc cells expressing vector, MAGL, or FASN on days 7 (D7) and 49 (D49) respectively. Signals were seen for PC3-Luc cells that express FABP5 shRNA (shFABP5) as well as those expressing FABP5 shRNA while overexpressing FASN (FASN / shFABP5) or MAGL (MAGL / shFABP5). (B) Total vector and shFABP5 cell flux at the primary tumour site, whole mouse, and femurs. (C) Total vector flux, FASN, and FASN / shFABP5 cells at the primary tumour site, whole mouse, and femurs. (D) Total vector flux, MAGL, and MAGL / shFABP5 cells at the primary tumour site, whole mouse, and femurs. Data was given as means ± SEM. *p < 0.05; **p < 0.01; ***p < 0.001; **** p < 0.0001 vs. vector. # p < 0.05; ## p < 0.01; ### p < 0.001; ####p < 0.0001 represents FASN vs. FASN/shFABP5 or MAGL vs. MAGL/shFABP5; (n = 8) (Carbonetti et al., 2019). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617223323212-ZIOJDSGKBCCFCD6BLX99/fig2.png 2021, April - Applications of Prostate Cancer Proteomics: A Review Figure 2: Clusters linked to carcinogenesis of prostate cancer were identified by application of both proteomic and genetic analysis. (A) Principal component analysis scores plot based on the read counts of each TF in AR-binding sites under R1881 conditions. (B) Heatmap of the Top 2000 regions with the most variable binding at AR sites of the TFs indicated. Based on the hierarchical clustering 3 clusters were identified. (C) Radar plot showing pattern enrichment in the Top 2000 variable regions (separated in the three clusters). The radii lengths are the absolute Z-score. The pattern colours correspond to the TF families. (D) Heatmap showing AR ChIP-seq signal (FPKM) in three clusters of LHSAR cells transduced with LacZ control, FOXA1, HOXB13 or both. Data is centred at AR peaks, depicting a 5-kb window around the peak. (E) Boxplot visualising the normalised AR signal (FPKM) at AR binding sites in clusters 1.1 (blue), 1.2 (red) and 1.3 (green). p < 0.05, * * * p < 1e−16 (t-test) (Stelloo et al., 2018). https://www.jyi.org/2021-april/2021/4/1/effects-of-early-ethanol-exposure-on-lithobates-pipiens-tadpole-development monthly 0.5 2021-04-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617220979135-XDJ7HERA8CA1ZH9SRRQ4/Screen+Shot+2021-03-31+at+3.02.40+PM.png 2021, April - Effects of Early Ethanol Exposure on Lithobates pipiens Tadpole Development https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617221023374-WX9IP829QVUTEHQWXGN1/f1.jpg 2021, April - Effects of Early Ethanol Exposure on Lithobates pipiens Tadpole Development Figure 1. Morphology of tadpole mouth. a) Ventral view of tadpole. b) Magnification of boxed area in a, showing the keratinized upper and lower jaw sheaths. A yellow line is drawn under the upper jaw sheath to show what was measured. c) Line drawing showing mouth anatomy with yellow line depicting the linear dimension of the upper jaw sheath. All photo credits and line drawings are by MD. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617221105393-42MN97O7YJ1MN8ARDBFN/f2.jpg 2021, April - Effects of Early Ethanol Exposure on Lithobates pipiens Tadpole Development Figure 2. Contrary to expectations, body mass was larger in tadpoles exposed to ethanol (F2,9 = 5.85, p = 0.024). Groups that share a letter are not significantly different (post-hoc pairwise comparison tests, p > 0.05, see text for details). Sample sizes are 4 bins per treatment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617220905905-D4JZNO0ZKUM85GTZL4FL/Screen+Shot+2021-03-31+at+3.01.26+PM.png 2021, April - Effects of Early Ethanol Exposure on Lithobates pipiens Tadpole Development https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617221136276-696KXZHGK3RAQFMGA3YY/f3.jpg 2021, April - Effects of Early Ethanol Exposure on Lithobates pipiens Tadpole Development Figure 3. Mouth width (corrected for differences in body mass) was smaller in tadpoles exposed to 0.4 percent ethanol (F2,8 = 13.85, p = 0.003). Groups that share a letter are not significantly different (post-hoc pairwise comparison tests, p > 0.05,. Sample sizes are bins per treatment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617221166214-UI23VX86MJI54RY7H4JZ/f4.jpg 2021, April - Effects of Early Ethanol Exposure on Lithobates pipiens Tadpole Development Figure 4. Water-borne corticosterone levels were higher in tadpoles exposed to 0.4 percent ethanol. Groups that share a letter are not significantly different (post-hoc pairwise comparison tests, p > 0.05, see text for details). Sample sizes are 4 tadpoles (one from each bin) per treatment. https://www.jyi.org/2021-april/2021/4/1/career-interview-with-entrepreneurial-scientist-dr-toby-parkes-phd monthly 0.5 2021-04-19 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617218499026-2DBAO6VWGEAFFYFG1F11/Picture1.jpg 2021, April - Career Interview with Entrepreneurial Scientist, Dr. Toby Parkes (PhD) https://www.jyi.org/2021-april/2021/4/1/press-release-effects-of-early-ethanol-exposure-on-lithobates-pipiens-tadpole-development monthly 0.5 2021-10-31 https://www.jyi.org/2021-april/2021/4/1/a-new-phage-of-antibiotics monthly 0.5 2021-04-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1617222307982-7NU1AKIXNZ5WCHCOPHM5/Bacteriophage.jpg 2021, April - A New Ph(age) of Antibiotics https://www.jyi.org/2021-april/category/Science+Careers monthly 0.5 https://www.jyi.org/2021-april/category/News+Feature monthly 0.5 https://www.jyi.org/2021-april/category/Research monthly 0.5 https://www.jyi.org/2021-april/category/Press+Releases monthly 0.5 https://www.jyi.org/2021-may daily 0.75 2021-05-01 https://www.jyi.org/2021-may/2021/5/1/the-impacts-of-the-covid-19-pandemic-on-children-with-autism-spectrum-disorder-asd-and-their-caregivers monthly 0.5 2021-05-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619903198320-MECMEU7WX64BCHSCCFCB/739px-Autism_Awareness_Ribbon.png 2021, May - The Impacts of the COVID-19 Pandemic on Children with Autism Spectrum Disorder (ASD) and their Caregivers “A "puzzle" ribbon to promote Autism and Aspergers Awareness.” Wikimedia. https://www.jyi.org/2021-may/2021/5/1/press-release-microneedles-to-help-overcome-a-major-citrus-crop-disease monthly 0.5 2021-11-07 https://www.jyi.org/2021-may/2021/5/1/development-of-predictive-tools-for-anti-cancer-peptide-candidates-using-generative-machine-learning-models monthly 0.5 2021-05-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703293528-KPIXVZQ0TFQGKEV2TZS2/Screen+Shot+2021-04-26+at+3.44.13+PM.png 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703388876-O5IX1TQMDHYAYP9MS4O9/Screen+Shot+2021-04-26+at+3.46.23+PM.png 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703478201-0VE1UDYMK3U7YBKATF23/Screen+Shot+2021-04-26+at+3.48.01+PM.png 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703522772-8A7Q9PU08WZUEU0G6ZBG/Screen+Shot+2021-04-26+at+3.50.19+PM.png 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703610650-G00463131FOM6WZP3OYH/1230947-figure-1.jpg 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models Figure 1. Metrics for predictor models. After the models were trained, each model was tested 25 times against a test dataset. The top-performing model’s training accuracy, testing accuracy, sensitivity, specificity, and F1-score is recordedsensitivity, specificity, and F1-score is recorded. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703649882-ONAKWQ4QB0HPO0FNF0G0/fig+2.jpg 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models Figure 2. The initial SVM predictor’s probabilities for the 40 generated sequences with a line signifying the 90% confidence threshold. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703683926-Z7UPZSQ25L7ZZ37FDRYS/fig+3.jpg 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models Figure 3. The ACPPred, ACPPred-FL, and Tyagi web server predictors’ probabilities for the 40 generated sequences with a line signifying the 90% confidence threshold. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1619703741414-8698Z82Y3AZBCE08I0IS/Screen+Shot+2021-04-29+at+8.41.56+AM.png 2021, May - Development of Predictive Tools for Anti-Cancer Peptide Candidates using Generative Machine Learning Models https://www.jyi.org/2021-may/category/Research monthly 0.5 https://www.jyi.org/2021-may/category/Press+Releases monthly 0.5 https://www.jyi.org/2021-may/category/News+Features monthly 0.5 https://www.jyi.org/2021-june daily 0.75 2021-06-09 https://www.jyi.org/2021-june/2021/6/8/grief-in-the-time-of-covid-19-the-impacts-of-unprecedented-circumstances-during-the-pandemic monthly 0.5 2021-06-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1623198271602-988BNO4ZSOH9G0AIJ569/Picture1.jpg 2021, June - Grief in the Time of COVID-19: The Impacts of Unprecedented Circumstances During the Pandemic - Make it stand out Source: "RE:Union - A story of cancer in the family" by mescon is licensed with CC BY 2.0. To view a copy of this license, visit https://creativecommons.org/licenses/by/2.0/ https://www.jyi.org/2021-june/2021/6/8/press-release-will-proteomics-revolutionise-the-way-we-manage-prostate-cancer-patients monthly 0.5 2022-06-10 https://www.jyi.org/2021-june/2021/6/8/microneedles-simplifying-the-delivery-of-high-dose-high-frequency-therapies monthly 0.5 2021-06-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1623181952417-RKDN24VY7WYFL0I2KU1D/Picture1.png 2021, June - Microneedles: Simplifying the Delivery of High-dose, High-frequency Therapies - Make it stand out Figure created by Septia Nurmala with BioRender.com. https://www.jyi.org/2021-june/2021/6/8/analyzing-risk-factors-using-ai-an-interview-with-dr-ana-m-wgner monthly 0.5 2021-06-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1623180669601-VLUDNFDC1S7ID4J2EE5U/image.png 2021, June - Analyzing risk factors using AI – an interview with Dr. Ana M. Wägner - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-june/2021/6/8/interview-with-dr-nafisa-jadavji monthly 0.5 2021-06-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1623179330826-2WLWP6B4G9A2SW8RGBJD/Screen+Shot+2021-06-08+at+2.08.15+PM.png 2021, June - Interview with Dr. Nafisa Jadavji - Make it stand out Image provided by Dr. Nafisa Jadavji. https://www.jyi.org/2021-june/2021/6/8/press-release-harnessing-the-microbiomes-of-soil-dwelling-creatures monthly 0.5 2021-11-15 https://www.jyi.org/2021-june/2021/6/2/the-role-of-ai-in-modern-chess monthly 0.5 2021-06-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622650695142-P3S3DCT793AMHMA9AARF/a.jpg 2021, June - The Role of AI in Modern Chess - Make it stand out Image available: https://www.thenewatlantis.com/wp-content/uploads/legacy/20190820_TNA58Wilkenfeldbanner.jpg https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622650541575-5IVCG19I8RJREU0EY39X/tree+search.png 2021, June - The Role of AI in Modern Chess - Make it stand out Figure 1. Tree Search. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622650587826-VPWR3YX8KGU21KPSB8RD/Picture1.png 2021, June - The Role of AI in Modern Chess - Make it stand out Figure 2. Minmax search tree example. https://www.jyi.org/2021-june/2021/6/1/a-minimally-invasive-3d-printed-microneedle-array-applicator-system-naas-for-delivery-of-therapeutics-to-citrus-leaf-tissue monthly 0.5 2021-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525692309-Y058SEZ9XMESAXIE9ISG/f1.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 1. A. Concept schematic showing tall needles penetrating through leaf tissue. B. Concept schematic showing smaller needles penetrating through leaf tissue. C. (i) and (ii) display the attachment of the MN patch to a standard mini stapler to produce the applicator system. The patch consists of a 10×10 array of MNs. (iii) and (iv) depict the application of the µNAAS onto leaf tissue, with the resultant penetrations visible on the leaf surface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525766795-SINZL5B4UJTA4WK26KRH/f2.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 2. A. First device prototype modeling a stamp with 1 mm tall needles. B. Domed needle patch printed with support systems. C. close-up optical image of the recent prototype. D. The MN patch. E. The MN patch affixed to a standard mini stapler, creating the µNAAS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525795398-G7HGJT1PZ27HRG3J45N8/f3.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 3. A. A leaf with the µNAAS applied near the midrib. B. A close-up view of the penetrations. C. Microscope image showing the partial puncture site, as the leaf tissue is still visible throughout the penetrated site. D. Complete puncture site with the background light infiltrating the area of penetration. E. Microscope image of an optimally punctured site. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525832559-JRKF6ZXYL9B3QNUQZPAJ/f4.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 4. A. An SEM image of a complete penetration. B. An SEM image of a partial penetration at a front view. C. An SEM of the back view showing an indentation from the MNs. D. Average puncture size created by the µNAAS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525914399-RJL8JSKLXRPMJQ6PUMDI/f5.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 5. A. The µNAAS applied onto the force resistor; the force was recorded as a period of time. B. The range of forces (1 N) capable of being applied by the µNAAS for two consecutive presses. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525938467-7Y21ZMEJ4QO8RZ75PF09/f6.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 6. A. Fluorescing cadmium sulfide quantum dots under a black light. B. Graph of cadmium concentration in plants of the two control groups (including water control) and the treatment group (both N = 9). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1622525965295-AR3DGD5762U2RS3QNUF1/f7.jpg 2021, June - A Minimally-Invasive 3D-Printed Microneedle Array Applicator System (μNAAS) for Delivery of Therapeutics to Citrus Leaf Tissue - Make it stand out Figure 7. A. EDAX spectra of the synthesized Qdots and the movement of the therapeutic from the µNAAS-treated leaf area to the petiole. B. Petiole cuts analyzed at 8 hours, 15 hours and 24 hours. C. A schematic showing where the µNAAS was applied in relation to the petiole and the flow of molecules in the systemic tissue, with only the phloem’s contents traveling towards the roots (indicated by the blue arrow). Additional cuts in the stem 2 cm below the petiole also show cadmium peaks. https://www.jyi.org/2021-june/category/Science+Careers monthly 0.5 https://www.jyi.org/2021-june/category/News+Feature monthly 0.5 https://www.jyi.org/2021-june/category/Press+Release monthly 0.5 https://www.jyi.org/2021-june/category/Research monthly 0.5 https://www.jyi.org/2021-july daily 0.75 2021-07-25 https://www.jyi.org/2021-july/2021/7/25/the-effect-of-depth-of-processing-and-delay-on-the-anchoring-effect monthly 0.5 2021-07-25 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627246979837-X1GC0I3DVKUWF7XBL05V/table1.png 2021, July - The Effect of Depth of Processing and Delay on the Anchoring Effect https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627246912645-V6AQI7FJDIKSU0ATLYLV/table2.png 2021, July - The Effect of Depth of Processing and Delay on the Anchoring Effect - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627247085794-K5W92A31N348KR6ZHJCO/figure1.png 2021, July - 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Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627873884384-CTRK6WZGJH9RZBEMFWX2/Figure2A-C.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627874311736-K48QD0EUNR10KCV5MV78/Figure2D-F.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627874329585-DYSWXIISFT5OMJALALRZ/Figure2G.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627875050226-YZ491KUYKIG4R71NWA3F/Table1.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627874981906-LS4TAFUIWYZE7V8FPEJL/Figure3A-B.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627875001190-Z5G48U7BAJPGTDPMQVFN/Figure3C.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1627875077232-KFJUPG2NRA6DHDU9R6QE/Table2.png 2021, August - Analysis of Multiple Years of RNA-Seq Data Using the 3D-RNA-Seq Application Reveals Seasonal Signatures of Differential Gene and Transcript-Level Expression, Alternative-Splicing, and Transcript... - 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Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632718667555-BPCJ2OJ3Z5R5XMJ38T59/eq2.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632718707799-DLAGVN7EFFK9XTRDFR0O/eq3.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632718749452-RR2OIX5KDPGN9FMAJL3W/eq4.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632718835988-XASVTE47J4VNYZZTM364/eq5.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632719082866-B21B2U283T7EBUH2ANXK/eq6.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632719121349-28EXYU1L6LJVSJ2BGM1S/eq7.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632719200763-QKWE6RBGC42IRVTQVHGZ/eq8.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632719275314-F9FPY9ONNK4ZE3DKKLNU/eq9.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720472233-UWZZXOS1E345S04JGZSM/table1.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720512697-C83VNBU5FM5K5KQKA9Z2/table2.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720566661-IPVRNGFFRJG15CE3GO7I/fig1.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Figure 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720622772-BLBTV69OGD151HP44M5Q/fig2.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Figure 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720694929-RNKX8IF3PF2GR7Z4BF3P/eq10.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720742303-9LPAP1ISTXJZTGRDH4EE/eq11.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720868460-T4S5NU6EJWWG5QDRAQ0P/eq12.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720925762-UV71XRN0Q8SLM8PWLE4X/eq13.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632720977684-8CWIYARFQH3KIBJ5UTG1/eq14.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1632721029809-TQO1O2KPJOK5HCOKX5L2/eq15.png 2021, September - Minimal Risk Betting Analysis in Poker Tournaments - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-september/category/Research monthly 0.5 https://www.jyi.org/2021-september/tag/integer+linear+programming monthly 0.5 https://www.jyi.org/2021-september/tag/optimization monthly 0.5 https://www.jyi.org/2021-september/tag/la+grange+multipliers monthly 0.5 https://www.jyi.org/2021-september/tag/poker+mathematics monthly 0.5 https://www.jyi.org/2021-september/tag/no+limit+texas+hold%27em monthly 0.5 https://www.jyi.org/2021-october daily 0.75 2021-10-31 https://www.jyi.org/2021-october/2021/10/31/press-release-computer-based-system-leverages-quality-of-care-in-parkinsons-disease-patients monthly 0.5 2022-09-01 https://www.jyi.org/2021-october/2021/10/31/streamlining-clinical-trials-to-make-them-work-for-everyone-a-conversation-with-dr-heidi-gardner monthly 0.5 2021-10-31 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635715774167-T5MLN1QWI91PYATXIK0R/garnder.jpg 2021, October - Streamlining Clinical Trials to Make Them Work for Everyone: A Conversation with Dr. Heidi Gardner - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-october/2021/10/31/press-release-using-molecular-sponges-not-for-your-dishes monthly 0.5 2022-05-23 https://www.jyi.org/2021-october/2021/10/29/a-review-of-the-implementation-of-computer-based-systems-to-detect-and-monitor-parkinsons-disease monthly 0.5 2021-10-30 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635552209257-DPGWJKDI7EIT33866XBG/trackingpeop.jpg 2021, October - A Review of the Implementation of Computer-Based Systems to Detect and Monitor Parkinson’s Disease - Make it stand out IMAGE SOURCE: https://phys.org/news/2012-09-tracking-people-gait-signature.html https://www.jyi.org/2021-october/2021/10/28/negative-emissions-technologies-a-decisive-step-towards-a-better-tomorrow monthly 0.5 2021-10-31 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635452130897-CDJLSPFNCDINSSP5Y8L2/emissions1.jpg 2021, October - Negative Emissions Technologies: A Decisive Step Towards a Better Tomorrow - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635452027368-GNFB51JT4YJ4ROB4ETN8/emissions2.png 2021, October - Negative Emissions Technologies: A Decisive Step Towards a Better Tomorrow - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635452051431-9P8XS1ECYBHR4I2S8698/emissions3.png 2021, October - Negative Emissions Technologies: A Decisive Step Towards a Better Tomorrow - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-october/2021/10/27/altering-communities-from-microbes-to-biological-machines monthly 0.5 2021-10-27 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635375347601-DO04V12D13B8PE9UXN0L/microbes1.png 2021, October - Altering Communities: From Microbes to Biological Machines - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-october/2021/10/27/new-target-associate-specific-drug-levels-within-race-against-cancer monthly 0.5 2021-10-27 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635372782018-BZQE0B92MLRS33GBHV8W/cancer1.png 2021, October - New Target Associate Specific Drug Levels Within Race Against Cancer - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-october/2021/10/27/a-primer-on-linear-algebra-in-machine-learning monthly 0.5 2021-10-27 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635370100972-1G3TV288G0VCT7XSY87R/algebra1.jpg 2021, October - A Primer on Linear Algebra in Machine Learning - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635370131007-4WP5UNG2LDDWKF3EQGKU/algebra2.png 2021, October - A Primer on Linear Algebra in Machine Learning - Make it stand out Image of a matrix https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635370232222-SN38O4DHDCMN186TOHQ4/algebra3.jpg 2021, October - A Primer on Linear Algebra in Machine Learning - Make it stand out Image of the definition of eigenvectors and eigenvalues https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635370370217-9MQ54TXL3WWVFF5SCZFV/algebra4.png 2021, October - A Primer on Linear Algebra in Machine Learning - Make it stand out Image of DTI https://www.jyi.org/2021-october/2021/10/27/lets-get-this-bread-sourdough-may-reduce-immune-response monthly 0.5 2021-10-27 https://www.jyi.org/2021-october/2021/10/27/artificial-intelligence-machine-learning-and-deep-learning-are-they-all-the-same monthly 0.5 2021-10-27 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635317286476-646C05EEY458E7UBO0FC/Mannam.png 2021, October - Artificial Intelligence, Machine Learning, and Deep Learning: Are They All the Same? - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635317339420-C3FNIOBVPLHZ2TB3NBM6/Mannam2.png 2021, October - Artificial Intelligence, Machine Learning, and Deep Learning: Are They All the Same? - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1635317368187-S9E7VWQPD496BOP8NI9A/Mannam3.png 2021, October - Artificial Intelligence, Machine Learning, and Deep Learning: Are They All the Same? - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2021-october/2021/10/28/press-release-rna-strand-variations-dictate-plants-behavior-to-greet-the-changing-season monthly 0.5 2021-11-13 https://www.jyi.org/2021-october/category/Science+Careers monthly 0.5 https://www.jyi.org/2021-october/category/News+Feature monthly 0.5 https://www.jyi.org/2021-october/category/Press+Release monthly 0.5 https://www.jyi.org/2021-october/category/Research monthly 0.5 https://www.jyi.org/2021-november daily 0.75 2021-11-16 https://www.jyi.org/2021-november/2021/11/16/development-of-a-ribozyme-based-selection-strategy-for-metabolic-engineering monthly 0.5 2021-11-16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a2398ca7-78fc-4721-bd18-c76393c77474/1400906-figure-1a.jpg 2021, November - Development of a Ribozyme-Based Selection Strategy for Metabolic Engineering - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/134532eb-bf00-4404-8395-ffb9004e684e/1400906-figure-1b-c.jpg 2021, November - Development of a Ribozyme-Based Selection Strategy for Metabolic Engineering - Make it stand out Figure 1. RCM Selection Strategy. A. Magnetic nanoparticles with amino derivatives are coupled to Ribozyme Chain Molecules (RCMs) that are composed of a thiol DNA linker (Thiol), the mammal ribozyme-riboswitch, and a glycol DNA spacer (Glycol). RCMs are used as primers to amplify a eCDM8 gene expression units that include a variable promoter and a variable ribosome binding site (RBS). B. MNP-RCM complexes are introduced into microfluidic droplets. The images show the PDMS droplet-generation microchip with aqueous and oil phases flowing and droplets produced with MNPs inside them. C. Selection is achieved by using a magnet to separate RCM genotypes that have been released from MNPs by theophylline-dependent ribozyme cleavage. