Table_1_Pharmacotherapy for the Treatment of Overweight and Obesity in Children, Adolescents, and Young Adults in a Large Health System in the US.DOCX by Kathryn S. Czepiel (8830901)

“…Multivariable analyses demonstrated phentermine was the most effective AOM, with a 1.54% total body weight among YA (p = 0.05) and a 0.12 decrease in BMIz among adolescents (p = 0.003) greater final weight loss when compared to the respective overall frequency-weighted means. …”

Hydrogen bond interactions between Akt1/Akt2-IN-1 (red) and the AKT2 protein (blue) as predicted by molecular docking analyses. by Sadia Afrin Runa (22504971)

Image_1_Location matters: spatial dynamics of tumor-infiltrating T cell subsets is prognostic in colon cancer.tif by Hehuan Zhu (4808445)

Specific elements of the glyoxylate pathway play a significant role in the functional transition of the soybean cotyledon during seedling development-2 by Delkin O Gonzalez (86430)

“…Peroxisomes are commonly large and abundant in photosynthetic tissues. 1 – Lipase; 2 – Malate dehydrogenase (MDH); 3 – Citrate synthase (CS); 4 – Aconitate hydratase (AH); 5 – Isocitrate lyase (ICL); 6 – Malate synthase (MS); A – Ribulose-bisphosphate caroboxylase (Rubisco); B – Glycolate oxidase; C – glutamate semialdehyde aminotransferase; D – Catalase; E – phosphoglycerate kinase.…”

Effects of Exercise Types on Muscle Strength and Body Composition in Men and Women: A Systematic Review and Meta-analysis by Ki-Woong Noh (16801002)

“…Physical activity plays a very important role in preventing and improving problems such as decreased physical ability, sarcopenia, and sarcopenic obesity. …”

Association between testosterone with type 2 diabetes in adult males, a meta-analysis and trial sequential analysis by Jianzhong Zhang (135766)

Treatment of simulated crush injury to nodes on the right with a potassium channel blocker that reduces peak potassium conductance in all nodes by 80%. by Charles F. Babbs (430220)

“…Average axon diameter 1.0 micrometer; number of nodes of Ranvier 21; normal node width 0.65 micrometer; injured node width 1.95 micrometer; width of juxtaparanodal region on both sides of a node 5.0 micrometers. The resistivity of intracellular fluid 200 ohm-cm; normal paranodal resistance 3.2×10¹⁰; injured paranodal resistance 3.2×10⁸ ohms; specific membrane capacitance of axonal membrane 1 mircofarad per square centimeter; resting axonal membrane potential –85 mV; threshold potential –50 mV; sodium equilibrium potential +67 mV; potassium equilibrium potential –95 mV. …”

A robust experimental-based artificial neural network approach for photovoltaic maximum power point identification considering electrical, thermal and meteorological impact by Gowid, Samer

“…The results showed a decrease in the MSE of Vmp by 74.3% (from 1.6 V to 0.411 V), and in the MSE of Imp by 95% (from 4.4e−6 A to 2.16e−7 A), respectively. …”
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Plot of the surface under the cumulative ranking curve for VSS score. by Xiaojuan Yang (794374)

Data from: Response of a pan-European fish index (EFI+) to multiple pressures in rivers across Spain by Juan Diego Alcaraz-Hernández (16305201)

“…Correlation and multiple linear regression analyses were used to test the relationship between these pressures and the fish index (EFI+) and its four individual metrics scores (i.e., density of species intolerant to oxygen depletion, density of fish ≤150 mm of species intolerant to habitat degradation, richness of species of rheophilic reproduction habitat, and density of species of lithophilic reproduction habitat). …”

File S1 - The Capacity of Red Blood Cells to Reduce Nitrite Determines Nitric Oxide Generation under Hypoxic Conditions by Marcel H. Fens (595238)

“…When comparing commercial hemoglobin with concentrations of 4, 8, 12 and 16 g/dL, incubated with 5 mM nitrite under strict hypoxia, a concentration-dependent effect was seen alike we have seen for hemolysates (C, D and E). …”

Supplementary Table S17 from A Functional Survey of the Regulatory Landscape of Estrogen Receptor–Positive Breast Cancer Evolution by Iros Barozzi (15113515)

Table_3_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.docx by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Image_3_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.eps by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Image_2_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.eps by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Table_2_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.xlsx by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Table_1_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.docx by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Image_7_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.eps by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Image_1_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.eps by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”

Image_4_Alkalinity modulates a unique suite of genes to recalibrate growth and pH homeostasis.eps by Mitylene Bailey (16471428)

“…Transcriptional profiling of roots subjected to short-term transfer from optimal (pH 5.5) to alkaline (pH 7.5) media unveiled a large set of differentially expressed genes that were partially congruent with genes affected by low pH, bicarbonate, and nitrate, but showed only a very small overlap with genes responsive to the availability of iron. …”