Overlayed expression profiles of cyclins A2 and B1. by James W. Jacobberger (184625)

“…Inset in D: zoomed view of initial decrease in both cyclins as cells enter mitosis. In A, B, and C, means (of median specific fluorescence) are shown. …”

m6A mRNA Methylation Controls Functional Maturation in Neonatal Murine β Cells by Ada Admin (8524211)

“…</a>In both diabetic <i>db/db</i> mice and type 2 diabetes patients, decreased Mettl3/14 expression in <a></a><a>β</a> cells were observed, suggesting its possible role in type 2 diabetes. …”

Unique features of the m⁶A methylome and its response to drought stress in sea buckthorn (<i>Hippophae rhamnoides</i> Linn.) by Guoyun Zhang (2231863)

“…Interestingly, our results showed three m⁶A demethylase (<i>HrALKBH10B, HrALKBH10C</i> and <i>HrALKBH10D</i>) genes were significantly increased following drought stress, which indicated that it may contributed the decreased m⁶A levels. …”

Overview of the temperature treatments, abiotic variables and chlorophyll A concentrations in experiment 2 ± standard error (SE). by Maarten Schrama (2924811)

A parallel model of the BP neural network. by Jianfang Cao (1881379)

Assessment of calcium events, pERK levels, NMDA receptor expression and extracellular zinc levels in <i>slc13a5</i> mutants. by Deepika Dogra (21072023)

“…<b>(M, M’, N, N’,</b> Q) Quantification of the fluorescence intensity (CTCF) ratios of Palm-ZP1:CellMask Orange in the plasma membrane. <i>5a</i>^{<i>−/−</i>}<i>;5b</i>^{<i>−/−</i>} larvae show a significant decrease in Palm-ZP1:CellMask Orange CTCF ratio in the plasma membrane compared to WTs. …”

Supplementary Material for: TNFAIP2 Inhibits Early TNFa-Induced NF-κB Signaling and Decreases Survival in Septic Shock Patients by Thair S.A. (4152325)

“…Using tag single-nucleotide polymorphisms in the genes common to all data sets, we identified a genetic variant of the <i>TNFAIP2</i> gene, rs8126, associated with decreased 28-day survival and increased organ dysfunction in an adult cohort in the Vasopressin and Septic Shock Trial. …”

The intensity of WGA staining of the intestinal epithelium decreases along the length of the SI and can be reduced by N-acetyl-L-cysteine (NAC) treatment. by Yves A. Millet (638441)

Endogenous FGFR4 and IKKβ interact in DU145 cells, and FGFR4 activation decreases TNFα-induced signaling. by Kristine A. Drafahl (234437)

<i>Brca2</i>^{<i>G25R/Ko</i>} mutant males have decreased fertility. by Suzanne A. Hartford (596319)

Depletion of CD4 and CD8 T cells decreased or eliminated survival benefit following intratumoral ILV/mIL12 treatment. by Jardin A. Leleux (11785205)

SOCS3 decreases IL-10 secretion and increases IL-6 release in fetal type II cells exposed to mechanical stretch. by Michael A. Hokenson (391291)

Small decreases in Ca²⁺ influx following exposure to JZL184 in isolated rat islets and INS-1 cells. by Charles A. Berdan (849879)

Mitochondrial single-stranded DNA binding protein novel <i>de novo SSBP1</i> mutation in a child with single large-scale mtDNA deletion (SLSMD) clinically manifesting as Pearson, K... by Margaret A. Gustafson (2138056)

“…Size exclusion chromatography of p.E27K SSBP1 revealed it remains a stable tetramer. However, differential scanning fluorimetry demonstrated p.E27K SSBP1 relative to wild type had modestly decreased thermostability. …”

Adaptation following drug washout. by Alma Beatrix Stier (20903134)

Loading rate—Failure stress relation diagram. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

Specimen preparation proced. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

Water content—Failure stress relation diagram. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

The molar envelope. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

Influence of water content on accumulated strain. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”