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2276d85a-a567-40c3-82ed-1c56b0ac09c0/1400906-figure-2.jpg 2021, November - Development of a Ribozyme-Based Selection Strategy for Metabolic Engineering - Make it stand out Figure 2. Ribozyme Structure and Function. A. The most stable structure predicted for the ribozyme by ViennaRNA (Vienna RNA, 2005). B. The most stable structure predicted for the ribozyme by Qfold (Lewis et al. 2021). C. Image of a 12% denaturing polyacrylamide gel showing cleavage of the ribozyme. The DNA marker includes 50, 100, 200, 300, 400, and 500 bp fragments. The single stranded RNA ladder includes 50, 80, 150, 300, and 500 nt fragments. The last lane shows ribozyme-riboswitch self-cleavage products dependent on magnesium and theophylline. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/8305c579-915a-4bff-a64a-d97fd2f6eab0/1400906-figure-3.jpg 2021, November - Development of a Ribozyme-Based Selection Strategy for Metabolic Engineering - Make it stand out Figure 3. Construction and Testing of the Ribozyme Chain Molecule (RCM). A. 12% denaturing polyacrylamide gel showing successful ligations of mammal ribozyme to thiol and spacer DNA to produce the RCM primer. The DNA marker includes 50, 100, 200, 300, 400, and 500 bp fragments. The single stranded RNA ladder includes 50, 80, 150, 300, and 500 nt fragments. B. Incubation of RCMs with or without 5 uM theophylline followed by PCR. The DNA marker includes bright bands at 500, 1000, and 3000 bp. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1821f4a4-cf71-43ac-b2ad-e0eb774dbe4f/1400906-figure-4.jpg 2021, November - Development of a Ribozyme-Based Selection Strategy for Metabolic Engineering - Make it stand out Figure 4. Recombinase Polymerase Amplification (RPA). Image of a 1% agarose gel showing successful Recombinase Polymerase Amplification (RPA) using a kit from TwistDX (TwistDX 2005). The DNA marker includes 50, 100, 200, 300, 400, 500, 750, 1400, 1550, 2000, 3000, 4000, and 6000 bp fragments. https://www.jyi.org/2021-november/category/Research monthly 0.5 https://www.jyi.org/2021-december daily 0.75 2021-12-18 https://www.jyi.org/2021-december/2021/12/18/the-effect-of-orientation-of-the-rear-legs-on-the-in-vitro-contractile-force-of-the-gastrocnemius-in-the-american-bullfrog-lithobates-catesbeianus monthly 0.5 2022-01-08 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/97fcfa26-0deb-4340-bf95-68ebb18addc0/1430659-figure-1.jpg 2021, December - The Effect of Orientation of the Rear Legs on the in Vitro Contractile Force of the Gastrocnemius in the American Bullfrog, Lithobates Catesbeianus - Make it stand out Figure 1. Four frog leg positions during stimulation of the gastrocnemius. For Position A, the knee-ankle joint and the ankle-tarsometatarsal joint were maneuvered into angles of 180° and 54°, respectively. Position B had the angles of the knee-ankle joint and the ankle-tarsometatarsal joint at 10° and 75°, respectively. For Position C, the angle between the knee and ankle joint was 25° and the angle between the ankle and tarsometatarsal bones was 150°. For Position D, the angles of the knee-ankle joint and the ankle-tarsometatarsal joint was 50° and 170°, respectively. Figure was redrawn based on Figure 5 in Moo et al. (2017). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/5d628ef0-9e0e-4c9b-8db4-3e2835f275f1/1430659-figure-2.jpg 2021, December - The Effect of Orientation of the Rear Legs on the in Vitro Contractile Force of the Gastrocnemius in the American Bullfrog, Lithobates Catesbeianus - Make it stand out Figure 2. The average contractile force (± SD) of the gastrocnemius muscle in Lithobates catesbeianus at different leg positions. There were no significant differences in contractile forces among leg positions (p = .071). https://www.jyi.org/2021-december/2021/12/12/analysis-of-variants-associated-with-cystic-fibrosis-cftr-in-relation-to-the-known-pathogenic-variant-deltaf508 monthly 0.5 2021-12-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/97fab6b4-5a25-4f42-a021-3f63bcb33b53/1428201-figure-1-cftr-structure.jpg 2021, December - Analysis of Variants Associated with Cystic Fibrosis (CFTR) in Relation to the Known Pathogenic Variant DeltaF508 - Make it stand out Figure 1. CFTR Structure. (a) Top view of CFTR model, model in simulation box, model embedded into lipid membrane, and water added (left to right). (b) Side view correlating to panel A, with amino acid positions marked. The amino acid position Q493 is highlighted in yellow, W496 is in red, G500 is in green, F508is in magenta, and Y515 is in blue. The intracellular and extracellular membranes are also labeled. Amino acid positions Q493, W496, G500, F508, andY515 are contained on the intracellular side of the membrane. (c) Zoomed in view of CFTR model showing the amino acid position F508 relative toQ493, W496, G500, and Y515. The amino acid position colors correspond to those presented in panel B. All of these amino acid positions are located in the first nucleotide binding domain (NBD1) of the CFTR protein. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/5a60f70b-826a-4a1b-9425-accfa4802f8f/1428201-figure-2-conservation.jpg 2021, December - Analysis of Variants Associated with Cystic Fibrosis (CFTR) in Relation to the Known Pathogenic Variant DeltaF508 - Make it stand out Figure 2. Conservation. The chart shows a sliding window calculation for the first1000 amino acids of the CFTR protein (out of 1480 amino acids in total),identifying the most selected and conserved linear motifs. Highlighted in red are the amino acid positions 493, 496, 500, 508, and 515. A zoomed in view of a selected group of amino acid positions ranging from position 490 to 520 are shown in a red box. Amino acid positions highlighted in red represent the five amino acid positions (Q493,W496, G500, F508, and Y515) in which the following variants/variations occur:Q493P, W496R, G500D, and Y515C as well as deltaF508 (associated with Cystic Fibrosis). The numbers above the highlighted sections represent the percent of sequences with synonymous/nonsynonymous variants throughout evolution. Those amino acids positions with a high number of synonymous variants (also referred to as silent mutations) throughout evolution have resulted in a relatively unmodified amino acid sequences, expression of the genes, and phenotypes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a7169d68-27c3-476d-ad93-d227eefad11b/1428201-figure-3-variant-impact-scatterplot.jpg 2021, December - Analysis of Variants Associated with Cystic Fibrosis (CFTR) in Relation to the Known Pathogenic Variant DeltaF508 - Make it stand out Figure 3. Variant Impact Scatterplot. The scatterplot demonstrates the variant impact scoring for all TOPMed/gnomAD (gray), ClinVar (likely pathogenic-green, pathogenic-magenta, variants of uncertain significance-cyan), and Phe508del (also referred to as deltaF508, yellow) variants for CFTR. Q493P, W496R,G500D, and Y515C variants for CFTR are highlighted in red. SincePhe508del (deltaF508) is a nonsense variant which results in an open reading frame shift, the impact score was found by averaging all amino acid positions after 508. The impact scores for Q493P, W496R, G500D, and Y515C were approximately51, 93, 147, and 103 respectively. The impact score for deltaF508 was approximately 110. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/268f1560-0af4-47aa-a4db-1184fe71dc95/1428201-figure-4-carbon-alpha-rmsf.jpg 2021, December - Analysis of Variants Associated with Cystic Fibrosis (CFTR) in Relation to the Known Pathogenic Variant DeltaF508 - Make it stand out Figure 4. Carbon Alpha RMSF. The carbon alpha root mean squared fluctuation (RMSF) amino acid throughout the 20 nanoseconds of molecular. Amino acid positions Q493, W496, G500, and Y515 are highlighted. The carbon alpha RMSF for Q493, W496, G500, and Y515 were 1.21, 1.32, 1.24, and 2.81 amperes, respectively. The carbon alpha RMSF of F508 was 1.72 amperes. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9c572983-9a50-4a19-9458-4fddf0322dbe/1428201-figure-5-global-deviation.jpg 2021, December - Analysis of Variants Associated with Cystic Fibrosis (CFTR) in Relation to the Known Pathogenic Variant DeltaF508 - Make it stand out Figure 5. Global Deviation. The Global Deviation line graph shows the movement of the four variants Q493P (yellow), W496R (red), G500D (green), and Y515C (blue) throughout 20 nanoseconds of molecular dynamics simulations. https://www.jyi.org/2021-december/category/Research monthly 0.5 https://www.jyi.org/2022-january daily 0.75 2022-04-06 https://www.jyi.org/2022-january/2022/1/15/the-application-of-physics-in-sports-what-is-allowed monthly 0.5 2022-02-21 https://www.jyi.org/2022-january/2022/1/10/an-essential-accessible-platform-for-undergraduate-researchers-introducing-the-journal-of-young-investigators-editorial-article-type monthly 0.5 2022-01-12 https://www.jyi.org/2022-january/2022/1/10/signal-processing-application-to-tremor-quantification-and-diagnosis monthly 0.5 2022-01-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4ea41e0e-b880-400e-a32a-0b8fc46783ac/1438093-figure-1.jpeg 2022, January - Signal Processing Application to Tremor Quantification and Diagnosis - Make it stand out Figure 1. Experimental Setup. A Raspberry Pi 4, along with a monitor and its charging and connection cords, were used to interface with the MPU6050 (not shown) to record frequency and amplitude values of tremors. The PASCO String Vibrator, powered by the Instek AFG-2125 function generator, was used to input frequencies for trial testing. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/64267c16-b069-4112-9cf4-804938d032a7/1438093-figure-2.jpg 2022, January - Signal Processing Application to Tremor Quantification and Diagnosis - Make it stand out Figure 2. Concept of Operation. The system is based on a cycle that starts with a patient presenting a tremor. Information from the patient and tremor is obtained through the different system processes so that a physician can assess a patient with the most accurate diagnosis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/574304da-4c6f-41ba-a4de-8a2ba7ff8246/msedge_2022-01-12_14-13-11.png 2022, January - Signal Processing Application to Tremor Quantification and Diagnosis - Make it stand out Table 1. Comparison of 5Hz signal results for resting and action activation method. This table shows the frequency and amplitude values extracted from each of the simulated tremors. These data are very similar, yet it yields to different medical conditions because of the activation method through which it was obtained. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4af9594d-fe1c-4ba0-81be-59f28996b48e/1438093-figure-3.png 2022, January - Signal Processing Application to Tremor Quantification and Diagnosis - Make it stand out Figure 3. Graph of a 5Hz signal for a resting activation method. A 5Hz tremor was simulated using the PASCO string vibrator. The setting for this trial was that of a resting activation method. Data were recorded every 0.01 seconds for 20 seconds total. As seen on the frequency graph, there is a spike at 5Hz, which shows that our system is recording the correct values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/28c40be0-cdbe-439b-8415-e813928b0fd2/1438093-figure-4.png 2022, January - Signal Processing Application to Tremor Quantification and Diagnosis - Make it stand out Figure 4. Graph of a 5Hz signal for an action activation method. A 5Hz tremor was simulated using the PASCO string vibrator. The setting for this trial was that of an action activation method with a postural action test. Data were recorded every 0.01 seconds for 20 seconds total. As seen on the frequency graph, there is a spike at 5Hz, which shows that our system is recording the correct values. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/96050aa8-20df-4581-8ad6-3d1aa850529c/1438093-figure-5.png 2022, January - Signal Processing Application to Tremor Quantification and Diagnosis - Make it stand out Figure 5. Graph of an 8Hz signal for an action activation method. An 8Hz tremor was simulated using the PASCO string vibrator. The setting for this trial was that of an action activation method with a kinetic/isometric action test. Data were recorded every 0.01 seconds for 20 seconds total. As seen on the frequency graph, there is a spike at 8Hz, which shows that our system is recording the correct values. https://www.jyi.org/2022-january/2022/1/12/press-release-the-journal-of-young-investigators-officially-rolls-out-editorials monthly 0.5 2022-04-14 https://www.jyi.org/2022-january/category/Press+Release monthly 0.5 https://www.jyi.org/2022-january/category/Research monthly 0.5 https://www.jyi.org/2022-january/category/Editorial monthly 0.5 https://www.jyi.org/2022-february daily 0.75 2022-02-05 https://www.jyi.org/2022-february/2022/2/2/press-release-title-expediting-tremor-diagnosis-using-signal-processing-devices monthly 0.5 2024-11-02 https://www.jyi.org/2022-february/2022/2/2/a-new-test-strip-is-able-to-satiate-sars-cov-2s-sugar-craving monthly 0.5 2022-04-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/eeff260a-5382-4d03-b33f-6b4c523f0644/oc1c01080_0001.jpeg 2022, February - A New Test Strip Is Able to Satiate Sars-Cov-2’s Sugar Craving - Make it stand out IMAGE SOURCE: https://pubs.acs.org/doi/abs/10.1021/acscentsci.1c01080# https://www.jyi.org/2022-february/2022/1/26/viruses-the-good-and-the-bad monthly 0.5 2022-02-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/337f7943-99a5-4841-ba19-864ddcba7804/Picture2.jpg 2022, February - Viruses: The Good and the Bad - Make it stand out Structure of a virus (SOURCE: https://www.sciencelearn.org.nz/resources/184-virus-strains) https://www.jyi.org/2022-february/2022/1/30/therapeutic-targets-for-resistant-small-cell-lung-cancer-determined-through-bioinformatic-analyses monthly 0.5 2022-02-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3670910f-8004-41c9-8ea4-933abf57c932/Figure1.jpg 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Figure 1. Inhibition of DNA repair mechanisms. (a-b) Poly-ADP-ribose polymerase (PARP) a. The PARP polymerase is attracted to the site of the single strange break (SSB), which induces PARylation or the gathering of ADP ribose at the enzyme. The resulting complex then recruits other DNA repair enzymes that work with PARP to repair the SSB. b. The PARP inhibitor binds to a domain of the polymerase to prevent PARylation and the recruitment of other enzymes, evading DNA repair. PARP trapping, where the polymerase is tightly binding to the SSB, occurs until a double strand break forms. Apoptosis is a result of accumulating unrepaired DNA. ((Keung, Wu, & Vadgama, 2019) (c-d) Checkpoint Kinase 1 (CHK1) c. Ubiquitous loss of TP53 and RB1 prevents cell cycle from stopping at the G1 and S phase for DNA repair. CHK1 is necessary to stop cell cycle for DNA repair at the G2 or M phase. d. The CHK1 inhibitor deactivates CHK1. Cell cycle arrest never occurs, and DNA is not repaired, resulting in cell death. (Ferry et al., 2011) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a1058b4b-f227-40ee-9dd9-bc406a6b3843/InDesign_2022-01-30_14-02-04.png 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Table 1. Quality control thresholds for each dataset. The percentage of mitochondrial DNA (mtDNA) and number of RNA counts were accounted for when classifying poor quality cells that would be excluded from analysis in this study. Cells remaining after removing poor quality cells were classified as high quality cells and are defined by the thresholds shown. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ee79a673-ec0e-4c40-9108-4c4bcc57ea8b/Figure2.jpg 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Figure 2. Heterogeneous clusters. a) UMAP plot of the talazoparib-integrated dataset. b) UMAP plot of prexasertib-integrated dataset. a-b) Presence of 7 individual clusters in both UMAP plots suggest tumoral heterogeneity. c) Bar graph representing enriched gene sets in cluster 1 of the talazoparib-integrated dataset. d) Bar graph representing enriched gene sets in cluster 2 of the prexasertib-integrated dataset. c-d) MYC genes and oxidative phosphorylation were upregulated in one cluster of each treatment type, suggesting treatment resistance. e) Bar graph representing enriched gene sets in cluster 3 of talazoparib-integrated dataset. f) Bar graph representing enriched gene sets in cluster 0 of prexasertib-integrated dataset. e-f) Apoptosis and inflammatory response were upregulated in one cluster of each treatment types, implying successful treatment response. (p < 0.001, FDR < 0,001, FWER < 0.005) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/376707af-818c-46e5-b50c-156d4c8bec49/Figure3.jpg 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Figure 3. Enriched GSEA pathways shared between talazoparib and prexasertib datasets. a) Bar graph of the top ten upregulated gene sets in the talazoparib-treated tumor cells. b) Bar graph of the top ten upregulated gene sets in the prexasertib-treated tumor cells. a-b) Enrichment of various biological pathways indicates heterogeneity in the SCLC environment (p < 0.001, FDR < 0.001, FWER < 0.005). c) Enrichment plot of the ROS and TGF-beta signaling pathways in talazoparib-treated cells from GSEA. d) Enrichment plot of the ROS and TGF-beta signaling pathways in prexasertib-treated cells from GSEA. c-d) Enrichment plots are heavily skewed to the left, indicating upregulation in the treated conditions. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/001ac23e-1979-4e41-91ee-09f0a46b7a0b/Figure4.jpg 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Figure 4. Differential expression of leading edge subset genes associated with the reactive oxygen species pathway. a) Dot plot of the first ten genes in the leading edge subset of the ROS pathway in the talazoparib-treated samples, and violin plots of TXN, TXNRD1, NDUFB4, and LAMTOR5. b) Dot plot of the first ten genes in the leading edge subset of the ROS pathway in the prexasertib-treated samples, and violin plots of TXN, TXNRD1, NDUFB4, and LAMTOR5. a-b) TXN, TXNRD1, NDUFB4, and LAMTOR5 were common, highly contributive genes in the ROS pathways of both treatment types. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/0bc5b7d2-9eee-477d-85e2-39da245238c9/Figure5.jpg 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Figure 5. Differential expression of leading edge subset genes associated with the TGF-beta signaling pathway. a) Dot plot of the first 10 genes in the leading edge subset of the TGF-beta signaling pathway in the talazoparib-treated samples, and violin plots of HDAC1, CTNNB1, and SLC20A1. b) Dot plot of the first 10 genes in the leading edge subset of the TGF-beta signaling pathway in the prexasertib-treated samples, and violin plots of HDAC1, CTNNB1, and SLC20A1. a-b) HDAC1, CTNNB1, and SLC20A1 were common, highly contributive genes in the TGF-beta signaling of both treatment types. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e682f228-e98f-4040-9d77-f12e4c302d31/Figure6.jpg 2022, February - Therapeutic Targets for Resistant Small Cell Lung Cancer Determined Through Bioinformatic Analyses - Make it stand out Figure 6. Survival analysis of TXN in lung adenocarcinoma and lung squamous cell carcinoma. Upregulation of TXN in the high TXN group shows a significant, negative impact on survival outcome in lung adenocarcinoma and lung squamous cell carcinoma compared to the low TXN group. Although previous studies have not correlated upregulated TXN to the survival outcome of SCLC, this analysis supports the possibility that there exists a relationship. Analysis was performed using GEPIA2. (p < 0.03) https://www.jyi.org/2022-february/category/News+Feature monthly 0.5 https://www.jyi.org/2022-february/category/Press+Release monthly 0.5 https://www.jyi.org/2022-february/category/Research monthly 0.5 https://www.jyi.org/2022-march daily 0.75 2022-04-06 https://www.jyi.org/2022-march/2022/4/5/press-release-nanotechnology-the-future-of-brain-tumour-treatment monthly 0.5 2022-06-16 https://www.jyi.org/2022-march/2022/3/1/nanotechnology-a-better-diagnosis-and-treatment-strategy-for-brain-tumour monthly 0.5 2022-03-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2a2a050b-e263-48d2-93f9-e530df508ba3/1438307-figure-1.jpg 2022, March - Nanotechnology: A Better Diagnosis and Treatment Strategy for Brain Tumour? - Make it stand out Figure 1. Transport mechanisms across the BBB. Passive targeting across the BBB involves paracellular and transcellular diffusion of small, highly lipophilic molecules and nanoparticles that are smaller than 10nm in size. Molecules that are unable to diffuse through the BBB, such as drugs used for active targeting, are facilitated across the BBB by carrier-mediated transcytosis, adsorptive-mediated endocytosis or receptor-mediated endocytosis to reach the tumour site. In addition, active efflux pumps expressed at the BBB hinder the drug accumulation and reduce the effect of chemotherapeutics as they remove the drug from the CNS. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f45fa464-53f2-4df8-967f-608ee2e83ca2/1438307-figure-2.jpg 2022, March - Nanotechnology: A Better Diagnosis and Treatment Strategy for Brain Tumour? - Make it stand out Figure 2. Comparison between nanoparticles involved in passive and active targeting. Nanoparticles (e.g. liposomes, dendrimers, polymeric nanocarriers, etc.) carrying various anti-cancer drugs can cross the BBB either by passive or active targeting. Passive targeting involves diffusion across the BBB while active targeting involves the conjugation of ligands (eg. proteins, carbohydrates, oligonucleotides, etc.) to nanoparticles for higher specificity and uptake of drug at the tumour site. https://www.jyi.org/2022-march/2022/2/28/green-fluorescent-protein-its-development-protein-engineering-and-applications-in-protein-research monthly 0.5 2022-03-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b4ebe6b6-9c8b-400a-85b9-af4f58d821c5/WINWORD_2022-02-26_21-19-14.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 1. Side view (left) and axial view (right) of GFP's crystal structure. Chromophore is shown in a ball-stick model. Note the unique β-barrel structure of GFP. This enclosed structure is essential for chromophore maturation and GFP fluorescence. This explains why other proteins containing the same Ser-Tyr-Gly motif do not fluoresce (PDB code: 1EMA). Figure was generated using UCSF Chimera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/5dca83fc-d467-41a8-a476-5fec02a30e2a/2.