Bilirubin decreases the viability of <i>E. faecalis</i>. by Christopher L. Nobles (437464)

GroEL1 decreases EPC number and function. by Yi-Wen Lin (143406)

AZA decreased IR-induced microvascular hyper-permeability. by Chou-Chin Lan (2938674)

VGB decreased activation of the mTOR pathway in vivo. by Bo Zhang (6559)

Table_1_S100B chaperone multimers suppress the formation of oligomers during Aβ42 aggregation.XLSX by António J. Figueira (14819254)

“…We also determined that sub-molar ratios of tetrameric apo-S100B decrease Aβ42 oligomerization influx down to 10%, while precluding both secondary nucleation and, more discreetly, fibril elongation. …”

Activated caspase-3 decreases following CO exposure. by Ying Cheng (288456)

Proteins Significantly Decreased in Two or More DBA Patients. by Esther N. Pesciotta (508912)

U-46119 decreases blood flow in the SVZ in vivo. by Benjamin Lacar (332886)

PAI-1 decreased Shh induced tube formation. by Hua Teng (177804)

Speed of misspecified cells decreases with magnitude of differential adhesion, by Rui Zhen Tan (623080)

SST decreases Rac1 activity in migrating keratinocytes. by Matthias Vockel (351786)

SFN pre-incubation decreases neutrophil respiratory burst. by Irundika H. K. Dias (425605)

HC-030031 decreases scrunching latency induced by AITC. by Ziad Sabry (8087801)

Decreased expression of Pol β in human esophageal adenocarcinoma. by Katsuhiko Yoshizawa (371246)

Decreased expression of maturation but not secretory stage-specific genes. by Ramaswamy Sharma (247989)

Kisspeptin-10 decreases blood flow in the peripheral vasculature. by Iain Sawyer (356468)

2-APB decreased the cytokine secretions in human DC. by Romain Félix (586765)

Receptor specific silencing decreases NGF induced apoptosis. by Alessandra Micera (294762)

“…A 37.5%-decrease (*) and a 50%-decrease (**) of apoptotic signal were detected respectively in p75^NTR-siRNA and p75^NTR/trkA^NGFR-siRNA (p<.05).…”

Formation of Formic Acid Derivatives through Activation and Hydroboration of CO₂ by Low-Valent Group 14 (Si, Ge, Sn, Pb) Catalysts by Nery Villegas-Escobar (1475566)

“…These species are relevant because they have been able to mimic transition metal behavior in catalytic applications, with decreased material costs and diminished toxicity. In this contribution, we study the L¹EH catalysts (E = Si­(II), Ge­(II), Sn­(II), and Pb­(II); L¹ = [ArNC­(Me)­CHC­(Me)­NAr] with Ar = 2,6-iPr₂C₆H₃) for the formation of formic acid derivatives through hydroboration of CO₂. …”

Increased proliferation and decreased luminal apoptosis in IGFIR structures by Gina M Yanochko (20949)