Buffer Zones for 2,4-D Applications Nearby Tobacco Fields by Matheus Machado Noguera (13022509)

“…Drifted herbicide was collected using tobacco plants placed at various points (-50 up to 400 meters from application zone), following three schemes: a) 0 to 0.5 hours after application (HAT); b) 0 to 24 HAT; and c) 0.5 to 24 HAT. …”

MigrationDispersal_Categorical_GLMs_workflow.r from High dispersal rates in hybrids drive expansion of maladaptive hybridization by Samuel L. Bourret (13997720)

“…Hybridization between native and invasive species, a major cause of biodiversity loss, can spread rapidly even when hybrids have reduced fitness. …”

MigrationDispersal_pRBT_GLMs_workflow.r from High dispersal rates in hybrids drive expansion of maladaptive hybridization by Samuel L. Bourret (13997720)

“…Hybridization between native and invasive species, a major cause of biodiversity loss, can spread rapidly even when hybrids have reduced fitness. …”

ClintOtos_withStrayAssignment.csv from High dispersal rates in hybrids drive expansion of maladaptive hybridization by Samuel L. Bourret (13997720)

“…Hybridization between native and invasive species, a major cause of biodiversity loss, can spread rapidly even when hybrids have reduced fitness. …”

Combined_mig_dis_data.csv from High dispersal rates in hybrids drive expansion of maladaptive hybridization by Samuel L. Bourret (13997720)

“…Hybridization between native and invasive species, a major cause of biodiversity loss, can spread rapidly even when hybrids have reduced fitness. …”

Intracellular K⁺ is modulated by glutamate application. by Theresa S. Rimmele (638198)

“…<p>(<b>A</b>) Application of 200 µM glutamate induced a rapid and reversible [K⁺]_i decrease with a amplitude of 2.3±0.1 mM (<b>B</b>) The [K⁺]_i response to glutamate application in the range 0.1 µM to 10 mM followed a Michaelis and Menten kinetics with an apparent EC₅₀ of 11.1±1.4 µM. …”

Golgi staining and Sholl analysis of pyramidal neurons in CA1. by Juan Beauquis (359752)

“…Significant differences were found in the 20–100 µm range with a decrease in DIAB-SC mice (* <i>p</i><0.05 vs. …”

ClintOtos_NoStrayAssignment.csv from High dispersal rates in hybrids drive expansion of maladaptive hybridization by Samuel L. Bourret (13997720)

“…Hybridization between native and invasive species, a major cause of biodiversity loss, can spread rapidly even when hybrids have reduced fitness. …”

Effects of synaptic transmission on network bursts. by Davide Lonardoni (4282318)

In-Situ Formed Phosphorus Modified Gel Polymer Electrolyte with Good Flame Retardancy and Cycling Stability for Rechargeable Lithium Batteries by Yirou Du (14755523)

Box-and-whisker plots of ADC kurtosis. by Akiyo Takada (11959610)

Histological evaluation of vasculature and quantification of the vascular index. by Deepa Sharma (278210)

“…The step-wise trend for decreasing vascular index mirrors the increase in cell death as shown in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0237372#pone.0237372.g002" target="_blank">Fig 2C</a>. …”

Expression of cholinergic receptor muscarin 3 and acetylcholine esterase in eccrine gland secretory coil of normal and atopic dermatitis skin specimens. by Koji Kamiya (731109)

“…In eccrine gland secretory coil cells, the expression levels of CHRM3 and GCDFP15 are decreased in parallel in AD. Bars indicate 50 μm.</p>…”

E protein residues critical for neutralization by bnAbs. by Jay Lubow (772012)

“…<p>(Left panel) Bar graphs show the mean IC50 fold change against DENV2 16681 reporter virus particles encoding E protein variants relative to wild type (WT) DENV2 for antibodies <b>(A)</b> F09.S05, <b>(B)</b> F05.S03, <b>(C)</b> J9, <b>(D)</b> F25.S02, and <b>(E)</b> EDE1-C10. …”

HDAC7 Inhibition by Phenacetyl and Phenylbenzoyl Hydroxamates by Jeffrey Y. W. Mak (10132069)

“…Phthalimide capping groups, including a saccharin analogue, decrease rotational freedom and provide hydrogen bond acceptor carbonyl/sulfonamide oxygens that increase inhibitor potency, liver microsome stability, solubility, and cell activity. …”

HDAC7 Inhibition by Phenacetyl and Phenylbenzoyl Hydroxamates by Jeffrey Y. W. Mak (10132069)

“…Phthalimide capping groups, including a saccharin analogue, decrease rotational freedom and provide hydrogen bond acceptor carbonyl/sulfonamide oxygens that increase inhibitor potency, liver microsome stability, solubility, and cell activity. …”

HDAC7 Inhibition by Phenacetyl and Phenylbenzoyl Hydroxamates by Jeffrey Y. W. Mak (10132069)

“…Phthalimide capping groups, including a saccharin analogue, decrease rotational freedom and provide hydrogen bond acceptor carbonyl/sulfonamide oxygens that increase inhibitor potency, liver microsome stability, solubility, and cell activity. …”

HDAC7 Inhibition by Phenacetyl and Phenylbenzoyl Hydroxamates by Jeffrey Y. W. Mak (10132069)

“…Phthalimide capping groups, including a saccharin analogue, decrease rotational freedom and provide hydrogen bond acceptor carbonyl/sulfonamide oxygens that increase inhibitor potency, liver microsome stability, solubility, and cell activity. …”

HDAC7 Inhibition by Phenacetyl and Phenylbenzoyl Hydroxamates by Jeffrey Y. W. Mak (10132069)

“…Phthalimide capping groups, including a saccharin analogue, decrease rotational freedom and provide hydrogen bond acceptor carbonyl/sulfonamide oxygens that increase inhibitor potency, liver microsome stability, solubility, and cell activity. …”

HDAC7 Inhibition by Phenacetyl and Phenylbenzoyl Hydroxamates by Jeffrey Y. W. Mak (10132069)

“…Phthalimide capping groups, including a saccharin analogue, decrease rotational freedom and provide hydrogen bond acceptor carbonyl/sulfonamide oxygens that increase inhibitor potency, liver microsome stability, solubility, and cell activity. …”