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 2. Maturation mechanism of GFP chromophore. Gly-67 is the most critical residue. As the only amino acid with a H atom as its side chain, glycine has remarkable conformational flexibility, permitting its amide nitrogen to attack the carbonyl of Ser-65 at the correct trajectory (Bürgi–Dunitz angle). Thus, Gly-67 is highly conserved among all GFP variants. Figure was generated using ChemDraw. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c58c3bd9-f9e3-49f9-868f-45332bbf632e/3.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 3. 3D view of the hydrogen bonds between the chromophore and amino acid residues of β-strands. These are crucial for the photochemistry of the chromophore. Note that Thr-203 participates in the solvation of the phenolate chromophore, but not the phenolchromophore. Ionisation of phenol causes the -OH group of Thr-203 to rotate such that the H atom of hydroxyl group can solvate phenolate (PDB code: 1EMA). Figure was generated using UCSF Chimera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2214de1d-c6c2-4b7f-91ad-4100fd55c106/WINWORD_2022-02-26_21-36-22.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 4. Rainbow colours of GFP. (Top) A San Diego beach scene drawn using eight different FPs derived from GFPs and RFPs, created by the laboratory of Roger Tsien. (“San Diego beach scene drawn with an eight colour palette of bacterial colonies expressing fluorescent proteins derived from GFP and red-fluorescent coral protein” by Nathan Shaner is licensed under CC BY-SA 3.0). (Bottom) From left to right: Enhanced blue fluorescent protein (EBFP), ECFP, EGFP, Citnine, mHoneydew, mBanana, mOrange, tdTomato, mTangerine, mStrawberry, mCherry, mGrape-1, mRaspberry, mGrape-2, mPlum. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b379e427-7218-4552-89d1-e93d3d02dcc9/5.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 5. The network of electrostatic interactions formed by alternating positively (R30 and R122) and negatively charged (E32 and E115) residues across β-strands of GFP. Arg-30 is positively charged and large enough to strong electrostatic attractions between Glu-17 and Glu-32. Ser-30 is too small to form the linkage between Glu-32 and Glu-17 and it is neutral (PDB code: 2B3P). Figure was generated using UCSF Chimera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/0433d98c-e962-4550-a456-deb40942face/WINWORD_2022-02-26_21-46-43.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 6. Crystal structure of split-GFP. (Left) Tripartite split-GFP. GFP10 and 11 [forest green and yellow] are detached from GFP1-9. (Right) Bipartite split-GFP. GFP11 [magenta] are detached from GFP1-10 (PDB code: 2B3P). These segments of GFP can be co-expressed with other proteins to detect PPIs. In PCA, when the “bait” and “prey” proteins interact, these segments auto-assemble and GFP fluoresces. Figure was generated using UCSF Chimera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e902d770-78d0-4e7f-a3b3-4d47a176e1b6/7.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 7. A diagram of linkages between subcellular components with statistically significant PPIs. Proteins from respective linked subcellular components have a higher propensity to interact with each other. Figure was generated using ChemDraw. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/782eef31-494d-45bc-b5be-f4e3433d1253/8.jpg 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 8. Confocal microscopy of Buffalo Green Monkey cells (GFP1-10) transduced with mCherry-GM130 infected with CVB3 (GFP11). Green fluorescence from GFP indicates the emergence of 3A proteins, while fading red fluorescence from mCherry indicates dissociation of Golgi. (Reproduced with permission of van der Schaar et al., 2016) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d7204850-39b7-477e-a4be-7862d0714eba/9.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 9. Crystal structure of fusion InlC-GFP. The C-terminus of InlC [cyan] is linked to the N-terminus of GFP11 [orange] with a flexible linker. InlC-GFP11 complements with GFP1-10 [blue] to produce fluorescent InlC-GFP. The structure is combined from two separate models (PDB codes: 1XEU and 1GFL). Figure was generated using UCSF Chimera. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d6e99ef1-b6ca-4a05-8977-eea35ff3330d/10.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 10. General strategy for tagging Listeria virulence proteins with bipartite split-GFP. Host cell was firstly transfected with a DNA encoding nonfluorescent GFP1-10 fragment. Listeria cells were electroporated with pAT18 plasmids expressing nonfluorescent fusion InlC-GFP11 protein. Host cells were then infected with these Listeria cells. Upon secretion of InlC-GFP11, two GFP fragments complement to produce a fluorescent GFP. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e01c2d44-683e-4c8d-ac4b-648236b25bd5/11.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 11. Fluorescent-emitting mechanismof tripartite split-GFP system. Protein A and Protein B are fused to GFP10 or GFP11, respectively. Protein A interacts with Protein B, bringing two small GFP fragments (GFP10 and GFP11) into close proximity. Under the co-expression of GFP1-9, all these GFP fragments reconstitute to form a functional GFP. Figure was generated using ChemDraw. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f9288e50-37b0-4e20-a8af-f4d1388f1306/12.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 12. Schematic diagram showing rapamycin-induced FRB-FKBP12 interactions, which can be detected by tripartite split-GFP complementation. The diagram shows the mechanism of rapamycin-mediated FRB-GFP10 and FKBP12-GFP11 interaction, followed by GFP1-9 complementation and emission of GFP fluorescence. Figure was generated using ChemDraw. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f2b6cc45-6093-4c34-bb96-3f37192fcdf2/13.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 13. Schematic diagram showing indirect protein association of YheNML, which can be detected by tripartite split-GFP complementation. The diagram shows the mechanism of YheM-mediated YheN-GFP10 and YheL-GFP11 interaction, followed by GFP1-9 complementation and emission of GFP fluorescence. Figure was generated using ChemDraw. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/aaad95fd-0058-4667-ac39-b3d3de5f7822/WINWORD_2022-02-26_22-09-59.png 2022, March - Green Fluorescent Protein: Its Development, Protein Engineering, and Applications in Protein Research - Make it stand out Figure 14. “FlipGFP” as a protease activity reporter. (A) Sensor construct containing GFP10, GFP11 and E5/K5 coiled-coil domains. (B) E5/K5 inverts the orientation of GFP11. This conformation blocks their complementation with GFP1-9. Protease cleavage frees up GFP11, which align anti-parallelly with GFP10, allowing the reconstitution of the functional GFP. Figure was generated using ChemDraw. https://www.jyi.org/2022-march/category/Press+Release monthly 0.5 https://www.jyi.org/2022-march/category/Research monthly 0.5 https://www.jyi.org/2022-march/tag/blood-brain+barrier monthly 0.5 https://www.jyi.org/2022-march/tag/toxicity monthly 0.5 https://www.jyi.org/2022-march/tag/targeted+therapy monthly 0.5 https://www.jyi.org/2022-march/tag/glioblastoma monthly 0.5 https://www.jyi.org/2022-march/tag/nanoparticles monthly 0.5 https://www.jyi.org/2022-march/tag/mouse+model monthly 0.5 https://www.jyi.org/2022-march/tag/nanotechnology monthly 0.5 https://www.jyi.org/2022-march/tag/nanomedicine monthly 0.5 https://www.jyi.org/2022-march/tag/clinical+trials monthly 0.5 https://www.jyi.org/2022-march/tag/passive+targeting monthly 0.5 https://www.jyi.org/2022-march/tag/active+targeting monthly 0.5 https://www.jyi.org/2022-april daily 0.75 2022-04-06 https://www.jyi.org/2022-april/2022/4/6/press-release-the-neutron-chopper-in-advanced-manufacturing monthly 0.5 2025-04-22 https://www.jyi.org/2022-april/2022/4/1/locating-supermassive-black-holes-in-distant-galaxies-via-radio-galaxy-zoo-lofar-project monthly 0.5 2022-04-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2ad021ad-794d-43b2-b60e-c992be80ce73/bh1.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 1. The Merger of Two Galaxies. The collision between two galaxies begins with the unraveling of the spiral disks. This HST image shows the interacting pair of galaxies NGC 2207 (the larger, more massive object on the left) and IC 2163 (the smaller one on the right), located some 114 million light-years from Earth. (Melia, 2007) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/363bbe16-cf2c-42b4-beae-8d8b9f67aad6/bh2.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 2. Motion of Stars. The positions of stars surrounding the Milky Way's centre have been calculated. The rings depict annual measurements of the location of various stars recorded with the W. M. Keck Telescopes' infrared observations. (Hickox, 2011) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/96f44c15-14a5-4314-ba5e-b7329a494c01/bh3.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 3. Knowing the Interface. The figure is the representation of how the Zooniverse’s platform looks like for this particular project. The buttons and navigations provided at the corners perform various functions. Image Courtesy: (Radio Galaxy Zoo: LOFAR, n.d.) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c12659ab-b014-4d54-a1ea-efd2530208e5/bh4.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 4. Contours and Blue Ellipses. The contour lines in this figure are yellow, and they show the detection of radio emissions. Blue ellipses give us information about the areas where the radio emissions we're looking at are coming from (Radio Galaxy Zoo: LOFAR, n.d.). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/84864532-daa3-44f2-9707-7317f9bc0ca9/bh5.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 5. Marking of Ellipses. Looking at the dispersion of contour lines in the figure, the marker is placed inside the dashed ellipses that are believed to be surrounding parts of the solid ellipse (Radio Galaxy Zoo: LOFAR, n.d.). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d862a800-ad5a-4ee5-983d-d0afd408ea09/bh6.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 6. Marking the Optical Counterpart. The optical counterpart must be identified as the only source from which the contour lines appear to have originated as depicted in the figure. Image Courtesy: (Radio Galaxy Zoo: LOFAR, n.d.) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7579e10f-490d-4b30-a989-b934446bec0b/bh7.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 7. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f65a393d-23a6-45d7-beca-3f60a1263073/bh8.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 8. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ca844729-d017-40ac-b5b6-6c9cb6c13343/bh9.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 9. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/bd4cbe0f-8c10-46fe-acc5-87c5628854aa/bh10.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 10. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/026f7aaa-66c3-4c67-8a2e-f400ebab68ca/bh11.jpg 2022, April - Locating Supermassive Black Holes in Distant Galaxies via RADIO GALAXY ZOO: LOFAR Project - Make it stand out Figure 11. Classified Images. (a) This is the case of Barely Resolved Double Lobed Symmetrical Source. No particular optical counterpart can be located in it as the source is farther away. The set of contour lines tell us about the strength of the source. More compact the contour lines, more is the strength. (b) This is the case of Small Double-Lobed Source as the two lobes are touching each other through a narrow bridge. The optical counterpart is located in the middle. (c) This is the case of an Artefact because the radio contours seem to have no real origin. No particular optical counterpart can be detected. (d) This is the case of Nearby Stars and Artefacts. Due to the disruption of radio emissions from its potential source due to a nearby star, we are not able to locate the optical counterpart. (e) It is a case of Blend because here the contours seem to be mixed up with each other due to presence of two or more radio sources. (f) This is a Diffuse Radio Source. There is no optical counterpart. It should not be mixed with ‘blend’ because there is only a single radio source. It should also not be classified as ‘missing image’ because not all the data from the optical image is lost. (g) This is the case of Large (Unconnected) Double Lobed Sources. This is possible because the two lobes might be very far apart. No optical counterpart is detected. (h) This is the case of Two Different Set of Contours from Two Different Sources. The contour emission towards left has an optical counterpart in the middle. The opposite set of contour lines (towards right), on the other hand, has no optical counterpart (Radio Galaxy Zoo: LOFAR, n.d.). https://www.jyi.org/2022-april/2022/4/1/what-genetic-counselors-bring-to-tech-a-conversation-with-jackie-tahiliani-ms-lcgc monthly 0.5 2022-04-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f0009b85-54dd-4f8e-983c-731571f34fd2/jackie_t-1.600x600.png 2022, April - What Genetic Counselors Bring to Tech: A Conversation with Jackie Tahiliani, MS, LCGC - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2022-april/category/Science+Careers monthly 0.5 https://www.jyi.org/2022-april/category/Press+Release monthly 0.5 https://www.jyi.org/2022-april/category/Research monthly 0.5 https://www.jyi.org/2022-april/tag/supermassive+black+holes monthly 0.5 https://www.jyi.org/2022-april/tag/zooniverse monthly 0.5 https://www.jyi.org/2022-april/tag/citizen+science monthly 0.5 https://www.jyi.org/2022-april/tag/active+galactic+nuclei monthly 0.5 https://www.jyi.org/2022-april/tag/Radio+Galaxy+Zoo monthly 0.5 https://www.jyi.org/2022-may daily 0.75 2022-05-20 https://www.jyi.org/2022-may/2022/5/3/press-release-how-can-we-keep-covid-19-cases-to-a-minimum-at-school monthly 0.5 2022-05-04 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/bec5180f-c2b2-4315-8ae3-b082752e9942/press+release+may+2022.png 2022, May - Press Release: How Can We Keep COVID-19 Cases to a Minimum at School? - Make it stand out Figure 1. CFD model tracer lines depicting flow of air in the classroom (image provided by the authors of the main article) https://www.jyi.org/2022-may/2022/5/3/astronomers-turn-to-the-brightest-entities-in-the-universe-to-understand-the-secrets-of-the-darkest-entities monthly 0.5 2025-02-09 https://www.jyi.org/2022-may/2022/4/25/minimizing-covid-19-aerosol-transmission-in-enclosed-classroom-spaces monthly 0.5 2022-05-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/eac19421-7bdc-4723-83f0-80c8446c8589/Table1.png 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9ae5c0e6-6491-467d-bfc4-bbecf90e771f/mid_full_labels.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 1. The students are approximately 1 m apart from each other. Their height relative to the professor and the room is approximated as a sitting position. The “In-Vents” deliver air into the room and the “Out-Vents” propel air out of the room. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ecf7b426-d58f-4ec2-b8dc-4193fea7e18c/mid_323_labels.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 2. The students are arranged in a staggered position with seven total students approximately 1.5 to 2 m apart. This setup is identical to the full room in Figure 1 but with students removed from every other desk space. Their height relative to the professor and the room is approximated as a sitting position. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/585144d4-46fc-468b-8af0-0c2f4bf5e663/mid_box+ap_labels.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 3. The box-shaped AP features directed flow, meaning the air enters and exits along the same direction. The green arrows represent the region where air enters the purifier and the orange arrows represents the direction with which it exits. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d8f53b18-8625-4e75-95a7-a03621cffa28/mid_circle+ap_labels.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 4. The circular AP features radial flow, meaning the air is taken in from all directions perpendicular to the side of the AP and expelled upwards. The green arrows represent the region where air enters the purifier and the orange arrows represents the direction with which it exits. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/49326352-8a6a-4104-8343-bbf2ae397f96/mid_box+ap_labels_mid+z.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 5. The arrangement is the same as that of the full room described in Figure 1 and the box-shaped AP is the same as described in Figure 3. However, the AP is now moved to the middle of the room in between students’ desks and turned to align with the z-axis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/71c197b5-13aa-467b-8c4f-f7f8d1cbe532/mid_box+ap_labels_mid+x.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 6. The arrangement is the same as that of the full room described in Figure 1 and the box-shaped AP is the same as described in Figure 3. However, the AP is now moved to the middle of the room in between students’ desks and turned to align with the x-axis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/75e1603f-7b42-4dc0-84be-0842dff58f5e/mid_circle_ap+clean+flow_corner+desk.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 7. The dark grey particle tracer lines depict the flow pattern of the filtered air after it exits the air purifier. We see that the clean air ejects from the top of the AP and flows more sporadically throughout the room, concentrating in the region adjacent to the left of the AP. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ca00ae94-b771-41d5-81be-1027efdb30d4/mid_circle_ap+clean+flow_mid.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 8. The dark grey particle tracer lines depict the flow pattern of the filtered air after it exits the air purifier. The same AP from Figure 25 is moved to another location. Air disperses in multiple directions, mostly running parallel to the desks between which the AP is placed. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e05cdf5f-52b0-4d8d-a0a6-192247dfc98a/no+stream.JPG 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 9. Simplified model of a semicircular auditorium in a tiered structure with differing elevations. Students and a professor in the front of the classroom are approximated as blocks behind desks. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ec4f0fdd-f0b8-43cc-b389-d8e4c2db5a7f/overhead+view+%281%29.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 10. Airflow of the students’ exhalation after they are arranged in a concentric ring formation as depicted in Figure 33. We see that the vortices shown in Figure 31 are now resolved and air instead gathers more so at the front of the room where the outlets are located. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d9f38a48-754a-4235-a8ae-f7dfbb6bc3fb/eq1.png 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c70838f6-a2a0-4079-81ed-4cbbb4c1abdb/mid_full_all+close+1.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 11. The first of two angles of the same set of particle tracers. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. The exhalation naturally forms vortices that cycle in various corners of the room as depicted by the different tracer colors. Pockets of heavy cross contamination form as a result. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e75f3ae3-b89f-4d0f-a22b-8b0d061a1b12/mid_full_all+close+2.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 12. The second of two angles of the same set of particle tracers. See Figure 11 description for additional information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/93091229-d868-41d0-a151-f16a1c40212a/mid_full_door+only+1.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 13. The first of two angles of the same set of particle tracers. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. We see that with the door open, air escapes from the right side of the room through the door. This reduces the concentration of exhalation on the right side of the room compared to Figures 32 and 33. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4f6ee048-e918-4662-a6a7-8acd1e0af258/mid_full_door+only+2.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 14. The second of two angles of the same set of particle tracers. See Figure 13 description for additional information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c8804b15-5796-4ae4-8396-6c6933db0e33/mid_full_door+window+1.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 15. The first of two angles of the same set of particle tracers. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. With the window and door open, we see air escaping both the right and left sides of the room. The concentration of exhalation noticeably decreases on the left side of the room compared to Figures 11 and 12. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d6caf7ca-0201-49d0-95a5-d6c3fbfb35bb/mid_full_door+window+2.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 16. The second of two angles of the same set of particle tracers. See Figure 15 description for additional information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d1203b98-94b6-47df-ae57-f544b38b26b1/mid_323_door+only.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 17. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. We see a similar pattern to Figures 13 and 14 where the concentration of particles on the right side of the room is considerably lower because of the open door, especially compared to the left side. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fe9cab1e-71de-4fbd-b0d5-4715117a1038/mid_323_door+window+1.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 18. The first of two angles of the same set of particle tracers. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. Paying attention to the window and door segments of the room, we see considerable decrease in the exhalation concentration in both regions. As a result, we see that the orange, blue, and red tracers minimally overlap, which indicates that there is reduced air cross contamination. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/94a45652-c395-4748-b257-78042a8d4abe/mid_323_door+window+2.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 19. The second of two angles of the same set of particle tracers. See Figure 18 description for more information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d9ead958-01d0-42fd-b929-66e32b48c3b3/mid_box+ap_clean+flow.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 20. The dark gray particle tracer lines depict the flow pattern of the filtered air after it exits the AP. We see that the clear air moves around the room, covering the edges, and returns back to the AP in a large circular shape. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6e033238-1887-43c7-b026-d8c02711b4c4/mid_box+ap_tracers+1.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 21. The first of two angles of the same set of particle tracers. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. Here, the students’ exhalation follows a similar pattern to the clean air flow originating from the AP. The exhalation cycles back to the AP signifying effective clean air circulation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/61b57e28-367f-4053-a12d-548ebd9c57de/mid_box+ap_tracers+2.