Human cerebral organoids treated with VPA show a decreased size, impaired neurogenesis, and induction of senescence in NE cells. by Muriel Rhinn (406515)

Multi-way sensitivity analysis on transmission rate, CD4 count at diagnosis, and ART costs in a model-based analysis of Immediate ART initiation in Côte d’Ivoire. by Eric N. Ouattara (6890174)

<i>Pw1</i> deletion does not result in significant decrease in oxytocin production and release. by Anne-Lyse Denizot (3170142)

Adiponectin-induced Irak3 plays an important role in rosiglitazone-mediated decrease of Mcp1. by Maarten Hulsmans (181118)

NC1 α4(IV) overexpression by melanoma cells decreases tumor growth in a mouse xenograft model. by Sylvie Brassart-Pasco (169037)

Western blots showing increased CaM, CaN and NCX1 levels, and decreased SERCA2 levels in human heart failure. by Raquel Cortés (331424)

Decreased expression of V-ATPase upon the siRNA transfection. by Manisha Naskar (2613763)

Decrease of excitability in small IB4-positive TG neurons over-expressing TRESK channels. by Zhaohua Guo (383295)

SHIP-1 decreases NOD2-induced NF-κB activation in epithelial cells. by Claude Condé (150801)

Inhibition of Rab5 Activity Decreases Fluid-Phase Uptake by Carsten Schnatwinkel (48)

Decreased proliferation and increased apoptosis in <i>Mab21l2</i> mutant embryos. by Yohei Saito (180130)

“…Scale bars represent 100 µm (A, D, H, K) and 50 µm (N and P). (R) Quantitative RT-PCR for genes regulating cell proliferation and apoptosis (<i>N-myc</i>, <i>Id2</i>, <i>Cyclin D1</i>, <i>Cyclin D2</i>), marker genes of myocardial differentiation (<i>Anf</i>, <i>Chisel</i>, <i>Mlc2v</i>), genes essential for the development of the trabecular myocardium (<i>Erbb2</i>, <i>Erbb4</i>, <i>Bmp10</i>), genes essential for heart development (<i>Nkx2.5</i>, <i>Gata4</i>), and endocardial transcripts (<i>Flk1</i>, <i>Tie1</i>, <i>Tie2</i>) normalized to <i>Gapdh</i> expression using RNA from dissected hearts of E11.5 WT and <i>Mab21l2</i> mutant (−/−) embryos. …”

Decreased survival, splenomegaly, thrombocytopenia and megakaryocyte alterations in SCID-Rasa3^−/− mice. by Patricia Molina-Ortiz (167505)

Neutrophil activation and recruitment and CXCR2 expression were decreased in antibiotic pre-treated mice. by Koji Watanabe (205444)

mGluR5 receptor decreased glycinergic currents. by Zi-Yang Zhang (4988555)

“…(<b>E</b>) The inhibitory effect of CHPG on GlyR-IPSCs was not blocked by intracellularly loaded GDP-β-S (62.3 ± 6.4% of baseline at 15–20 min post-CHPG, <i>t</i>[6] = 2.782, <i>p</i> = 0.032), chelerythrine (60.9 ± 11.3% of baseline at 15–20 min post-CHPG, <i>t</i>[6] = 2.705, <i>p</i> = 0.035), or Ro-32-0432 (69.9 ± 3.2% of baseline at 15–20 min post-CHPG, <i>t</i>[5] = 8.495, <i>p</i> < 0.001). (<b>F</b>) Postsynaptic loading of U-0126 or PD98059 prevented CHPG from decreasing glycinergic responses (U-0126, 107.6 ± 10.4% of baseline at 15–20 min post-CHPG, <i>t</i>[8] = 0.997, <i>p</i> = 0.348; PD98059, 93.1 ± 5.0% of baseline at 15–20 min post-CHPG, <i>t</i>[5] = 0.883, <i>p</i> = 0.418). …”

B-RAF inhibitor PLX4720 decreased hERG currents in rhabdomyosarcoma RD cells. by Tatsiana Pakladok (311653)

Competition localization increases with growth rate or the distances between colonies, and decreases with the resource diffusion constant. by Jeremy M. Chacón (8259792)

Growth of N-replete and N stressed cultures. by Steve Dagenais Bellefeuille (654383)

Sustained expression of radmis results in decreased cell proliferation and increased cell-cycle exit of NSPCs. by Takahito Yumoto (481671)

Inclusion of TPP side chains result in decreased melanoma cell mitochondria membrane potential, oxygen consumption, and increased DHE oxidation. by Kyle C. Kloepping (9928265)

“…<p>(A) A375 melanoma cells were treated with 0.5 μM, 1.0 μM, or 2.0 μM 5-, 10-, or 16-TPP for 1 h and analyzed for mitochondria membrane potential by the JC-1 method (* significant relative to control; p<0.05; n = 2 from 2 separate experiments; N = 4). …”

Excision of HIF1α decreases viral reactivation from latency in infected splenocytes in vivo. by Darlah M. López-Rodríguez (8098544)