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 22. The second of two angles of the same set of particle tracers. See Figure 21 description for additional information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ff190c49-327c-4d72-9fd0-e5bde794296a/mid_box+ap_clean+flow_mid+z.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 23. The dark gray particle tracer lines depict the flow pattern of the filtered air after it exits the AP. The exiting air deflects off of the surrounding desks and moves upward into different corners of the room. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2964cb1f-dac5-4f0e-a884-441606ba8f0c/mid_box+ap_clean_+mid+x.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 24. The dark gray particle tracer lines depict the flow pattern of the filtered air after it exits the AP. Although flow pattern is different from Figure 23, the students and desks surrounding the AP still serve as obstacles which deflects the flow of air upward towards the roof of the room. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b99fa6f2-bfb3-452c-96eb-e5805384ac72/mid_circle+ap_clean+flow.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 25. The dark gray particle tracer lines depict the flow pattern of the filtered air after it exits the AP. We see that the clean air ejects from the top of the AP and flows more sporadically throughout the room, concentrating in the region adjacent to the left of the AP. The same AP from Figure 7 is moved to another location. The clean air flow patterns follows that of Figure 7, where clean air concentrates adjacent to the AP and does not circulate throughout the room. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3a9233bb-8442-4f9a-94bf-1520894fc81c/mid_circle+ap_tracers+1.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 26. The first of two angles of the same set of particle tracers. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. A large vortex forms in the middle of the room with a mix of many different colored tracers. Other regions of the room receive less circulation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/0e3d9ad4-1f32-446a-b864-144016660a8e/mid_circle+ap_tracers+2.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 27. The second of two angles of the same set of particle tracers. See Figure 26 description for additional information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/92bfa6b1-a644-4554-9dfc-44394774d3b5/mid_circle_ap+tracers_corner+desk.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 28. The first of two scenarios where the same circular AP is placed in two different locations. Each tracer color represents the exhalation from a different student. Not all students’ exhalation paths are shown. In both scenarios, the exhalation flow becomes jumbled near the AP and does not cycle throughout the room. In Figure 28, several spirally vortices can be seen in the region adjacent to the AP highlighted by orange and red tracers. In Figure 29, a mix of yellow, green, red, and blue tracers concentrate near the AP. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a9151ff9-ca62-4cb6-b6cf-fd2d02933fbe/mid_circle_ap_tracers_mid.jpeg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 29. The second of two scenarios where the same circular AP is placed in two different locations. See Figure 28 description for additional information. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c03637a6-2987-493b-b667-adab7a74d199/global+stream.JPG 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 30. The airflow in the lecture hall based on ventilation with inlets at the top back of the classroom and outlets in the top front is represented by the blue lines. As shown, they form two symmetrical circular patterns moving along the walls. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4698ee21-0c37-46ab-887e-ac1a10f20fba/breath+stream.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 31. Particle flow through the room assuming each individual is exhaling. We see that the exhalation patterns largely follow the ventilation in the room as depicted in Figure 30. Students at the center of both halves of the lecture hall reside in the areas of the room with the most concentrated cross contamination of exhalation. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/135ad5f3-796e-4988-ab46-7b4cdb464a6f/front+iso+view+%281%29.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 32. Two angles of the airflow of the students’ exhalation after they are arranged in a concentric ring formation as depicted in Figure 33. We see that the previous vortices shown in Figure 31 and now resolved and air instead gathers more so at the front of the room where the outlets are located. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/04a815cf-2906-41da-ba55-d2a265fc0f0b/eq2.png 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/29dbc5e6-2b36-4d9c-a7f8-4f3d8e019ac8/possible_arrangement.jpg 2022, May - Minimizing COVID-19 Aerosol Transmission in Enclosed Classroom Spaces - Make it stand out Figure 33. Possible seating chart for this auditorium, designed to limit the amount of expired air that flows directly between students. Seats with the yellow marker representing ideal seats. The goal is to seat students in a ring around the central region of the lecture hall and limit the number of students in that central region where the cross contamination is most concentrated as depicted in Figure 31. https://www.jyi.org/2022-may/category/News+Feature monthly 0.5 https://www.jyi.org/2022-may/category/Research monthly 0.5 https://www.jyi.org/2022-may/category/Press+Releases monthly 0.5 https://www.jyi.org/2022-june daily 0.75 2022-05-31 https://www.jyi.org/2022-june/2022/5/27/physics-of-sports-how-much-is-too-much monthly 0.5 2022-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2150b98b-b8d7-441a-ae91-13d73ffa30aa/Picture1.png 2022, June - Physics of Sports: How Much Is Too Much? - Make it stand out Figure 1. Forces acting on a spinning ball (Asal et al., 1998). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7c222c06-84af-4a33-92c1-4130591a2167/Picture2.png 2022, June - Physics of Sports: How Much Is Too Much? - Make it stand out Figure 2. Chronophotographs of shuttlecocks changing in direction midair so that the cork base always leads the way after an impact with a racket (Zyga, 2015). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/43674d5b-60f6-46fe-b969-054eec997184/Picture3.png 2022, June - Physics of Sports: How Much Is Too Much? - Make it stand out Figure 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/69ecf677-137c-48e0-a4d5-30523cb25583/Picture4.png 2022, June - Physics of Sports: How Much Is Too Much? - Make it stand out Figure 4. Composition of Nike’s Vaporfly, with ultra-light Nike ZoomX foam as cushioning, and a full-length carbon fibre plate within the foam (Goldowitz, 2017). https://www.jyi.org/2022-june/2022/5/31/press-release-shedding-light-on-protein-activities monthly 0.5 2023-06-25 https://www.jyi.org/2022-june/2022/5/31/thymus-their-role-in-preventing-autoimmunity-and-new-developments-in-study-tools monthly 0.5 2022-06-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/49cac81c-7524-4e21-8123-0486da9efca2/JYI+news+article+figure_Len+Jia+Soon+%281%29.png 2022, June - Thymus, Their Role in Preventing Autoimmunity and New Developments in Study Tools - Make it stand out Figure 1. (A) PBMC (obtained from human volunteers and cord blood) and human neonatal dermal fibroblast are reprogrammed and de-differentiated to induced pluripotent stem cells (iPSCs). These iPSCs are then differentiated to thymic epithelial progenitor (TEP) cells. (B) TEP cells generated from iPSC are then transplanted into athymic nude mouse (mouse lacking functional thymus) to assess their functionality (ability to differentiate into thymic epithelial cells (TECs)). As T cells migrate to secondary lymphoid organs such as spleen after maturation, the spleen of TEP-transplanted athymic nude mice is harvested and analysed. If the spleen of athymic node mice contains mature, functional T cells, this would imply the transplanted TEP is able to perform its function of supporting T cell development. The cell populations in TEP graft is analysed and compared with human primary neonatal thymus tissue. The results indicated that the cell populations in TEO graft and human primary neonatal thymus tissue are very similar. (C) The main findings by Ramas and colleagues are shown. https://www.jyi.org/2022-june/category/News+Feature monthly 0.5 https://www.jyi.org/2022-june/category/Press+Release monthly 0.5 https://www.jyi.org/2022-june/category/Research monthly 0.5 https://www.jyi.org/2022-july daily 0.75 2022-07-25 https://www.jyi.org/2022-july/2022/7/25/statistical-analysis-of-rodent-body-weight-data-is-robust-to-departures-from-normality-in-historical-national-toxicology-program-studies-dated-1980-2013 monthly 0.5 2022-07-31 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a5bd81c2-0e34-47cd-ace5-2ea4e2a4fe91/1431328-figure-1.jpg 2022, July - Statistical Analysis of Rodent Body Weight Data is Robust to Departures from Normality in Historical National Toxicology Program Studies Dated 1980-2013 - Make it stand out Figure 1. F344/N Rat Body Weight Distributions. Boxplots depicting distribution of terminal F344/N rat body weights in NTP 90-day studies according to diet consumed and route of administration of the test article. Represented in the figure by the box is the median, first quartile, third quartile, and the vertical bars represent the 1.5*IQR. The IQR is calculated by finding the difference between the 25th percentile and the 75th percentile of the data (Diez et al. (2019)). The type of diet and dose route is denoted on the x-axis by DF = Dosed Feed, DW = Dosed Water, G = Gavage, I = Inhalation. F07 refers to females (F) given the NIH-07 diet, F00 refers to females given the NTP-2000 diet. M07 refers to males (M) given the NIH-07 diet, M00 refers to males given the NTP-2000 diet. Body weight (in grams) is on the y-axis. The number below the diet and dose route indicates how many data points are included in each boxplot. A. Body weight distribution of F344/N rats. Median female F344/N body weights are 191.7-197.5g while median male F344/N body weights are 325.0-354.3g. B. Body weight distribution of mean body weights of F344/N rats per study subgroup. The median of the mean female and male body weights are approximately the same as in A, but there are fewer data points exceeding the 1.5 IQR limits and the spread of the data is generally smaller. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ecaaf7c5-8261-492f-9b7c-d84547711a56/1431328-figure-2.jpg 2022, July - Statistical Analysis of Rodent Body Weight Data is Robust to Departures from Normality in Historical National Toxicology Program Studies Dated 1980-2013 - Make it stand out Figure 2. B6C3F1 Mouse Body Weight Distributions. Boxplots depicting the distribution of B6C3F1 mouse body weights in NTP 90-day studies according to diet consumed and route of administration of the test article. Represented in the figure by the box is the median, first quartile, third quartile, and the vertical bars represent the1.5*IQR. The IQR is calculated by finding the difference between the 25th percentile and the 75th percentile of the data (Diez et al. (2019)). The type of diet and dose route is denoted on the x-axis by DF = Dosed Feed, DW = Dosed Water, G = Gavage, I = Inhalation. F07 refers to females (F) given the NIH-07 diet, F00 refers to females given the NTP-2000 diet. Body weight (in grams) is on the y-axis. M07 refers to males (M) given the NIH-07 diet, M00 refers to males given the NTP-2000 diet.The number below the diet and dose route indicates how many data points are included in each boxplot. A. Body weight distribution of B6C3F1 mice. Female B6C3F1 mice median body weights range 26.5-31.3g and male B6C3F1 median body weights range 32.6-40.1g. B. Body weight distribution of mean body weights of B6C3F1 mice per study subgroup. The median of the male and female body weights are approximately the same as in A, but there are fewer data points exceeding the 1.5 IQR limits and the spread is generally smaller. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/bae6c0cc-af51-4a56-99e3-cdff2c04accb/1431328-figure-3.jpg 2022, July - Statistical Analysis of Rodent Body Weight Data is Robust to Departures from Normality in Historical National Toxicology Program Studies Dated 1980-2013 - Make it stand out Figure 3. Graphical Comparison of Normally Distributed vs Non-normally Distributed Samples. A, B. Distribution of body weights from 90-day female B6C3F1 mice exposed to 1,1,1-Trichloroethane (71-55-6) via dosed feed on the NTP diet. The SW test for normality (Royston (1982)) moproduced a p-value of 0.419 and therefore, the null hypothesis of a normal distribution is not rejected. C, D. Distribution of body weights from 90-day female B6C3F1 mice exposed to 2-Hydroxy-4-methoxybenzophenone (131-57-7) via dosed feed on the NIH diet. The point in blue is a point that lies beyond the 1.5 IQR (Diez et al. (2019)). The SW test for normality produced a p-value of 0.004 and therefore the null hypothesis of a normal distribution is rejected. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fd7223b1-b307-4fe0-b5f1-78605bf5d2da/1431328-figure-4.jpg 2022, July - Statistical Analysis of Rodent Body Weight Data is Robust to Departures from Normality in Historical National Toxicology Program Studies Dated 1980-2013 - Make it stand out Figure 4. Distribution of the Coefficient of Variation of Each Rodent Strain. Boxplots depicting the distribution of each strain’s coefficient of variance (CVs) for terminal body weight in NTP 90-day studies according to route of administration and diet. Represented in the figure by the box is the median, first quartile, third quartile, and the vertical bars represent the 1.5*IQR. On the x-axis, the dose route is denoted by DF = Dosed Feed, DW = Dosed Water, G = Gavage, I = Inhalation. F07 refers to females given the NIH-07 diet, F00 refers to females given the NTP-2000 diet. M07 refers to males given the NIH-07 diet, M00 refers to males given the NTP-2000 diet. The y-axis shows the range of the proportion representing the CV. The number below the diet and dose route indicates how many data points are included in each boxplot. A. Distribution of CVs for F344/N rats. The IQR ranged 0.01-0.12g. B. Distribution of CVs for B6C3F1 mice. The IQR ranged 0.01-0.15g.The IQR is calculated by finding the difference between the 25th percentile and the 75th percentile of the data (Diez et al. (2019)) https://www.jyi.org/2022-july/2022/7/1/press-release-the-power-of-parametrics monthly 0.5 2022-08-23 https://www.jyi.org/2022-july/2022/7/1/life-as-an-exceptionally-entertaining-and-energised-paediatrician-dr-nicole-phoebe-tanner monthly 0.5 2022-07-01 https://www.jyi.org/2022-july/2022/7/1press-release-harnessing-the-power-of-bioinformatics-identifying-therapeutic-targets-for-resistant-small-cell-lung-cancer monthly 0.5 2025-02-02 https://www.jyi.org/2022-july/2022/7/1/the-effect-of-transposable-elements-in-the-stem-cell-like-state-of-cancer monthly 0.5 2022-07-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/41e9dd31-dd84-4144-9863-53b82341ec64/image2.png 2022, July - The Effect of Transposable Elements in the Stem-cell-Like State of Cancer - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b5207f64-8606-4c7c-bcd9-b9fa92a0d3fb/image1.png 2022, July - The Effect of Transposable Elements in the Stem-cell-Like State of Cancer - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2022-july/category/Science+Careers monthly 0.5 https://www.jyi.org/2022-july/category/Research monthly 0.5 https://www.jyi.org/2022-july/category/Press+Releases monthly 0.5 https://www.jyi.org/2022-july/category/News+Features monthly 0.5 https://www.jyi.org/2022-august daily 0.75 2022-08-01 https://www.jyi.org/2022-august/2022/8/1/morphology-and-genetic-analysis-of-vegetative-characterization-of-four-grain-amaranth-accessions-1 monthly 0.5 2022-08-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b9afde8b-d2e8-47f6-95b4-fb8909453f3e/Screen+Shot+2022-08-01+at+19.40.54.png 2022, August - Morphology and Genetic Analysis of Vegetative Characterization of Four Grain Amaranth Accessions - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a113ef51-f60e-4628-8c59-7f6bf2a9f65b/Screen+Shot+2022-08-01+at+19.42.36.png 2022, August - Morphology and Genetic Analysis of Vegetative Characterization of Four Grain Amaranth Accessions - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7ae58831-895f-4685-a569-d06eb7c860e6/Screen+Shot+2022-08-01+at+19.43.08.png 2022, August - Morphology and Genetic Analysis of Vegetative Characterization of Four Grain Amaranth Accessions - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/bc40ab7f-4ea1-490d-8cf8-053c60b7e85b/Screen+Shot+2022-08-01+at+19.43.47.png 2022, August - Morphology and Genetic Analysis of Vegetative Characterization of Four Grain Amaranth Accessions - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2022-august/2022/8/1/do-we-need-to-worry-about-asymptomatic-covid-19-infection monthly 0.5 2022-08-01 https://www.jyi.org/2022-august/2022/8/1/behind-the-scenes-of-butterfly-wings-an-interview-with-cornell-universitys-phd-candidate-jeanne-mcdonald monthly 0.5 2022-08-01 https://www.jyi.org/2022-august/category/Science+Careers monthly 0.5 https://www.jyi.org/2022-august/category/Research monthly 0.5 https://www.jyi.org/2022-august/category/News+Features monthly 0.5 https://www.jyi.org/2022-august/tag/Vegetable+Amaranth monthly 0.5 https://www.jyi.org/2022-august/tag/Vegetative+stage monthly 0.5 https://www.jyi.org/2022-august/tag/Principal+Component+Analysis+%28PCA%29 monthly 0.5 https://www.jyi.org/2022-august/tag/correlation+coefficient monthly 0.5 https://www.jyi.org/2022-september daily 0.75 2022-12-13 https://www.jyi.org/2022-september/2022/9/1/exploring-the-effectiveness-of-safety-net-clinics-in-serving-transgender-and-non-transgender-communities monthly 0.5 2022-12-13 https://www.jyi.org/2022-september/2022/9/1/assessing-the-healthcare-needs-of-transgender-and-non-transgender-communities-accessing-care-in-safety-net-clinics-in-washington-state-and-washington-dc-mx33x monthly 0.5 2022-09-11 https://www.jyi.org/2022-september/2022/9/1/would-you-like-your-coffee-with-or-without-137-trimethylxanthine monthly 0.5 2022-10-02 https://www.jyi.org/2022-september/category/News+Feature monthly 0.5 https://www.jyi.org/2022-september/category/Research monthly 0.5 https://www.jyi.org/2022-september/category/Press+Releases monthly 0.5 https://www.jyi.org/2022-september/category/News+Features monthly 0.5 https://www.jyi.org/2022-september/tag/Healthcare+access monthly 0.5 https://www.jyi.org/2022-september/tag/Gender-affirming+care monthly 0.5 https://www.jyi.org/2022-september/tag/Minority monthly 0.5 https://www.jyi.org/2022-september/tag/Transgender monthly 0.5 https://www.jyi.org/2022-september/tag/Resources monthly 0.5 https://www.jyi.org/2022-september/tag/Safety-net monthly 0.5 https://www.jyi.org/2022-september/tag/transgender monthly 0.5 https://www.jyi.org/2022-september/tag/safety-net+clinics monthly 0.5 https://www.jyi.org/2022-september/tag/healthcare monthly 0.5 https://www.jyi.org/2022-october daily 0.75 2022-09-29 https://www.jyi.org/2022-october/2022/10/1/press-release-effect-of-processing-depth-and-delay-on-anchoring monthly 0.5 2025-01-20 https://www.jyi.org/2022-october/2022/10/1/press-release-the-bodys-built-in-cancer-fighting-system monthly 0.5 2024-12-06 https://www.jyi.org/2022-october/2022/9/29/monocytes-and-macrophages-in-the-cancer-immunity-cycle monthly 0.5 2023-06-12 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/36133b25-e05e-4a37-8d0a-623db0e22d59/Cancer_immunity_cycle.png 2022, October - Monocytes and Macrophages in the Cancer Immunity Cycle - Make it stand out Figure 1. Cancer Immunity Cycle. The cancer immunity cycle begins within the tumor microenvironment (TME), where an antigen presenting cell (APC) (green) takes up antigen from dying tumor cells (gray) (1). The APC then travels to the lymph node (2), where it activates antigen-specific T cells (purple) (3). These T cells then migrate back to the tumor site (4) where they bind to and kill tumor cells using cytotoxic enzymes (5). This cell-mediated killing gives rise to more tumor antigens that are then released into the environment, allowing the cycle to continue. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1f70273a-f168-4296-b9a0-1ef01aaa30d8/Groups+of+monocytes+and+macrophages.png 2022, October - Monocytes and Macrophages in the Cancer Immunity Cycle - Make it stand out Figure 2. Monocytes and macrophages generally divide into two groups: classical and alternative. Classical monocytes are among the first immune cells to respond to disease or damage in tissues and can differentiate into monocyte-derived Dendritic Cells (moDCs) and tissue-resident macrophages. On the other hand, alternative monocytes are more likely to differentiate into tissue-resident macrophages and patrol non-inflamed tissues. In the case of macrophages, classical macrophages are generally activated via IFNG and exhibit a pro-inflammatory phenotype. Alternative macrophages can be activated through IL-4 and IL-13, or through the STAT-6 signaling pathway, and exhibit an anti-inflammatory phenotype, secreting molecules such as TGFβ and PGE2. Both macrophage types can contribute up to 50% of the mass of a tumor. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6cc4bcaa-3dd2-44bb-8203-4c6a5292a4bf/PD1+and+CTLA-4+Checkpoint+Blockade+Therapy.png 2022, October - Monocytes and Macrophages in the Cancer Immunity Cycle - Make it stand out Figure 3. PD1 and CTLA-4 Checkpoint Blockade Therapy. The effect of PD-1 binding to PD-L1, as well as CTLA-4 to CD80/86, on the anti-tumor response can severely limit a T cell’s capacity to kill cancer cells. With checkpoint blockade therapy (anti-PD-1 and anti-CTLA-4 administration) to block these interactions, immunosuppressive signaling is prevented, allowing for the activation and migration of T cells, and therefore tumor clearance. In the case of anti-CTLA-4 therapy, the interaction between CTLA-4 on a T cell and CD80/86 on an antigen presenting cell (APC) in the lymph node is blocked, so co-stimulatory signaling can occur, leading to T cell activation and migration to the tumor site. 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monthly 0.5 https://www.jyi.org/2023-august daily 0.75 2023-09-01 https://www.jyi.org/2023-august/physics-meets-data-a-new-approach-to-computer-vision monthly 0.5 2023-09-01 https://www.jyi.org/2023-august/how-computational-immunology-has-redefined-drug-development monthly 0.5 2023-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7ff094c7-85c0-49a1-925c-8537ae4975dc/Screen+Shot+2023-09-01+at+12.35.32+PM.png 2023, August - How Computational Immunology has Redefined Drug Development - Make it stand out Chart describes the interactions between drugs and proteins. Defining drug similarity with DTI aids in repurposing the drug to similar proteins. Image sourced from https://www.nature.com/articles/s41540-022-00247-4 https://www.jyi.org/2023-august/cellular-senescence-and-aging-reduction-of-biological-age-through-senotherapeutic-peptides monthly 0.5 2023-09-01 https://www.jyi.org/2023-august/examining-the-growing-need-to-make-blood-pressure-prediction-more-equitable monthly 0.5 2023-09-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/52da9edd-b861-4c91-9a7b-c0350556deb3/Screen+Shot+2023-09-01+at+12.17.22+PM.png 2023, August - Examining The Growing Need To Make Blood Pressure Prediction More Equitable - Make it stand out Fig. 2: SBP variance explained by compared SBP PRSs. Image sourced from “Evaluating the use of blood pressure polygenic risk scores across race/ethnic background groups,” found at https://www.nature.com/articles/s41467-023-38990-9 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/25755598-6eb3-4a7d-ae7f-78944a624ace/Screen+Shot+2023-09-01+at+12.20.07+PM.png 2023, August - Examining The Growing Need To Make Blood Pressure Prediction More Equitable - Make it stand out Fig. 3: DBP variance explained by compared DBP PRSs. Image sourced from “Evaluating the use of blood pressure polygenic risk scores across race/ethnic background groups,” found at https://www.nature.com/articles/s41467-023-38990-9 https://www.jyi.org/2023-august/category/News+Feature monthly 0.5 https://www.jyi.org/2023-august/category/Intern+Piece monthly 0.5 https://www.jyi.org/2023-august/tag/blood+pressure monthly 0.5 https://www.jyi.org/2023-august/tag/senotherapeutics monthly 0.5 https://www.jyi.org/2023-august/tag/computational+immunology monthly 0.5 https://www.jyi.org/2023-august/tag/proteomics monthly 0.5 https://www.jyi.org/2023-august/tag/peptide+14 monthly 0.5 https://www.jyi.org/2023-august/tag/neural+networks monthly 0.5 https://www.jyi.org/2023-august/tag/AI monthly 0.5 https://www.jyi.org/2023-august/tag/drug+development monthly 0.5 https://www.jyi.org/2023-august/tag/machine+learning monthly 0.5 https://www.jyi.org/2023-august/tag/healthcare monthly 0.5 https://www.jyi.org/2023-august/tag/senescence monthly 0.5 https://www.jyi.org/2023-august/tag/fibroblasts monthly 0.5 https://www.jyi.org/2023-august/tag/genetics monthly 0.5 https://www.jyi.org/2023-august/tag/computer+science monthly 0.5 https://www.jyi.org/2023-august/tag/equity+in+medicine monthly 0.5 https://www.jyi.org/2023-august/tag/physics monthly 0.5 https://www.jyi.org/2023-august/tag/computer+vision monthly 0.5 https://www.jyi.org/2023-august/tag/aging monthly 0.5 https://www.jyi.org/2023-july daily 0.75 2023-08-02 https://www.jyi.org/2023-july/emotional-support-in-the-digital-age-ais-integration-into-mental-healthcare monthly 0.5 2023-08-02 https://www.jyi.org/2023-july/does-energy-from-the-air-spell-the-future-of-sustainability monthly 0.5 2023-08-02 https://www.jyi.org/2023-july/new-research-suggests-potential-for-repurposing-canagliflozin-an-anti-diabetic-drug-for-autoimmune-disorders monthly 0.5 2023-08-01 https://www.jyi.org/2023-july/a-recently-discovered-cell-protein-may-hold-the-cure-to-aging monthly 0.5 2023-08-01 https://www.jyi.org/2023-july/from-salt-to-solidarity-the-global-language-of-collaboration monthly 0.5 2023-08-01 https://www.jyi.org/2023-july/2023/7/22/the-association-between-olfactory-stimulation-and-frass-production-in-banded-crickets-gryllodes-sigillatus monthly 0.5 2023-10-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3b7dacff-d22f-43dc-bf1f-76bd764312a1/1825974-fig-1.jpg 2023, July - The Association Between Olfactory Stimulation and Frass Production in Banded Crickets, Gryllodes sigillatus - Make it stand out Figure 1. The average frass produced per cricket (g), in each experimental group, over a 15-day period. https://www.jyi.org/2023-july/category/News+Feature monthly 0.5 https://www.jyi.org/2023-july/category/Research monthly 0.5 https://www.jyi.org/2023-july/category/Intern+Piece monthly 0.5 https://www.jyi.org/2023-july/category/News+Features monthly 0.5 https://www.jyi.org/2023-july/tag/anti-diabetic+drug monthly 0.5 https://www.jyi.org/2023-july/tag/mental+health monthly 0.5 https://www.jyi.org/2023-july/tag/cellular+aging monthly 0.5 https://www.jyi.org/2023-july/tag/AI monthly 0.5 https://www.jyi.org/2023-july/tag/cricket+frass monthly 0.5 https://www.jyi.org/2023-july/tag/technology monthly 0.5 https://www.jyi.org/2023-july/tag/T+cells monthly 0.5 https://www.jyi.org/2023-july/tag/Autoimmune+disorders monthly 0.5 https://www.jyi.org/2023-july/tag/healthcare monthly 0.5 https://www.jyi.org/2023-july/tag/natural+fertilizer monthly 0.5 https://www.jyi.org/2023-july/tag/Immune+System monthly 0.5 https://www.jyi.org/2023-july/tag/psychology monthly 0.5 https://www.jyi.org/2023-july/tag/Sustainability monthly 0.5 https://www.jyi.org/2023-july/tag/culture monthly 0.5 https://www.jyi.org/2023-july/tag/protein monthly 0.5 https://www.jyi.org/2023-july/tag/reactive+oxygen+species monthly 0.5 https://www.jyi.org/2023-july/tag/Energy+generation monthly 0.5 https://www.jyi.org/2023-july/tag/olfactory+stimulation monthly 0.5 https://www.jyi.org/2023-july/tag/essential+oil monthly 0.5 https://www.jyi.org/2023-july/tag/aging monthly 0.5 https://www.jyi.org/2023-july/tag/ATSF-1 monthly 0.5 https://www.jyi.org/2023-july/tag/behavior monthly 0.5 https://www.jyi.org/2023-july/tag/cooperation monthly 0.5 https://www.jyi.org/2023-june daily 0.75 2023-07-08 https://www.jyi.org/2023-june/press-release-peer-support-can-help-veterans-cope-with-ptsd monthly 0.5 2024-09-24 https://www.jyi.org/2023-june/the-future-of-medicine-regenerative-3d-bioprinting-and-muscle-restoration monthly 0.5 2023-07-08 https://www.jyi.org/2023-june/2023/06/01/conservation-and-hybridization-in-a-time-of-global-change monthly 0.5 2023-07-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/01bfe081-6730-42f0-b1c0-a7914a4f5fe6/1649821-figure-1-invasive-species-and-hybridization.jpg 2023, June - Conservation and Hybridization in a Time of Global Change - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/090f998d-24c9-4461-adfe-05010f9a1a61/1649821-figure-2-transgressive-segregation_%282%29.png 2023, June - Conservation and Hybridization in a Time of Global Change - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2023-june/category/News+Feature monthly 0.5 https://www.jyi.org/2023-june/category/Press+Release monthly 0.5 https://www.jyi.org/2023-june/category/Research monthly 0.5 https://www.jyi.org/2023-june/tag/PTSD monthly 0.5 https://www.jyi.org/2023-june/tag/Therapy monthly 0.5 https://www.jyi.org/2023-june/tag/Bioprinting monthly 0.5 https://www.jyi.org/2023-june/tag/tissue+restoration monthly 0.5 https://www.jyi.org/2023-june/tag/conservation monthly 0.5 https://www.jyi.org/2023-june/tag/Veterans monthly 0.5 https://www.jyi.org/2023-june/tag/regenerative+medicine monthly 0.5 https://www.jyi.org/2023-june/tag/Mental+health monthly 0.5 https://www.jyi.org/2023-june/tag/Peer+support monthly 0.5 https://www.jyi.org/2023-june/tag/hybridization monthly 0.5 https://www.jyi.org/2023-june/tag/climate+change monthly 0.5 https://www.jyi.org/2023-may daily 0.75 2023-06-06 https://www.jyi.org/2023-may/new-research-uncovers-gene-variants monthly 0.5 2023-07-11 https://www.jyi.org/2023-may/the-life-of-science-journalist-turned-community-founder monthly 0.5 2023-06-07 https://www.jyi.org/2023-may/category/Science+Careers monthly 0.5 https://www.jyi.org/2023-may/category/News+Feature monthly 0.5 https://www.jyi.org/2023-may/category/News+Features monthly 0.5 https://www.jyi.org/2023-may/tag/hereditary+angioedema monthly 0.5 https://www.jyi.org/2023-may/tag/disease monthly 0.5 https://www.jyi.org/2023-may/tag/The+Open+Notebook monthly 0.5 https://www.jyi.org/2023-may/tag/dna monthly 0.5 https://www.jyi.org/2023-may/tag/genetic+sequencing monthly 0.5 https://www.jyi.org/2023-may/tag/community monthly 0.5 https://www.jyi.org/2023-may/tag/science+journalism monthly 0.5 https://www.jyi.org/2023-march daily 0.75 2023-04-18 https://www.jyi.org/2023-march/press-release-hybridizationthe-plant-worlds-savior-or-its-catastrophe monthly 0.5 2024-11-11 https://www.jyi.org/2023-march/science-careers-claire-smith monthly 0.5 2023-04-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3dbb10a6-463e-49af-9551-debf1f665047/Screen+Shot+2023-04-16+at+9.19.46+AM.png 2023, March - My Dead Body: The documentary marking the first public dissection in the UK in 180 years - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ce04b287-4a9e-41ef-825f-38c7ae32a38f/Screen+Shot+2023-04-16+at+9.18.30+AM.png 2023, March - My Dead Body: The documentary marking the first public dissection in the UK in 180 years - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/2023-march/2023/3/1/press-release-evaluating-automated-exposure-notifications-for-the-mitigation-of-covid-19 monthly 0.5 2023-07-14 https://www.jyi.org/2023-march/category/Science+Careers monthly 0.5 https://www.jyi.org/2023-march/category/News+Feature monthly 0.5 https://www.jyi.org/2023-march/category/Press+Release monthly 0.5 https://www.jyi.org/2023-march/tag/Bluetooth monthly 0.5 https://www.jyi.org/2023-march/tag/automated+exposure monthly 0.5 https://www.jyi.org/2023-march/tag/Covid-19 monthly 0.5 https://www.jyi.org/2023-march/tag/Conservation monthly 0.5 https://www.jyi.org/2023-march/tag/Plants monthly 0.5 https://www.jyi.org/2023-march/tag/Hybridization monthly 0.5 https://www.jyi.org/2023-march/tag/Anatomy monthly 0.5 https://www.jyi.org/2023-march/tag/Dissection monthly 0.5 https://www.jyi.org/2023-february daily 0.75 2023-03-05 https://www.jyi.org/2023-february/2023/2/01/researchers-mapped-out-potential-impurities-in-drug-substance monthly 0.5 2023-03-05 https://www.jyi.org/2023-february/category/News+Features monthly 0.5 https://www.jyi.org/2023-february/tag/nitrosamine monthly 0.5 https://www.jyi.org/2023-february/tag/amine+substance monthly 0.5 https://www.jyi.org/2023-february/tag/FDA monthly 0.5 https://www.jyi.org/2023-february/tag/impurities monthly 0.5 https://www.jyi.org/2023-february/tag/pharmaceuticals monthly 0.5 https://www.jyi.org/2023-january daily 0.75 2022-12-28 https://www.jyi.org/2023-january/2023/01/01/ic4v1o9rbbkkiw726rpsvcrb7gfno monthly 0.5 2023-01-01 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/450a7416-bd8a-42a2-8a9e-76d5a5dc935b/Figure.png 2023, January - Rinse Aid Residues in Professional Dishwashers Could Harm Protective Layer of Gut - Make it stand out Flowchart and summary of the findings by Ogulur and colleagues. (A) Professional dishwasher detergent and rinse aid residues are left on the dishware after dishwashing. The authors investigated the effects of these professional dishwasher detergent and rinse aid residues on human intestinal epithelial cells. The authors assessed whether professional dishwasher detergent and/or rinse aid residues killed/caused damage to cells, disrupted the integrity of intestinal epithelial barrier and other effects exerted on cells (e.g., changes to what genes or to what extent they are expressed by the cell). (B) Findings by Ogulur and colleagues. Rinse aid residues but not dishwasher detergent was found to cause damage/cell death (cytotoxicity) and disrupted the integrity of the intestinal epithelial barrier. The authors also found that rinse aid residues altered the gene expression of cells to promote inflammation and cell migration. https://www.jyi.org/2023-january/category/News+Features monthly 0.5 https://www.jyi.org/2023-january/tag/gut+health monthly 0.5 https://www.jyi.org/2023-january/tag/dishwashers monthly 0.5 https://www.jyi.org/2023-january/tag/immunology monthly 0.5 https://www.jyi.org/2024-january daily 0.75 2024-01-12 https://www.jyi.org/2024-january/2024/1/13/atelocollagen-added-to-hyaluronan-matrix-is-an-appropriate-3d-culture-model-of-inflammation-induced-osteoarthritis monthly 0.5 2024-01-13 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f53a6a67-3956-4e6a-b508-2c0d51c529de/1827089-figure-1.jpg 2024, January - Atelocollagen Added to Hyaluronan Matrix is an Appropriate 3D Culture Model of Inflammation-Induced Osteoarthritis - Make it stand out Figure 1. Gene expression of COLL II (A) was increased and MMP13 expression (B) decreased in 3D chondrogenic cultures grown in hyaluronan with atelocollagen. Gene expression data was measured via quantitative RT-PCR after 3 weeks of growth under chondrogenic conditions. Hyaluronan (H) and hyaluronan with atelocollagen (HA). Data are presented as mean ± SEM, n= 4-5, ** p < 0.01, *** p < 0.001 determined by t-test. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7225ff86-41b9-4217-b210-dc3a75281597/1827089-figure-2.jpg 2024, January - Atelocollagen Added to Hyaluronan Matrix is an Appropriate 3D Culture Model of Inflammation-Induced Osteoarthritis - Make it stand out Figure 2. Cytokine profile of conditioned medium from M1 macrophage conditioned medium. Mouse cytokine Proteome Profiler immunoblots representing data presented in Table 1 are shown. M1 Cultures were activated with LPS (100 ng/mL) + IFNγ (250 ng/mL) for 24 hr. Ovals highlight cytokine/chemokines whose expression is changed in M1 CM. The square boxes indicate internal control reference spots used to normalize densitometric data. Densitometry was carried out using ImageJ. Coordinates of cytokines spotted in replicate are referenced after the cytokine name in Table 1. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/06652e30-0356-476b-96a7-bfbccd06fdba/1827089-figure-3.jpg 2024, January - Atelocollagen Added to Hyaluronan Matrix is an Appropriate 3D Culture Model of Inflammation-Induced Osteoarthritis - Make it stand out Figure 3. Under inflammatory conditions gene expression of MMP13 is increased in 3D chondrogenic cultures grown in hyaluronan with atelocollagen compared to hyaluronan alone. Gene expression was measured using quantitative RT-PCR after 3 weeks of exposure to conditioned medium from M1 macrophage cells. Expression was normalized using β-actin and GAPDH. Hyaluronan (H) and hyaluronan with atelocollagen (HA) exposed to conditioned medium from naive macrophage (-) or from inflammatory M1 macrophage (+). Data are presented as mean ± SEM, n = 4-5, a - statistically different from (-) counterpart, b - statistically different from hyaluronan alone. Differences determined after a significant 2-way ANOVA using Šidák’s post-test https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/429afc13-7453-4dc7-bb2a-094ed28ed1ca/1827089-figure-4.jpg 2024, January - Atelocollagen Added to Hyaluronan Matrix is an Appropriate 3D Culture Model of Inflammation-Induced Osteoarthritis - Make it stand out Figure 4. Atelocollagen with hyaluronan exhibited a higher collagen grade within the interstitial matrices and yielded a greater change in territorial matrix from Phase I to Phase II. Histologic sections from each group were stained using Masson’s trichrome. A grading system was applied to assess the intensity of collagen staining. (A) Bar graph depicting interstitial matrix grade. (B) Bar graph showing change in territorial matrix grade from Phase I to Phase II. Data presented as mean +/- SEM, *p <0.001 determined using t-test. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/553e3c3e-c209-4258-b333-bf3b964d0d7e/1827089-figure-5.jpg 2024, January - Atelocollagen Added to Hyaluronan Matrix is an Appropriate 3D Culture Model of Inflammation-Induced Osteoarthritis - Make it stand out Figure 5. Histologic sections demonstrating a greater change in territorial matrix among 3D cultures grown in hyaluronan and atelocollagen when compared to atelocollagen alone. Masson’s trichrome stained sections of (A) Phase I, hyaluronan (B) Phase II, hyaluronan, (C) Phase I, hyaluronan + atelocollagen, (D) Phase II, hyaluronan + atelocollagen. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ce87e226-3fbd-4286-8719-77f23b22c210/1827089-figure-6.jpg 2024, January - Atelocollagen Added to Hyaluronan Matrix is an Appropriate 3D Culture Model of Inflammation-Induced Osteoarthritis - Make it stand out Figure 6. After inflammation, isogenous groups of chondrocytes were reduced only in the cultures with hyaluronan alone. Histologic sections from each group were stained using Masson’s trichrome. Numbers of isogenous groups were counted under 100x magnification. (A) Bar graph depicting numbers of isogenous groups. Data presented as mean +/- SEM, *p < 0.001 determined after a significant 2-way ANOVA using Šidák’s post-test. (B) Representative images of Masson’s trichrome stained sections, 100X magnification. (H-) – hyaluronan alone, (H+) – hyaluronan alone exposed to CM from M1 macrophages, (HA-) – hyaluronan with atelocollagen, (HA+) – hyaluronan with atelocollagen exposed to CM form M1 macrophages. https://www.jyi.org/2024-january/advances-in-skin-aging-delaying-skin-aging-by-targeting-lymphoid-derived-il-17-pro-inflammatory-cytokine-signaling monthly 0.5 2025-01-26 https://www.jyi.org/2024-january/atelocollagen-in-3d-culture-models-points-to-treatment-of-osteoarthritis monthly 0.5 2024-08-24 https://www.jyi.org/2024-january/category/News+Feature monthly 0.5 https://www.jyi.org/2024-january/category/Press+Release monthly 0.5 https://www.jyi.org/2024-january/category/Research monthly 0.5 https://www.jyi.org/2024-january/tag/3D+modeling monthly 0.5 https://www.jyi.org/2024-january/tag/Hyaluronan monthly 0.5 https://www.jyi.org/2024-january/tag/Disease monthly 0.5 https://www.jyi.org/2024-january/tag/Aging monthly 0.5 https://www.jyi.org/2024-january/tag/Antibodies monthly 0.5 https://www.jyi.org/2024-january/tag/Genetics monthly 0.5 https://www.jyi.org/2024-january/tag/Arthritis monthly 0.5 https://www.jyi.org/2024-january/tag/Skin monthly 0.5 https://www.jyi.org/2024-january/tag/3D+Culture monthly 0.5 https://www.jyi.org/2024-january/tag/Inflammation monthly 0.5 https://www.jyi.org/2024-january/tag/Osteoarthritis monthly 0.5 https://www.jyi.org/2024-march daily 0.75 2024-03-15 https://www.jyi.org/2024-march/2024/3/12/identifying-individual-determinants-for-sleep-intervention-preferences-among-middle-aged-nurses monthly 0.5 2024-03-15 https://www.jyi.org/2024-march/category/Research monthly 0.5 https://www.jyi.org/2024-march/tag/sleep monthly 0.5 https://www.jyi.org/2024-march/tag/intervention monthly 0.5 https://www.jyi.org/2024-march/tag/nurses monthly 0.5 https://www.jyi.org/2024-april daily 0.75 2024-05-04 https://www.jyi.org/2024-april/2024/4/30/mechanical-optimization-and-characterization-of-injectable-cellulose-reinforced-calcium-phosphate-bone-cements monthly 0.5 2024-05-04 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/da8dcdc2-109b-4748-a6ab-417b6eaf791a/Figure+1.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 1. Plot of Average Vickers Hardness (MPa) vs Cellulose Concentration (v/v%) with error bars representing Standard Error. The Vickers hardness of each pellet (total = 72 pellets, 12 per cellulose concentration) was calculated by averaging the hardness measured at 5 sites per pellet using the Micro Vickers Hardness Tester (Phase II+™, U.S.A.) under a magnification of 10x and load of 9.8 N. The hardness at each site was determined by measuring the distances of the 2 diagonals in the rhombic indentation via the four-corners function in the Micro Vickers Hardness Tester software, iVision v.1.0.0 (iVision Software, Canada). The average Vickers hardness did not statistically change with cellulose concentration until after 2% v/v with subsequent decreases in hardness. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/aa65228f-8d8f-4dcd-9f2e-e43f8390ef54/Figure+2.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 2. Plot of Average Fracture Toughness (MPa) vs Cellulose Concentration (v/v%) with error bars representing Standard Error. The fracture toughness of each pellet (total = 90 pellets, 15 per cellulose concentration) was calculated using the MTS 810 (MTS®, U.S.A.) and analyzed with the MTS Flex SE (MTS®, U.S.A.). The load was started when the opposite compression platen contacted the sample and continued until the point of fracture, and stress-strain curves were generated to calculate fracture toughness represented by the area under the curve from the first positive strain value to the strain value of maximum stress. There was no statistically significant difference in fracture roughness between any two cellulose concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/39ac7deb-de31-49e3-b783-3fb75b99a802/Figure+3.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 3. FTIR Spectra of Pure Reagents Used. (a) Calcium Phosphate. (b) Cellulose. (c) Gelatin. All pellets were scanned with a Bruker Alpha FTIR spectrometer (Bruker, U.S.A.) set to 16 scans in the range of 4000–400 cm-1 at a resolution of 4 cm-1, and OPUS 7.2.139.1294 (Bruker, U.S.A.) was used to display and analyze the spectra. The wavenumber is represented on the x-axis while the transmittance is represented on the y axis. The characteristic peaks of each pure reagent are labeled and confirm the respective functional groups. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b9f2d06c-86b1-4303-8b3f-1dfd52f7ec02/Figure+4.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 4. FTIR Spectral Comparison of Pure Polymers to Bone Graft Samples. Similar methods were conducted as discussed in Fig. 3. Note that the pure polymers and samples are color coded and overlayed as shown by the legend. The hydroxyl stretches and amide bands in cellulose and gelatin respectively are found to be shifted to higher wavelengths compared to Fig. 3 (3020–3050 and 1583-1493 cm-1 respectively). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6628cc67-b3e3-43d0-9192-0c9ee2b102a3/Figure+5.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 5. Comparison of FTIR Transmittance Broadening in Bone Graft Samples. Testing was similar as mentioned in Fig. 3 and 4, but further analysis was needed to examine the degree of hydrogen bonding as a function of cellulose concentration, where the broadening of transmittance values was calculated between the local maximum peaks in the 1000–1100 cm-1 wavenumber range. The transmittance values are represented on the x axis while the cellulose concentrations are represented on the y axis. The 0% cellulose sample displays the weakest transmittance followed by the broadest shifts of 1% and 2% cellulose. The 3% and 4% display narrower transmittance shifts, aligning with the trend observed in Figure 1. The 5% shift is slightly broader than the critical 1 v/v%, which could be explained by undissolved cellulose. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1b63c37b-cb9c-42d9-a428-a58194b63203/Figure+6.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 6. SEM Images of Composite Cracking. (a) Low-Fiber Cement. (b) High-Fiber Cement. Pellets of all cellulose concentrations that were subjected to toughness testing were sputter coated with Au-Pd for several minutes using the Denton Vacuum Desk V (Denton Vacuum, U.S.A.). The pellets were then imaged at a magnification of 1600x to evaluate composite cracking. The arrows are presented in each image to delineate areas of cracking. In 6a, microcracks appear scattered throughout the composite and propagate in distinct regions. In 6b, the cracks appear to be more substantial and span across the entire surface. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4e64e660-559f-4486-9f65-0adae7433a27/Figure+7.jpg 2024, April - Mechanical Optimization and Characterization of Injectable Cellulose-Reinforced Calcium Phosphate Bone Cements - Make it stand out Figure 7. SEM Images of High-Fiber Composite. (a) C-G Crosslinking. (b) Aggregation. Similar testing was conducted to evaluate fiber crosslinking as described in Fig. 6 except at a magnification of 12000x. In 7a, the crosslinking appears to be ordered by the heterotopic fibers. In 7b, a large aggregate of fibers is observed with most of them appearing homotypic. https://www.jyi.org/2024-april/category/Research monthly 0.5 https://www.jyi.org/2024-april/tag/Bone+graft monthly 0.5 https://www.jyi.org/2024-april/tag/FTIR monthly 0.5 https://www.jyi.org/2024-april/tag/Engineered+Cementitious+Composite monthly 0.5 https://www.jyi.org/2024-april/tag/SEM monthly 0.5 https://www.jyi.org/2024-may daily 0.75 2024-05-31 https://www.jyi.org/2024-may/2024/5/31/establishment-of-a-new-and-viable-assay-to-characterize-wheat-germ-acid-phosphatase-using-31p-nmr-spectroscopy monthly 0.5 2024-07-28 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ac053fca-5791-4010-80b1-a256f820feb3/Figure+1.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 1. Hydrolysis of p-Nitrophenyl Phosphate (pNPP) Reaction Diagram. The reaction shown is catalyzed by the enzyme under study, that is, by acid phosphatase derived from wheat germ. Subsequent deprotonation of the products allowed for spectrophotometric quantification of pNP-, and therefore quantification of the pNP product, at 405 nm. The other product, Pi, was quantified using 31P NMR spectroscopy by integrating the associated resonance peak. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c742febe-7bd9-4cee-b276-d8c0c92f3604/Figure+2+%281%29.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 2. The Effect of p-Nitrophenolate Ion Concentration on Absorbance at 405 nm. To determine the molar absorptivity constant of pNP-, absorbance at the wavelength maximum of pNP- (405 nm) was measured at increasing concentrations of pNP- using a 1 cm path length cuvette and a UV-Visible spectrophotometer. Using the Beer-Lambert Law, the slope of the regression line shown gives the molar absorptivity of pNP-. This constant (16,500 M-1cm-1) was then used to quantify pNP production in the enzyme assays. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/aa9c2a6e-7ee9-49a2-a543-31a2363191a0/Figure+3+%281%29.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 3. 162 MHz 31P NMR Spectrum of Standard Sample. A standard sample containing a mixture of pNPP and Pi in acetate buffer pH 4.5 was created. The 31P NMR spectrum of this sample was obtained to determine the chemical shifts of the pNPP substrate (-0.34 ppm) and Pi product (5.25 ppm) that would be present in the WGAP catalyzed reactions. During the enzyme assays, Pi formation was quantified by integrating the associated 31P resonance peak. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ebb451ab-6cf8-4ed1-a770-7af0d582d3f0/Figure+4.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 4. pNP Formation as a Function of WGAP Concentration Using the Spectrophotometric Method. The plot produced here depicts an apparent linear relationship between pNP formation and increasing WGAP concentration. The WGAP concentration of 0.129 µM, which was within the range of concentrations seen in this plot, was selected for the subsequent time-dependent experiment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/385116ac-6bea-48be-b19b-b6d138d4621a/Figure+5.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 5. pNP Formation as a Function of Reaction Time Using the Spectrophotometric Method. The graph shown depicts an apparent first-order relationship between pNP formation and reaction time. Dividing the resulting reaction rates by the amount of enzyme used allowed for the determination of WGAP specific activity. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3e54d231-4eee-4b92-b0c8-c1c72576811f/New+Figure+6.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 6. Pi Formation as a Function of WGAP Concentration Using the 31P NMR-Based Method. The plot produced here depicts an apparent positive linear relationship between Pi formation and increasing WGAP concentration. The WGAP concentration of 1.204 µM, which was within the range of concentrations seen in this plot, was selected for the subsequent time dependent experiment. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e3bf9a35-de39-4200-b6d7-cba99575586e/Figure+7.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 7. Pi Formation as a Function of Reaction Time Using the 31P NMR-Based Method. The graph shown depicts an apparent first-order relationship between Pi formation and reaction time. Dividing the resulting reaction rates by the amount of enzyme present in the assays allowed for the determination of each assay’s WGAP specific activity. These specific activity values could then be compared to the specific activity values obtained from the spectrophotometric method. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1da687b0-eef7-4ac4-8f51-f58b04b134b1/Figure+8.jpg 2024, May - Establishment of a New and Viable Assay to Characterize Wheat Germ Acid Phosphatase Using 31P NMR Spectroscopy - Make it stand out Figure 8. Project Data Summary: Comparing the Specific Activity Values Between the Spectrophotometric Assays and the 31P NMR Assays. To establish the validity of the 31P NMR-based assay to kinetically characterize WGAP, the average specific activity values from all assays performed using each assay method was compared. Although the spread of the specific activity values from the 31P NMR method are visibly much more dispersed than those from the spectrophotometric method, performing a Mann-Whitney U test revealed that the medians of the two specific activity spreads were not significantly different at the 0.05 significance level (U = 15, z-score = 1.733, and p > 0.05). This suggested that the 31P NMR method can measure WGAP activity just as well as the traditional spectrophotometric method. https://www.jyi.org/2024-may/category/Research monthly 0.5 https://www.jyi.org/2024-may/tag/Spectroscopy monthly 0.5 https://www.jyi.org/2024-may/tag/NMR monthly 0.5 https://www.jyi.org/2024-may/tag/31P+NMR monthly 0.5 https://www.jyi.org/2024-may/tag/Wheat+Germ monthly 0.5 https://www.jyi.org/2024-july daily 0.75 2024-08-01 https://www.jyi.org/2024-july/2024/7/31/melanoma-survivor-narratives-stories-that-matter monthly 0.5 2024-08-01 https://www.jyi.org/2024-july/category/Research monthly 0.5 https://www.jyi.org/2024-july/tag/melanoma monthly 0.5 https://www.jyi.org/2024-july/tag/cancer monthly 0.5 https://www.jyi.org/2024-july/tag/survivor monthly 0.5 https://www.jyi.org/2024-july/tag/melanoma+stories monthly 0.5 https://www.jyi.org/2024-august daily 0.75 2024-09-07 https://www.jyi.org/2024-august/2024/8/12/effects-of-serotonin-reuptake-inhibition-and-environmental-enrichment-on-aggression-in-betta-fish-betta-splendens monthly 0.5 2024-09-07 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/5a5882fd-4ecc-4ca0-b110-d14a73981de6/1831687-figure-1.jpg 2024, August - Effects of serotonin reuptake inhibition and environmental enrichment on aggression in Betta fish (Betta splendens) - Make it stand out Figure 1. The average latency of first aggressive display (± SE) among the control and fluoxetine-treated betta fish in simple and enriched environments. Fluoxetine-treated individuals demonstrated a greater latency to first aggressive display compared with control individuals (p = 0.001) while there was no significant effect of environment type or the interaction between fluoxetine treatment and environment type (p = 0.524, p = 0.905, respectively). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/8993270e-4851-45b5-937b-8889b1319d68/1831687-figure-2.jpg 2024, August - Effects of serotonin reuptake inhibition and environmental enrichment on aggression in Betta fish (Betta splendens) - Make it stand out Figure 2. The average time in frontal display (± SE) among the control and fluoxetine-treated betta fish in simple and enriched environments. Fluoxetine-treated individuals spent less time in frontal display when compared with control individuals (p = 0.047) while there was no significant effect of environment type or the interaction between fluoxetine treatment and environment type (p = 0.524, p = 0.905, respectively). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/19e0b0a1-7cfe-4a5f-8c6c-f294a139c1c0/1831687-figure-3.jpg 2024, August - Effects of serotonin reuptake inhibition and environmental enrichment on aggression in Betta fish (Betta splendens) - Make it stand out Figure 3. The average time in broadside display (± SE) among the control and fluoxetine-treated betta fish in simple and enriched environments. Fluoxetine-treated individuals spent less time in broadside display when compared with control individuals (p = 0.013) while there was no significant effect of environment type or the interaction between fluoxetine treatment and environment type (p = 0.890, p = 0.897, respectively) https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6dc7c22b-e782-4308-87bd-81350771bf17/1831687-figure-4.jpg 2024, August - Effects of serotonin reuptake inhibition and environmental enrichment on aggression in Betta fish (Betta splendens) - Make it stand out Figure 4. The number of 90° turns (± SE) among the control and fluoxetine-treated betta fish in simple and enriched environments. Fluoxetine-treated individuals had fewer 90° turns when compared with control individuals (p = 0.029) while there was no significant effect of environment type or the interaction between fluoxetine treatment and environment type (p = 0.554, p = 0.874, respectively) https://www.jyi.org/2024-august/category/Research monthly 0.5 https://www.jyi.org/2024-august/tag/Betta+splendens monthly 0.5 https://www.jyi.org/2024-august/tag/serotonin monthly 0.5 https://www.jyi.org/2024-august/tag/fluoxetine monthly 0.5 https://www.jyi.org/2024-august/tag/SSRIs monthly 0.5 https://www.jyi.org/2024-august/tag/drugs monthly 0.5 https://www.jyi.org/2024-august/tag/aggressive+behavior monthly 0.5 https://www.jyi.org/2024-august/tag/animal+studies monthly 0.5 https://www.jyi.org/2024-august/tag/behaviour monthly 0.5 https://www.jyi.org/2024-august/tag/beta+fish monthly 0.5 https://www.jyi.org/2024-september daily 0.75 2024-10-03 https://www.jyi.org/2024-september/2024/9/30/is-there-still-a-gender-wage-gap-among-assistant-professors-at-us-public-universities monthly 0.5 2024-10-06 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/73319e53-b44a-4def-847f-432a235bee7d/1834377-figures-1.jpeg 2024, September - Is There Still a Gender Wage Gap Among Assistant Professors at U.S. Public Universities? - Make it stand out Figure 1. Empirical cumulative distribution functions contrasting the distribution of male and female salaries for combined data. On the x-axis is log10 of monthly salary. On the y-axis is the proportion of people in each group making less than the corresponding salary on x-axis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1332fb76-e0d9-409d-9383-840e1073e172/1834377-figure-2.jpeg 2024, September - Is There Still a Gender Wage Gap Among Assistant Professors at U.S. Public Universities? - Make it stand out Figure 2. The difference of male and female empirical distribution functions (black line) for combined data compared to a thousand of differences with randomly assigned gender (blue lines). On the x-axis is log10 of monthly salary. On the y-axis is the proportion of males minus the proportion of females making less than the corresponding salary on x-axis https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f5001467-7ed5-4a74-b216-6a64ff7a7b4a/1834377-figure-3.jpeg 2024, September - Is There Still a Gender Wage Gap Among Assistant Professors at U.S. Public Universities? - Make it stand out Figure 3. The difference of male and female empirical distribution functions (black line) for combined data compared to a thousand of differences with randomly assigned gender (blue lines). On the x-axis is log10 of monthly salary. On the y-axis is the proportion of males minus the proportion of females making less than the corresponding salary on x-axis. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1a02d260-4bd2-49e7-bee0-2c1abeece405/1834377-figure-4.jpg 2024, September - Is There Still a Gender Wage Gap Among Assistant Professors at U.S. Public Universities? - Make it stand out Figure 4. The difference of male and female empirical distribution functions (black line) compared to a thousand of permuted differences with randomly assign gender within discipline (blue lines) for each of the four university systems separately. On the x-axis is log10 of monthly salary. On the y-axis is the proportion of males minus the proportion of females making less than the corresponding salary on x-axis. https://www.jyi.org/2024-september/category/Research monthly 0.5 https://www.jyi.org/2024-september/tag/us-assistant-professors monthly 0.5 https://www.jyi.org/2024-september/tag/gender-wage-gap monthly 0.5 https://www.jyi.org/2024-september/tag/statistics monthly 0.5 https://www.jyi.org/2024-november daily 0.75 2024-12-08 https://www.jyi.org/2024-november/2024/11/30/comparing-three-methods-for-quantifying-overground-running-acceleration monthly 0.5 2025-05-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a4f46e9a-07ed-4472-af39-44bd59bfe51c/2337278-updated-figure-1.jpg 2024, November - Comparing Three Methods for Quantifying Overground Running Acceleration - Make it stand out Figure 1: Timing lights set up. Dots indicate placement of timing lights, one set of timing lights are indicated by two dots in vertical alignment. Vavg indicates average velocity measured between two sets of timing lights. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3d86df20-9fcf-48ba-8665-d43be3451a60/fig_2_replacement_final.png 2024, November - Comparing Three Methods for Quantifying Overground Running Acceleration - Make it stand out Figure 2: Ground reaction force in body weights versus time in seconds. The positive impulse is the area under the curve when the ground reaction force is positive. The negative impulse is the area under the curve when the ground reaction force is negative. B.W. = body weights. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/337b65f6-8bb8-45b9-a8b6-5af37ed5ec9e/fig3_replacement_final.png 2024, November - Comparing Three Methods for Quantifying Overground Running Acceleration - Make it stand out Figure 3. Velocity change calculated from timing lights (Vavg,3 - Vavg,2) vs relative AP impulse ( N=1). Each dot represents a single trial, with the x-axis corresponding to change in velocity calculated from timing lights and the y-axis corresponding to the relative AP impulse measured from the force plate. The black line represents the regression line. The correlation coefficient for participant 10 was determined to be 0.40, as shown in Table 2. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/cb8cd385-153f-4518-8da4-9a5ef7f0e9dd/fig4_replacement_final.png 2024, November - Comparing Three Methods for Quantifying Overground Running Acceleration - Make it stand out Figure 4: Velocity change calculated from motion capture (V_toe off - W_heel strike) vs relative AP impulse (N=1). Each dot represents a single trial, with the x-axis corresponding to change in velocity calculated from motion capture and the y-axis corresponding to the relative AP impulse measured from the force plate. The black line represents the regression line. The correlation coefficient for participant 10 was determined to be 0.78, as shown in Table 3. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/80a00574-94b8-4ee2-96f5-3b1ed53604be/fig5_replacement_final.png 2024, November - Comparing Three Methods for Quantifying Overground Running Acceleration - Make it stand out Figure 5. Velocity measured by timing lights (average velocity2) vs velocity measured by motion capture for an example participant (N=1). Each dot represents a single trial, with the x-axis corresponding to average velocity 2 measured by timing lights and th ey-axis corresponding to the average velocity measured by motion capture. The black line represents the unity line (y=x). The correlation coefficient for participant one was determined to be 0.95, as shown in Table 4. https://www.jyi.org/2024-november/category/Research monthly 0.5 https://www.jyi.org/2024-november/tag/acceleration monthly 0.5 https://www.jyi.org/2024-november/tag/kinesiology monthly 0.5 https://www.jyi.org/2024-november/tag/biomechanics monthly 0.5 https://www.jyi.org/2024-november/tag/kinetics monthly 0.5 https://www.jyi.org/2024-december daily 0.75 2024-12-25 https://www.jyi.org/2024-december/2024/12/25/the-relationship-between-ptsd-and-peer-support-among-returning-war-veterans monthly 0.5 2024-12-25 https://www.jyi.org/2024-december/category/Research+Article monthly 0.5 https://www.jyi.org/2024-december/tag/PTSD monthly 0.5 https://www.jyi.org/2024-december/tag/social+support monthly 0.5 https://www.jyi.org/2024-december/tag/veterans monthly 0.5 https://www.jyi.org/2024-december/tag/treatments monthly 0.5 https://www.jyi.org/2024-december/tag/peer+support monthly 0.5 https://www.jyi.org/best-of-jyi-2021-2022 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-2021-2022/2024/6/9/best-of-jyi-2021-amp-2022 monthly 0.5 2026-03-01 https://www.jyi.org/best-of-jyi-2021-2022/category/best+of+jyi monthly 0.5 https://www.jyi.org/best-of-jyi-2021-2022/tag/best+of+jyi monthly 0.5 https://www.jyi.org/best-of-jyi-19972009 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-19972009/2024/6/9/best-of-jyi-1997-2009 monthly 0.5 2024-06-09 https://www.jyi.org/best-of-jyi-20142015 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-20142015/2024/6/9/best-of-jyi-2014-2015 monthly 0.5 2024-06-09 https://www.jyi.org/best-of-jyi-2016 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-2016/2024/6/9/best-of-jyi-2017 monthly 0.5 2024-06-09 https://www.jyi.org/best-of-jyi-2017 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-2017/2024/6/9/best-of-jyi-2017 monthly 0.5 2024-06-09 https://www.jyi.org/best-of-jyi-2019 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-2019/2024/6/9/best-of-jyi-2019 monthly 0.5 2024-06-09 https://www.jyi.org/best-of-jyi-2018-1 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-2018-1/2024/6/9/best-of-jyi-2018 monthly 0.5 2024-06-09 https://www.jyi.org/best-of-jyi-2020 daily 0.75 2024-06-09 https://www.jyi.org/best-of-jyi-2020/2024/6/9/best-of-jyi-2020 monthly 0.5 2024-06-09 https://www.jyi.org/2025-january daily 0.75 2025-01-23 https://www.jyi.org/2025-january/2025/1/22/determining-essential-factors-required-for-expediting-neural-induction-of-precursors-to-retinal-organoids monthly 0.5 2025-01-23 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9b7daf3b-f9cc-4cc1-9b1a-b16fe7aab1da/Picture+1.png 2025, January - Determining Essential Factors Required for Expediting Neural Induction of Precursors to Retinal Organoids - Make it stand out Figure 1. Schematic of proposed protocol to expedite current RO differentiation protocol. a) Schematic of current RO differentiation protocol involving a 20-day neural induction period and manual dissection of 2D embryoid bodies on D28. b) Schematic of proposed RO differentiation protocol using the growth factors involved in the neural induction of RPE to achieve an expedited neural induction within 2 to 6 days. These neural cells will then be lifted and seeded in suspension, where they will grow and mature into uniform-sized RO progenitors by D15. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4a867582-6e4d-416e-9ec3-21be7ec62109/Picture+2.png 2025, January - Determining Essential Factors Required for Expediting Neural Induction of Precursors to Retinal Organoids - Make it stand out Figure 2. Retinal Pigment Epithelium (RPE) differentiation protocol. Schematic of protocol developed by Buchholz, et al. (2013) and Leach et al. (2015) that includes a four-day neural induction period using the growth factors and small molecules noggin, DKK1, IGF-1, NIC and bFGF. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3be53293-793b-444e-8b2c-1ae4883a76e9/Picture+3.png 2025, January - Determining Essential Factors Required for Expediting Neural Induction of Precursors to Retinal Organoids - Make it stand out Figure 3. hESCs are neurally inducted by D4 of differentiation. a) Schematic of the experimental approach to investigate the optimal time period for hESCs to differentiate towards a neural fate. b) Pax6 and Lhx2 expression upregulated, and Oct4 downregulated by D4 of differentiation. Error bars indicate standard deviation. c) hESCs acquire neural rosette morphology by D4 of differentiation (white arrow). Scale bar is 100μm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/38b2ddb7-9a3e-4726-bbff-1ee043facc82/Picture+4.png 2025, January - Determining Essential Factors Required for Expediting Neural Induction of Precursors to Retinal Organoids - Make it stand out Figure 4. Schematic of the experimental approach to investigate optimal timing of aggregate formation. Stem cells were seeded at 1.5 × 105 cell/cm2 in RDM supplemented with noggin, DKK1, NIC, IGF-1 and bFGF from D0 to D4. In condition_D2, cells were transferred to 24-well aggrewells on D2, and in condition_D4, cells were transferred to 24-well aggrewells on D4. RNA samples were taken from both conditions on D14 and D30 for qPCR. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/599a4156-4853-4785-b65a-eb787854e684/Picture+5.png 2025, January - Determining Essential Factors Required for Expediting Neural Induction of Precursors to Retinal Organoids - Make it stand out Figure 5. Seeding density does not significantly impact neural induction. a) Schematic of the experimental approach to investigate optimal seeding density for neural differentiation. Stem cells were seeded at 1.5 × 105 cells/cm2 and 3 × 105 cells/cm2 in RDM supplemented with noggin, DKK1, NIC, IGF-1 and bFGF. b) Pax6, Lhx2 and Oct4 expression levels do not significantly differ based on seeding density on D4. Error bars indicate standard deviation. c) No notable morphological differences between seeding densities on D4. Scale bar is 200μm. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f35fef09-ed82-420f-a688-f6a735decdbb/Picture+6.png 2025, January - Determining Essential Factors Required for Expediting Neural Induction of Precursors to Retinal Organoids - Make it stand out Figure 6. condition_D2 yields intact aggregates with low expression of retinal progenitor marker genes. a) After 14 days of differentiation in condition_D2, aggregates have formed a phase bright outer rim and defined borders (black arrow). Top right image: Spheroids have developed darker centers and uneven borders after 30 total days of differentiation (green arrow). Bottom left image: In condition_D4, spherical aggregates have formed within aggrewells which are much smaller in size (red arrow). Scale bar is 200μm. b) Pax6 expression peaked on day 14 of differentiation and subsequently decreased significantly by Day 30. CaR+ expression peaked on day 30 of differentiation. Error bars indicate standard deviation. https://www.jyi.org/2025-january/category/Research monthly 0.5 https://www.jyi.org/2025-january/tag/stem-cells monthly 0.5 https://www.jyi.org/2025-january/tag/visual+impairment monthly 0.5 https://www.jyi.org/2025-january/tag/retinal+organoids monthly 0.5 https://www.jyi.org/2025-february daily 0.75 2025-03-24 https://www.jyi.org/2025-february/2025/2/24/parkinsons-disease-the-current-state-of-treatment-neuroendocrine-abnormalities-and-links-between-motor-symptoms-and-cognitive-function monthly 0.5 2025-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/86334576-6e3c-4fa5-81b0-784cfb6c4e94/Picture_1.png 2025, February - Parkinson's Disease: the Current State of Treatment, Neuroendocrine Abnormalities and Links Between Motor Symptoms and Cognitive Function - Make it stand out Figure 1. A schematic of the circadian system and its dysregulation as a result of Parkinson’s disease. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/8c4160a4-583b-4ad7-be64-7cb804beceb9/Picture_2.png 2025, February - Parkinson's Disease: the Current State of Treatment, Neuroendocrine Abnormalities and Links Between Motor Symptoms and Cognitive Function - Make it stand out Figure 2. A colorimetric scale of regional and loss of dopamine-containing neurons from the nigral complex as a result of Parkinson’s disease. https://www.jyi.org/2025-february/category/Research monthly 0.5 https://www.jyi.org/2025-february/tag/parkinsons monthly 0.5 https://www.jyi.org/2025-february/tag/neurodegenerative+diseases monthly 0.5 https://www.jyi.org/2025-february/tag/treatment monthly 0.5 https://www.jyi.org/2025-february/tag/SNc monthly 0.5 https://www.jyi.org/2025-february/tag/dopamine monthly 0.5 https://www.jyi.org/new-blog-1 daily 0.75 2025-05-11 https://www.jyi.org/new-blog-1/2025/4/30/determination-of-rotenone-in-soy-milk monthly 0.5 2025-06-14 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/19a322aa-f34a-4e8e-a36e-d50684181353/sm_fig_1.png New Blog - Determination of Rotenone in Soy Milk - Make it stand out Figure 1: Chemical Structure of Rotenone. The rings in the structure provide the required conjugation for rotenone to be detected by the HPLC UV sensor. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d67378f4-a92b-4f0d-85b9-7b9cdab14614/sm_fig_2.png New Blog - Determination of Rotenone in Soy Milk - Make it stand out Figure 2: Plot of Peak Area vs Concentration (ppm) of Rotenone.Curve of Serial Dilutions via HPLC-UV. A 1217.08 ppm stock solution of rotenone was prepared by dissolving 23.8 mg of rotenone in 250 mL of acetonitrile. Standard solutions rangingfrom 0.0571 to 3.6512 ppm of rotenone were prepared and ran on the HPLC-UV. The coefficient of determination (R2) for the standards was 0.9996 indicating a linear relationship between the UV absorbance peak areas at 290 nm and rotenone concentrations. The equation generated from this standard curve was used to calculate the rotenone concentration in the samples. https://www.jyi.org/new-blog-1/2025/4/15/blowing-bubbles-and-catching-krill-how-an-unexpected-tool-helps-humpback-whales-hunt monthly 0.5 2025-10-16 https://www.jyi.org/new-blog-1/category/News monthly 0.5 https://www.jyi.org/new-blog-1/category/News+and+Career+Blog monthly 0.5 https://www.jyi.org/new-blog-1/category/Research+Article monthly 0.5 https://www.jyi.org/new-blog-1/tag/parkinsons monthly 0.5 https://www.jyi.org/new-blog-1/tag/soy+milk monthly 0.5 https://www.jyi.org/new-blog-1/tag/rotenone monthly 0.5 https://www.jyi.org/new-blog-1/tag/contamination monthly 0.5 https://www.jyi.org/2025-march daily 0.75 2025-04-27 https://www.jyi.org/2025-march/2025/3/31/hungry-bacteria-an-investigation-into-acinetobacter-venetianus-and-alcanivorax-borkumensis-microplastic-consumption monthly 0.5 2025-04-27 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/5ec33196-b7f3-4590-a808-d5a343388b10/Fig_1.png 2025, March - Hungry Bacteria? An Investigation into Acinetobacter venetianus and Alcanivorax borkumensis Microplastic Consumption - Make it stand out Figure 1. The first trial using A. borkumensis. The average OD600 of three replicates with standard deviation plotted throughout 198 hours. The High, Medium, and Low concentrations of PE are colored in orange, grey, and yellow respectively. The A. borkumensis control is colored in blue. During the lag, exponential, and stationary phase there was no difference in growth between groups except at 198 hours when the Low concentration of PE group had significantly more than the control group. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3fe31f0a-2938-462e-9392-a5e75a61908d/Fig_2.png 2025, March - Hungry Bacteria? An Investigation into Acinetobacter venetianus and Alcanivorax borkumensis Microplastic Consumption - Make it stand out Figure 2. The second trial using A. borkumensis. The average OD600 of three replicates with standard deviation plotted throughout 115 hours. The High, Medium, and Low concentrations of PE are colored in orange, grey, and yellow respectively. The A. borkumensis control is colored in blue. At 95 and 115 hours, the Medium and Low concentration groups had a higher OD600 than the control group. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4411c5be-fcbb-4b48-acd0-fa9fc48f2180/Fig_3.png 2025, March - Hungry Bacteria? An Investigation into Acinetobacter venetianus and Alcanivorax borkumensis Microplastic Consumption - Make it stand out Figure 3. The trial using A. venetianus. The average OD600 of three replicates with standard deviation plotted throughout 211 hours. The High, Medium, and Low concentrations of PE are colored in orange, grey, and yellow respectively. The A. venetianus control is colored in blue. At 18 and 186 hours, the High concentration of PE group was significantly higher than the control group. At 211 hours, the Medium concentration group of PE was significantly higher than the control group. At 168 hours, the Low concentration group of PE was significantly higher than the control group. https://www.jyi.org/2025-march/category/Research+Article monthly 0.5 https://www.jyi.org/2025-march/tag/fossil+fuels monthly 0.5 https://www.jyi.org/2025-march/tag/bacteria monthly 0.5 https://www.jyi.org/2025-march/tag/microplastics monthly 0.5 https://www.jyi.org/2025-may daily 0.75 2025-06-14 https://www.jyi.org/2025-may/2025/05/31/the-neural-correlates-of-comorbid-depressive-symptoms-and-ptsd monthly 0.5 2025-10-16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7ffc03f2-1ba6-479e-b14b-e32b5711e9ba/Figure_1_f.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 1. a. Example of stimulus presentations during fear conditioning. b. Example of stimulus presentations during extinction. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d04eb2eb-8c86-4724-aeb4-516a0d1086cb/Figure_2_f.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 2. a. Example of a trial during extinction recall. b. Example of a trial during fear renewal. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9228e38d-ffcf-4ebf-b268-a196014a8dee/Fig_3a.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 3a. Greater bilateral hippocampal activity was observed in CS- trials compared to CS+ trials https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/733f0c8c-9d0e-4409-be81-d9c07a933e75/Fig_3bA.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 3b. Panel A https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fa81a66b-b721-4f48-9451-efbc10065005/Fig_3bB.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 3b. Panel B Unilateral hippocampal activity (panel A) is negatively correlated with BDI score (panel B) during extinction recall. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2e3074a2-db62-41f3-8017-9d53e08e89de/Fig_4A.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 4. Panel A https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/240df605-ae63-4830-b791-483afb4ab918/Fig_4B.png 2025, May - The Neural Correlates of Comorbid Depressive Symptoms and PTSD - Make it stand out Figure 4. Panel B Unilateral hippocampal activity (panel A) is negatively correlated with BDI score (panel B) during extinction recall. https://www.jyi.org/2025-may/category/Research monthly 0.5 https://www.jyi.org/2025-may/tag/PTSD monthly 0.5 https://www.jyi.org/2025-may/tag/Fear+Conditioning monthly 0.5 https://www.jyi.org/2025-may/tag/Depression monthly 0.5 https://www.jyi.org/2025-may/tag/Mental+Health monthly 0.5 https://www.jyi.org/2025-may/tag/Hippocampus monthly 0.5 https://www.jyi.org/2025-june daily 0.75 2025-07-15 https://www.jyi.org/2025-june/2025/6/30/toxicity-measurements-for-human-scale-organ-vitrification-cpas monthly 0.5 2025-09-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6ab7d4d5-a9b6-456d-ba49-0c34d28dd492/June_Figure_1.jpg 2025, June - Toxicity Measurements for Human-Scale Organ Vitrification CPAs - Make it stand out Figure 1. The toxicity measurements of VM3, M22 and M22-PVP: (a) This is the representation of 24 wells used for CPA loading and unloading procedures. We kept the tissues in one row of wells in LM5 and then moved them to the next row of wells simultaneously going to higher concentration. (b) CPA loading and removal protocol, where VMP loading and removal steps are added before and after the testing solution (VM3, M22 or M22-PVP) step to avoid osmotic damage. The number represents the time spent in each well with increasing concentrations. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f21a8038-a27d-4343-8fe6-77e97ce1f2cb/June_Figure_2.jpg 2025, June - Toxicity Measurements for Human-Scale Organ Vitrification CPAs - Make it stand out Figure 2. Toxicity cost function measurements. (a) Tissue viability was measured across different exposure times for VM3, M22 and M22-PVP, with n = 4 for each concentration at each exposure time. The lines represent the best-fit curves according to Equation (3). (b) Toxicity rates are plotted as a function of CPA concentration, showing a positive correlation between increasing concentration and toxicity rate. https://www.jyi.org/2025-june/category/News monthly 0.5 https://www.jyi.org/2025-june/category/Research monthly 0.5 https://www.jyi.org/2025-june/category/Blog monthly 0.5 https://www.jyi.org/2025-june/tag/CPA monthly 0.5 https://www.jyi.org/2025-june/tag/Toxicity monthly 0.5 https://www.jyi.org/2025-june/tag/Cryopreservation monthly 0.5 https://www.jyi.org/2025-july daily 0.75 2025-08-03 https://www.jyi.org/2025-july/2025/7/31/early-geometric-confinement-influences-rosette-morphology-and-maintenance-in-human-cerebral-organoids monthly 0.5 2025-10-16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b6ff1e0f-312a-428d-9e12-207fd1688233/28-7-1-1-Figure1.jpg 2025, July - Early Geometric Confinement Influences Rosette Morphology and Maintenance in Human Cerebral Organoids - Make it stand out Figure 1. (A) Organoids 40 days post-confinement in (left) round and (right) butterfly wells. Samples stained with antibodies to highlight (sex-determining region Y)-box 2 (SOX2), white; phosphorylated vimentin (pVIM), yellow; and class III β-tubulin (TUJ1), green. 4′,6-diamidino-2-phenylindole (DAPI) used to stain DNA-rich regions, represented in blue. (B) Comparison of rosette density in round-and butterfly-well organoids. n = 3-5 organoids per point. Two-tailed t-test results: Day 20: df = 5, p = .295; Day 30: df =7, p = .0504; Day 40: df = 4, p = .994. (C) Size comparison of rosettes in round- and butterfly-well organoids. n = 3-5 organoids per point. Two-tailed t-test results: Day 20: df = 5, p = .298; Day 30: df = 7, p = .306 Day 40: df = 4, p = .0316. (D) Comparison of relative area occupied by SOX2+ rosettes in round- and butterfly-well organoids. n = 3 to 5 organoids per point. Two-tailed t-test results: Day 20: df = 5, p = .620; Day 30: df = 7, p = .310; Day 40: df = 4, p = .0529. (E) Examples of a well-formed rosette and a SOX2 aggregate. (F) Comparison of densities of SOX2 aggregates. n = 3-5 organoids per point Mann-Whitney test results: Day 20: U = 6, n1 = 3, n2 = 4, p = 1; Day 30: U = 6, n1 = 4, n2 = 5, p = .327; Day 40: U = 0, n1 = n2 = 3, p = .0495. *Two-tailed t-test or Mann-Whitney test with p<0.05. https://www.jyi.org/2025-july/category/News monthly 0.5 https://www.jyi.org/2025-july/category/Research monthly 0.5 https://www.jyi.org/2025-july/category/Blog monthly 0.5 https://www.jyi.org/2025-july/category/Research+Article monthly 0.5 https://www.jyi.org/2025-july/tag/mechanobiology monthly 0.5 https://www.jyi.org/2025-july/tag/rosette monthly 0.5 https://www.jyi.org/2025-july/tag/neurodevelopment monthly 0.5 https://www.jyi.org/2025-july/tag/organoids monthly 0.5 https://www.jyi.org/2025-august daily 0.75 2025-09-05 https://www.jyi.org/2025-august/2025/8/30/navigating-us-healthcare-monolingual-latino-immigrant-families-raising-children-with-developmental-disabilities monthly 0.5 2025-10-16 https://www.jyi.org/2025-august/category/News monthly 0.5 https://www.jyi.org/2025-august/category/Blog monthly 0.5 https://www.jyi.org/2025-august/category/Research+Article monthly 0.5 https://www.jyi.org/2025-august/tag/Cultural+barriers monthly 0.5 https://www.jyi.org/2025-august/tag/Latino+families monthly 0.5 https://www.jyi.org/2025-august/tag/U.S.+Healthcare monthly 0.5 https://www.jyi.org/2025-september daily 0.75 2025-10-16 https://www.jyi.org/2025-september/2025/9/30/impacts-of-the-covid-19-pandemic-on-hiv-care-for-ugandan-adolescents monthly 0.5 2026-02-16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2e79235d-2fed-4f92-889f-598f3ceb5372/28-9-1-1-Figure1.png 2025, September - Impacts of the COVID-19 Pandemic on HIV Care for Ugandan Adolescents - Make it stand out Figure 1. Levels of the Social Ecological Model https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/49711931-4219-4f77-947f-d05d3962271f/Screenshot+2025-09-25+at+4.46.01%E2%80%AFPM.png 2025, September - Impacts of the COVID-19 Pandemic on HIV Care for Ugandan Adolescents - Make it stand out Table 1. Sample Demographics by Sex https://www.jyi.org/2025-september/category/Careers monthly 0.5 https://www.jyi.org/2025-september/category/Blog monthly 0.5 https://www.jyi.org/2025-september/category/Research+Article monthly 0.5 https://www.jyi.org/2025-september/tag/HIV monthly 0.5 https://www.jyi.org/2025-september/tag/adolescent+health monthly 0.5 https://www.jyi.org/2025-september/tag/Bronfenbrenner%27s+Social+Ecological+Model monthly 0.5 https://www.jyi.org/2025-september/tag/covid-19 monthly 0.5 https://www.jyi.org/2025-september/tag/health monthly 0.5 https://www.jyi.org/2025-september/tag/pandemic monthly 0.5 https://www.jyi.org/2025-september/tag/uganda monthly 0.5 https://www.jyi.org/2025-september/tag/healthcare monthly 0.5 https://www.jyi.org/2025-october daily 0.75 2025-11-09 https://www.jyi.org/2025-october/2025/10/28/investigating-hereditary-spastic-paraplegia-axonal-degeneration-by-characterizing-spg15-induced-pluripotent-stem-cells monthly 0.5 2025-10-31 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/5c43184f-31f6-428f-8b31-57eb830db612/2477523-Figure1.png 2025, October - Investigating Hereditary Spastic Paraplegia Axonal Degeneration by Characterizing SPG15-Induced Pluripotent Stem Cells - Make it stand out Figure 1. a. Gene expression in fibroblast and SPG15 iPS cell samples. In setting a baseline sample concentration, there is an equal expression of the housekeeping gene, GAPDH, in both the fibroblast and SPG15 iPS cell samples as established using gel electrophoresis, signifying sufficient cDNA concentrations have been attained to continue with testing genetic expression. b. Gel electrophoresis results. The results from gel electrophoresis indicate a greater relative gene expression of the gene FGF5, a marker for fibroblast cells for loss-of-origin validation, in the fibroblast cells as opposed to the SPG15 iPSC cDNA samples. c. Highlighted gene expression. Similarly, there is a greater relative gene expression of the pluripotent transcription factors — OCT4, NANOG, and SOX2 — in the SPG15 iPSC samples as opposed to the fibroblasts. d. FGF5 fold difference and standard deviation. The fold difference and standard deviation calculated from the quantitative PCR results confirm the pluripotency of the SPG15 iPSCs. SPG15 iPSC: 0.0021±0.0019, **p < 0.01 versus Fibroblasts. https://www.jyi.org/2025-october/category/News+Feature monthly 0.5 https://www.jyi.org/2025-october/category/Careers monthly 0.5 https://www.jyi.org/2025-october/category/Research+Article monthly 0.5 https://www.jyi.org/2025-october/tag/Pluripotent+Transcription+Factors monthly 0.5 https://www.jyi.org/2025-october/tag/Fibroblasts monthly 0.5 https://www.jyi.org/2025-october/tag/Hereditary+Spastic+Paraplegia monthly 0.5 https://www.jyi.org/2025-november daily 0.75 2025-11-20 https://www.jyi.org/2025-november/2025/11/20/the-development-of-the-vented-latex-balloon-hardware-for-the-nationwide-eclipse-ballooning-project monthly 0.5 2026-02-16 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a7592887-2142-42f2-944d-ba3f14491e88/Screenshot+2026-02-16+at+3.13.06%E2%80%AFPM.png 2025, November - The Development of the Vented Latex Balloon Hardware for the Nationwide Eclipse Ballooning Project - Make it stand out Figure 1. The altitude, in feet, of the new vent design on its maiden voyage on July 25th, 2023, with respect to Coordinated Universal Time, compiled from the Iridium data collected during flight Schwehr (2024). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/a259d6bb-70cb-4296-889b-9a3ff2ef98db/Screenshot+2026-02-16+at+3.14.09%E2%80%AFPM.png 2025, November - The Development of the Vented Latex Balloon Hardware for the Nationwide Eclipse Ballooning Project - Make it stand out Figure 2. An annotated image of the new vent design prior to launch on its maiden voyage, highlighting key components of the system and features contributing to underperformance in preliminary designs https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2801ee56-cb06-44fb-a30a-167814b29aed/Screenshot+2026-02-16+at+3.17.18%E2%80%AFPM.png 2025, November - The Development of the Vented Latex Balloon Hardware for the Nationwide Eclipse Ballooning Project - Make it stand out Figure 3. The altitude, in feet, of the new vent design during the annular solar eclipse in Winnemucca, Nevada on October 14th, 2023, with respect to Coordinated Universal Time, compiled from the Iridium data collected during flight Schwehr (2024). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/0f306a17-eb48-4a5c-924c-200491613350/2658199-figure-4.jpg 2025, November - The Development of the Vented Latex Balloon Hardware for the Nationwide Eclipse Ballooning Project - Make it stand out Figure 4. The altitude, in feet, of the new vent design during the total solar eclipse in Fort Wayne, Indiana on April 8th, 2024, with respect to Coordinated Universal Time, compiled from the Iridium data collected during flight Schwehr (2024). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e2c58005-60ef-4712-9991-91572866834e/2658199-figure-5.jpg 2025, November - The Development of the Vented Latex Balloon Hardware for the Nationwide Eclipse Ballooning Project - Make it stand out Figure 5. The multi-view SolidWorks drawing and complete bill of materials of the final vent assembly. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/35fa1354-ef7f-42c7-8681-eb7149205074/2658199-figure-6.jpg 2025, November - The Development of the Vented Latex Balloon Hardware for the Nationwide Eclipse Ballooning Project - Make it stand out Figure 6. The SolidWorks exploded assembly drawing and complete bill of materials of the final vent design. https://www.jyi.org/2025-november/category/Research+Article monthly 0.5 https://www.jyi.org/2025-november/tag/weather monthly 0.5 https://www.jyi.org/2025-november/tag/latex+balloon monthly 0.5 https://www.jyi.org/2025-november/tag/atmospheric+data monthly 0.5 https://www.jyi.org/2025-november/tag/eclipse monthly 0.5 https://www.jyi.org/2025-december daily 0.75 2026-01-05 https://www.jyi.org/2025-december/2025/12/13/three-dimensional-visualization-in-biological-and-medical-research-a-comparative-analysis-of-blender-unity-and-unreal-engine monthly 0.5 2026-03-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/38c46063-97db-43ae-81ea-9c2120c57add/Screenshot+2025-12-13+at+3.08.58%E2%80%AFPM.png 2025, December - Three-Dimensional Visualization in Biological and Medical Research: A Comparative Analysis of Blender, Unity and Unreal Engine - Make it stand out Table 1. Platforms and Extensions for 3D Visualization in Biological Research https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6e23b5e6-680d-49cd-80f5-f7b1ee1ccded/Screenshot+2025-12-13+at+3.13.34%E2%80%AFPM.png 2025, December - Three-Dimensional Visualization in Biological and Medical Research: A Comparative Analysis of Blender, Unity and Unreal Engine - Make it stand out Table 2. Blender, Unity and Unreal Engine: Technical Features and Specifications Note. References marked with * are from the following official websites: *Blender Official Website. Available from: https://www.blender.org/ *Unity Official Website. Available from: https://unity.com/ **Unreal Engine Official Website. 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Neuroscience4Youth Research Case Competition: The challenges and opportunities for implementing non-invasive brain stimulation therapies for Major Depressive Disorder in low-resource communities - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3ddf9a24-c526-40ef-b45f-2c1549be0304/Group+7+N4Y+Poster+-+I%CC%87ris+Attila+%281%29-1.png 2026, January - Neuroscience4Youth Research Case Competition: The challenges and opportunities for implementing non-invasive brain stimulation therapies for Major Depressive Disorder in low-resource communities - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b6401e10-fe78-4488-9d80-77b66b925b17/Neuroscience4Youth+Research+Poster+%281%29+-+Mithra+Venkatesan+%281%29.JPEG 2026, January - Neuroscience4Youth Research Case Competition: The challenges and opportunities for implementing non-invasive brain stimulation therapies for Major Depressive Disorder in low-resource communities - 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Transgender Mental Health in Iran: A Narrative Review of Current Knowledge, Gaps and Future Directions - Make it stand out Table 1. Consolidated studies of mental health in Iran. https://www.jyi.org/2026-february/category/Research+Article monthly 0.5 https://www.jyi.org/2026-february/tag/Iran monthly 0.5 https://www.jyi.org/2026-february/tag/LGBTQ monthly 0.5 https://www.jyi.org/2026-february/tag/Transgender monthly 0.5 https://www.jyi.org/2026-february/tag/Mental+Health monthly 0.5 https://www.jyi.org/best-of-jyi-20232025 daily 0.75 2026-03-01 https://www.jyi.org/best-of-jyi-20232025/2026/3/1/best-of-jyi-2023-2025 monthly 0.5 2026-03-01 https://www.jyi.org/best-of-jyi-20232025/category/Research+Article monthly 0.5 https://www.jyi.org/best-of-jyi-20232025/tag/special+issue monthly 0.5 https://www.jyi.org/best-of-jyi-20232025/tag/Best+of+JYI monthly 0.5 https://www.jyi.org/2026-march daily 0.75 2026-03-02 https://www.jyi.org/2026-march/2026/3/2/wine-your-way-to-good-health-anti-inflammatory-effects-of-resveratrol monthly 0.5 2026-04-02 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2564d86d-82c9-49bb-abc9-583f46da7938/2692532-v7-figure-1.jpg 2026, March - Wine your way to good health: Anti-inflammatory effects of Resveratrol - Make it stand out Figure 1. A proposed schematic on the mechanism of Resveratrol’s suppression of the inflammatory response. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/da13eb2d-4f9d-4378-8511-11bfd877c621/2692532-v7-figure-2.jpg 2026, March - Wine your way to good health: Anti-inflammatory effects of Resveratrol - Make it stand out Figure 2. The effect of resveratrol on BAOEC morphology. (A) BAOECs cultured in media containing ethanol without resveratrol (B) BAOECs cultured in media containing 1μM resveratrol (C) BAOECs cultured in media containing 10μM resveratrol (D) BAOECs cultured in media containing 100μM resveratrol. Cells were labeled with 10mM Cell Tracker Green. All images were obtained under 400X total magnification. Data representative of three trials. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fe294755-a13a-47bc-8149-0b80f06ad8b3/2692532-v7-figure-3.jpg 2026, March - Wine your way to good health: Anti-inflammatory effects of Resveratrol - Make it stand out Figure 3. The effect of resveratrol on cell stress. BAOECs were cultured on 0.2% bovine gelatin coated glass coverslips and were (A) ethanol- treated control, (B) treated with 1μM resveratrol for two hours, (D) 0.025μg/mL TNF-α for 40 min, or (C) 1μM resveratrol for two hours prior to 0.025μg/mL TNF-α for 40 min. All images were obtained using DAPI and Alexafluor 488 filters under 400X total magnification. Image analysis settings were set for the Resveratrol-TNFα control (A) and remained the same throughout each replicate. Data representative of three trails. DAPI counterstain used to verify cell nuclei was removed to allow for black and white image preparation. For image clarity, all images were modified (midtones: 1.04, highlights 255, and saturation -100). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/83e87671-d7a9-4673-b573-a0946e06ba9c/2692532-v7-figure-4.jpg 2026, March - Wine your way to good health: Anti-inflammatory effects of Resveratrol - Make it stand out Figure 4. The effect of resveratrol on wound healing. BAOECs were grown in 0.2% bovine gelatin-treated 6 well tissue culture dishes to confluency. At confluency, the cells were serum-starved for 24 hours, followed by wounding with a cell scrapper. Phase contrast images were taken every 24 hours to track the migration into the wounded area. Representative images taken under 100X of 10 replicates. For clarity, all images were enhanced (brightness 109, contrast 44). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6a4fa59d-d3cb-497f-89b0-e28804e51d79/2692532-v7-figure-5.jpg 2026, March - Wine your way to good health: Anti-inflammatory effects of Resveratrol - Make it stand out Figure 5. The effect of resveratrol on THP-1 cell adhesion. THP-1 cells were incubated with the indicated concentration of resveratrol during the assay compared to an ethanol-treated control and imaged under 200X magnification with DAPI filters. (A) Representative images of DAPI-stained nuclei of adhered THP-1 cells to polyurethane films. (B) Graphical representation of cell counts from 20 replicates, showing mean ± standard deviation. * Statistical significance determined by one-way ANOVA with a Tukey post-hoc analysis (p < 0.01). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9d3e2d5f-5d0d-43ba-8a27-2e7274450375/2692532-v7-figure-6.jpg 2026, March - Wine your way to good health: Anti-inflammatory effects of Resveratrol - Make it stand out Figure 6. The effect of resveratrol on whole bovine blood cell adhesion in a Chandler Loop apparatus. Whole bovine blood was perfused through PVC tubing containing polyurethane films with the indicated concentration of resveratrol during the assay compared to ethanol-treated control imaged under 200X magnification with DAPI filters. (A) Representative images of DAPI-stained nuclei of adhered THP-1 cells to polyurethane films after Chandler Loop exposure. 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https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517845191425-4V7NQVT1ZFIH4ZAEGP9N/Headshot+-+Lucette+Sullivan.jpeg Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517863417651-VQEQ7J6HYSS0VF67PCNG/Shilpa+Rajagopal_Headshot+-+Shilpa+Rajagopal.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517845245213-47XA5FUMIUJQUOYKBI9T/Jacquelyn+Cobb.jpg Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517846874389-PR7XPX1KW2Q6G2W7L4O9/No%2BPicture%2BPlaceholder.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517847134351-FTJ9P8UOCK5YSXPDZX3I/No%2BPicture%2BPlaceholder.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517766045159-1PBOI5VQHCD3HVKMBPRT/IMG_1777+-+ELIZABETH+THOMPSON.jpeg Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1511462061707-K724GD933PKD0VKR6DZF/No%2BPicture%2BPlaceholder.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517767186009-QDTJT7MFH24R1I8MPD5X/17663257_785627614921681_3482559934015471616_n+-+my+name.jpg Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517841962673-RPIARTYI5POMZXEVTAQJ/Ramy-2+-+Ramy+Safwat.jpg Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1511418898361-M3ANDUNPZEWI9JQPCTT5/No%2BPicture%2BPlaceholder.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1511451618852-QH587LKX9V73X5XK417U/No%2BPicture%2BPlaceholder.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1511451704452-7OL8AD20FQT5KRO1RRRA/No%2BPicture%2BPlaceholder.png Our Team https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1517861087012-FUBM0FL5EP6X4PVAHILI/Headshot+-+Savio+Kocherry.jpg Our Team https://www.jyi.org/deborah-yun daily 0.75 2025-08-31 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6d10465c-bee6-4dce-a01b-73bd807ff5a5/tempImagetZ8aPO.jpg Deborah Yun https://www.jyi.org/harshita-yadav daily 0.75 2025-11-11 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/acd5df9f-0d16-44da-a27d-66961a1ea1df/IMG_0843+-+Harshita+Yadav.jpeg Harshita Yadav https://www.jyi.org/executive-board-1 daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9bba0c5a-01e9-4eb1-a803-bd9cd4d41146/IMG_1521+%281%29+-+CCO.jpg Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e6b14e30-ae3f-46d8-a12f-8134f352c3a4/MCIConf-35.jpg Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/141ba122-f850-4ef8-abd3-0be3f88c6e83/IMG_20230104_133924.jpg Executive Board https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1d441652-60bf-4b7b-bac8-81ff33fed651/Hallel+Abrams+Gerber+Headshot+-+halleli+abrams.png Executive Board https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f2bd3346-4971-4241-b249-f6850bbd2740/IMG_2402+-+Julian+Lau.jpg Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/772b608b-d4de-4a27-9d89-53d77378b03a/Wong_Joleen_Photo+-+Joleen+Wong.jpg Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/011edefd-ad8f-4e83-b0f9-cd3261e7c1ee/CindyWuHeadshot.jpg Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2085286d-bda1-4abc-b2d0-1e49c0d408a8/Amrutha+png+image+-+Amrutha+Alibilli.png Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4cc15016-dffb-4f7e-b9ba-7943c2cc7a86/IMG_9097+2.png Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/eb7005dd-fa2e-4911-b71a-9c25ed7a28d1/40192ED4-656B-4692-A53E-466FE2BB8997+-+Heba+Abdelhady.jpg Executive Board - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/journalists-1 daily 0.75 2026-03-09 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e33ac10b-edf8-4b37-81f9-2ecbd4e2e9f1/larissa+-+Larissa+Budzinski.jpg Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/65c8df74-cf06-4a4a-b1f7-d10d29c4a739/Preetal-Deshpande-3+-+Preetal+Shrikant+Deshpande.jpg Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c7c0a69f-d5e9-4147-966d-0f54e5233b68/IMG_0250+-+Youseline+Dufrene.jpeg Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9126eaa1-8b27-46ff-9074-a86d0268f9dd/20251124_070311+-+Hamna+Khan.jpg Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/afeb1d3f-4113-4160-9e3e-a8286ecc5f83/Sylvan%27s+Picture+-+Sylvan+Yang.jpg Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f4016c60-b50c-43a4-a936-9616c1f14a27/id+photo+-+Amanda+He.jpeg Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/26fa9cd4-4bca-4f68-9912-a0ae96ca8aab/file_00000000ec7c71f597abb94846c9c016+-+Ks.png Journalists - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/news-and-careers-editors daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ed4b5738-8b64-4a17-907f-a558cb8d3c25/IMG_9097%2B2.jpeg News and Careers Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9b9c16cd-65b9-40f0-bc3f-be422059e48a/Screenshot+2025-09-01+091916+-+Jiya+Patel.png News and Careers Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/f57fe180-d3b8-4922-8eef-f3c77a330f0e/409D9853-F28A-4F96-BBA2-5B230A96A5C3+-+Krutarth.JPEG News and Careers Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3d5952a0-86ed-4a38-ae9e-902daca1cae8/IMG_6150+-+Jennifer+Fernandez.jpg News and Careers Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/copy-editor daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/54b34d62-1b0c-480d-b958-fe896681e492/Hallel%2BAbrams%2BGerber%2BHeadshot%2B-%2Bhalleli%2Babrams.jpeg Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/edaf34e9-24e1-4b18-9166-a9445c8de00e/tempImageDQrZNw.jpg Copy Editors https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/97ed230f-fa63-4312-aa38-57c8db5d36fb/JYI+Headshot+Photo+-+James+Davis.jpg Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/71bdc6c8-1f96-427a-8c8a-db2506af1f02/WhatsApp+Image+2025-10-27+at+7.58.07+PM+-+Shinza+Ilyas.jpeg Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/43d334e5-70cc-4ea3-a350-5073edfbf706/IMG_3021+-+Marley+Caplan.jpeg Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/347a8aed-d4ac-40eb-a4f0-673dee916d86/20251030_065916-removebg-preview+-+Lexxus+Dominic.png Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ee8a37de-dde8-4755-b00b-c79b6561ca40/IMG_0843+-+Harshita+Yadav.jpeg Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e8fa45ab-815c-4d1c-b2d9-7021f553af1a/IMG_20250328_074047+-+Karl+Cirilson+Angulo.jpg Copy Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/corporate-1 daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/64dd0cc2-d3a4-49c3-8214-afd826857379/40192ED4-656B-4692-A53E-466FE2BB8997+-+Heba+Abdelhady.jpg Development - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/board-of-directors daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/437e1d46-c45b-42eb-aa87-2e38f11d7415/image+%283%29.png Board of Directors BoD Chair https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/411aeece-062c-4d88-9b1f-0bee040908a2/image-asset.jpg Board of Directors https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fd81207f-de9d-4f9d-a67b-194723116477/alexander_headshot.jpg Board of Directors https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3e9269b6-ad27-4fab-b70e-1b4fef60f1e4/millie+profile+picture+-+Amelia+Powell.jpg Board of Directors https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6f70cfdd-8b56-4a49-90b0-a56bcbd6ac3a/bb.jpeg Board of Directors https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/abb37a6b-6aba-40b0-a3b4-21a5e5c98e25/Sheridon+Ward+headshot+-+Sheridon+Ward.jpg Board of Directors https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/d90c1934-b765-414d-ab6b-7ea1c9005411/PGM.jpg Board of Directors BoD Vice Chair https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/186f53e4-0f6d-4d70-83b8-9b2914e62698/albaramirezsanchez.jpg Board of Directors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/research-editors-1 daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/41c1115f-baa6-4a0d-9ba1-04f89ab3b7b8/IMG_2402+-+Julian+Lau.jpg Research Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fafbcdf5-5cf9-4965-a527-0c19dbf75f54/tempImageEYQ06m.jpg Research Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7c7d8014-5635-44f8-9c2e-55ce76a37f13/1000001602%281%29+-+Angelos+Dodopoulos.jpg Research Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/afdd662f-5c98-4005-b4d6-bd7c65b46a05/17934+%281%29+-+Arindam+Bagga.JPG Research Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ce119cb5-9fd7-4302-9248-60aa380ffbf5/headshot+-+Misha+Patel.jpg Research Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/associate-editors-1 daily 0.75 2026-03-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e591557b-fd09-4d7a-bc41-589ce27113b8/Madeline+Chiang+-+Madeline+Chiang.jpg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c30c1fc1-12bd-4f85-bd42-97b9c18388b0/Screenshot+2025-11-17+at+10.01.29%E2%80%AFAM+-+Diya+Garg.png Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/9c02c841-6c29-4684-9331-dce0abe0f7bc/Screen+Shot+2025-01-27+at+5.11.38+PM+-+Arjun+Natarajan.png Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/293b0bcb-6d73-4bfa-bfc1-0a95dd879103/IMG_1572+-+julianna+farias.jpg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/cb69ff6e-3173-47ea-a525-8395b0c7a6d7/pfp+-+Jacob+Westlake.png Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4439762c-8cff-4100-a6c5-a5aff32d0769/Maya+Aryanfar+Headshot+-+Maya+Aryanfar.jpg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b4d96563-fcea-4200-aeee-db40ba536bcd/WhatsApp+Image+2025-10-30+at+01.02.01+-+Mitrajit+Ghorui.jpeg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2cf294c9-101d-4d66-8e74-4b6112def630/IMG_6296+-+Chaunt%C3%A9+Lewis.jpg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1db85de1-a7d1-40d7-991c-8b8a8e608fc1/Headshot++copy+-+Medha+Malik.png Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/e58653b3-cfc6-421c-bbda-44cf0a2c1eba/IMG_8814+-+Anastasia.png Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/99f44387-5af6-470e-abde-59db9eb6619f/tempImage3f8Ap4.jpg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/93372120-997d-4f87-a168-a9d388e8efc7/IMG_20251027_165749+-+Nikoleta.jpg Associate Editors - Make it stand out Whatever it is, the way you tell your story online can make all 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https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/edb4de69-30cc-4344-96e1-7f614cd99ccc/samuel-pereira-uf2nnANWa8Q-unsplash.jpg About the Conference - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.jyi.org/abstracts daily 0.75 2025-06-18 https://www.jyi.org/conference-schedule daily 0.75 2022-01-10 https://www.jyi.org/featured-panels daily 0.75 2022-01-10 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/70974451-70f8-4dc6-9d68-4493087bc51f/MayHui.jpg Featured Panels - May Hui, M.D./Ph.D. candidate at University of California May Hui is an M.D./Ph.D. candidate in the Department of Physiology and Biophysics at University of California, Irvine, where she seeks to identify novel neural circuit targets for pain therapeutics in Dr. Kevin Beier’s laboratory. For her graduate work, May was named a UCI Public Impact Fellow and was chosen for the Dr. Lorna Carlin Scholar Award. She is passionate about undergraduate mentorship and promoting an inclusive future for all - within UCI, May chairs Women in MSTP and is active on the Diversity Committee. Outside the lab, May enjoys thrift shopping and doing ceramics. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/6444a07b-8bdf-4b36-813d-12b7cd076f72/LeeMarcus1.jpg Featured Panels - Marcus Lee, Ph.D. Mechanical Engineering at the California Institute of Technology Marcus recently completed his PhD in mechanical engineering at the California Institute of Technology, where he investigated the effect of spin rate on the flow over a spinning disk. During his time at Caltech, he was president of the Mechanical and Civil Engineering (MCE) department’s graduate student committee and organized various social and professional events and workshops. He also cofounded the MCE Student Climate Committee and advocated for improved diversity, equity and inclusion within the department. After serving as a teaching assistant for various courses, Marcus discovered his passion for teaching and is excited to pursue a career in education. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/dc9bc10d-25ca-4a40-8a8f-075d0ce79184/1593123703494.jpeg Featured Panels - Vy Nguyen, Ph.D. Developmental Biology at Stanford University Vy Nguyen is a 5th year PhD candidate in Developmental Biology at Stanford University. Her research explores molecular and genetic mechanisms regulating pancreatic function, and how their dysregulation may result in diabetic phenotypes. Prior to beginning her graduate studies at Stanford, she graduated from Bowdoin College with a dual degree in Biochemistry and Government & Legal Studies and worked as a lab technician at Boston Children’s Hospital. Outside of lab, she is passionate about helping other trainees explore different career paths in the biosciences, baking, gardening, and hunting for the best ice cream in the Bay Area. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/fc961eb3-1cb3-4622-aaf7-db5cf152500b/image0.jpeg Featured Panels - Dr. James Truong, M.D. Family Medicine Dr. James Truong is a Family Medicine, Emergency and Hospitalist physician working in North Bay, Ontario. His undergraduate was in biochemistry with an accidental minor in psychology. He has a side interests in postgraduate education, resiliency and preparedness medicine and occasionally works as a ringside doctor at MMA, jiu-jitsu and kickboxing events. Along the road to his current career, he has been a Young Investigator and unpaid, last author on published articles including “A Splice Variant of the ITF-2 Transcript Encodes a Transcription Factor That Inhibits MyoD Activity” and “Furby does not interfere with medical devices.” https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/3028e269-e95f-4e5f-a019-d57738dadc3e/DeniseStockley.jpg Featured Panels - Dr. Denise Stockley, Professor of Higher Education and Health Sciences at Queen’s University Denise Stockley completed her Doctorate in the Psychology of Education at Simon Fraser University and since that time has accumulated extensive experience in promoting both classroom-based and online learning. Denise joined Queen’s University in January 2001. She is currently a Professor and Scholar in Higher Education with the Office of the Provost (Teaching and Learning Portfolio) and the Faculty of Health Sciences. She was part of the award-winning team that led the Post-graduate Medical Education towards a competency-based curriculum. Denise is the President of the Society for Teaching and Learning in Higher Education (STLHE) and the former Vice-President of the International Consortium for Educational Development (ICED). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/c990a87e-e8ca-4c34-bfc7-9325601a8520/MWU_July_2019_small.jpg Featured Panels - Dr. Nafisa M. Jadavji, Professor of Neuroscience at Midwestern University Dr. Nafisa M. Jadavji is a Neuroscientist. She is an Assistant Professor at Midwestern University and Research Professor at Carleton University. In 2012, she completed her doctoral training at McGill University in Montréal, Canada. Her laboratory investigates how the brain responds to different biological processes throughout the lifespan. More specifically, her lab studies the brain, maternal nutrition contributions to offspring neurodevelopment, neurological diseases (e.g. stroke and vascular dementia), and aging. Dr. Jadavji was in the research department at Journal of Young Investigators (JYI) from 2004 until 2008. In 2011, she returned to JYI as a Board of Directors, and is currently the Finance Chair. She is also theChair of the Advisory Board for Reproducibility for Everyone (R4E). https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/8983b1a8-bf41-4d66-826f-9a1d462f0555/Marc+Riedel_no+shadow.jpg Featured Panels - Dr. Marc Riedel, Associate Professor of Electrical and Computer Engineering at the University of Minnesota Marc Riedel is Associate Professor of Electrical and Computer Engineering at the University of Minnesota. From 2006 to 2011 he was Assistant Professor. He is also a member of the Graduate Faculty in Biomedical Informatics and Computational Biology. From 2004 to 2005, he was a lecturer in Computation and Neural Systems at Caltech. He has held positions at Marconi Canada, CAE Electronics, Toshiba, and Fujitsu Research Labs. He received his Ph.D. and his M.Sc. in Electrical Engineering at Caltech and his B.Eng. in Electrical Engineering with a Minor in Mathematics at McGill University. His Ph.D. dissertation titled "Cyclic Combinational Circuits" received the Charles H. Wilts Prize for the best doctoral research in Electrical Engineering at Caltech. His paper "The Synthesis of Cyclic Combinational Circuits" received the Best Paper Award at the Design Automation Conference. He is a recipient of the NSF CAREER Award. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/4fb03407-d508-4c94-b099-631821cdcfbf/Dr+Karl-credit+Ross+Coffey.jpg Featured Panels - Dr. Karl Kruszelnicki AM, Science communicator and popularizer, author, and a science commentator on Australian radio and television. Dr. Ranjan Batra, Vice President of LocanaBio - Ranjan Batra is an expert in modeling and therapeutics of RNA mediated disease. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/7800fa5b-23c3-4529-bdf2-4e4264a38d39/1557244011073.jpg Featured Panels - Diana Saville, Co-Founder and CCO at BrainMind Diana studied biochemical sciences at Harvard College and began her creative work as a scientific animator while pursuing a Ph.D. in molecular and cellular biology at the University of California, Berkeley. Diana Saville is the co-founder and CCO of BrainMind. Diana also cofounded and leads a science and technology entrepreneurship program for low-income college students called Entrepreneur of Your Own Life, and she is the Director of the Global Leadership Incubator, a partnership with the H. H. Dalai Lama which provides scholarship opportunities for exceptional Tibetan refugees. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/ce6b24d9-7353-4e5a-bb2d-38906bc13c2a/Dada_Abraham_15173912.jpg Featured Panels - Abraham Dada, Clinical Operations Manager at Dreem Abe is an aspiring physician entrepreneur, who aims to use tech to expand access to healthcare. During his gap year, he’s serving as the Clinical Operations Manager at Dreem, a neurotech company reshaping sleep care. Based in the Bay area, he’s working to launch a digital sleep clinic and provide accessible care to those suffering from sleep disorders. Abe discovered his passion for neurotech at Harvard, where he graduated this past spring with a B.A. in Neuroscience and a minor in Medical Anthropology. Interning at BrainMind and having met pioneers in the neurotech industry, Abe realized that entrepreneurship is a viable route to effect meaningful change. He intends to create his own startup in the health tech industry in the near future. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/2e1f4a78-e352-4c1a-b77e-ad1fd1800476/1626988294433.jpg Featured Panels - Dr. Alexander N. Patananan, Medical Communications Manager at Amgen Dr. Alexander N. Patananan is a native Californian. He attended UCLA for his Bachelors of Science degree and majored in Microbiology, Immunology, and Molecular Genetics. At UCLA, Alexander conducted drosophila genetics research under the guidance of Drs. Utpal Banerjee and John M. Olson. After graduating in 2008, he was accepted into the doctoral studies program in the Chemistry and Biochemistry Department at UCLA, and joined the Dr. Steven Clarke laboratory in the spring of 2009. Alexander’s thesis uses several model organisms, including the pathogenic fungus Aspergillus nidulans, the budding yeast Saccharomyces cerevisiae, the worm Caenorhabditis elegans, and mice, to discover and characterize novel regulatory, repair, and biosynthetic enzymatic functions. Alexander obtained his Ph.D in 2014 and is a postdoctoral fellow in the Dr. Michael Teitell laboratory at UCLA. He now works as the Medical Communications Manager at Amgen. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/20a04e97-c6d4-44be-869f-0e355321811c/Dr+Karl-credit+Ross+Coffey.jpg Featured Panels - Dr. Karl Kruszelnicki AM, Science communicator and popularizer, author, and a science commentator on Australian radio and television. Join us for a fantastic presentation by Dr. Karl Kruszelnicki AM, where he will teach you how to communicate science effectively for the general public! Dr. Karl is an expert science communicator and has many years of experience under his belt communicating science to the Australian public and the world! The author of 47 books (and counting) Dr Karl is a lifetime student with degrees in physics and mathematics, biomedical engineering and medicine and surgery. https://www.jyi.org/2020-photo-competition daily 0.75 2020-12-23 https://www.jyi.org/2021-news-careers daily 0.75 2025-10-17 https://www.jyi.org/2021-research daily 0.75 2025-10-16 https://www.jyi.org/mr-peter-mikhael daily 0.75 2025-04-18 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/1610901370210-X1F2P4JGXMU3P2NWH3EY/PGM.jpg Mr. Peter Mikhael https://www.jyi.org/translation-editors-and-translators daily 0.75 2026-02-26 https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/b0cfb87f-1c48-4e19-a870-531f5a1e5f98/Photo+-+Cypress+Henning.jpg Translations - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/5443d7c7e4b06e8b47de9a55/023fef42-13a6-4397-91c0-00184e883a78/23-06098+-+Angela+Carrascosa.jpg Translations - 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