Blocking C5L2 decreased MPO concentration in the supernatant of C5a-primed neutrophils. by Jian Hao (160736)

Prioritising public information leads to an overall decrease in cooperation occurring in networks. by Adam Lee Miles (14123916)

Schematic illustration of the possible steps of ‘stalk mechanism’ of the electrofusion of two ‘single GUVs’. by Md. Tariqul Islam Bhuiyan (18794375)

The estrogen receptor-α agonist PPT decreases cardiac myofilament activation. by Justyna Kulpa (313372)

“…<p>Myocardium was treated with the estrogen receptor-α agonist PPT (100 nM) for 1 (A) (N = 9), 2.5 (B) (N = 9), or 5 min (C) (N = 22). …”

WT1 mRNA and protein levels are decreased by GnRH. by Debalina Bagchi (686046)

Graphic representation of freezing detection by video inspection and a computerized algorithm. by Hiram Cantú (6009626)

PMC exhibits less sensitivity to decreasing signal-to-noise ratio (SNR) by Owen Puls (22340344)

Combination of MK-2206 and R5020 significantly decreases cell viability. by Alok Pant (314711)

App1 decreases the recovery time after amphotericin B treatment. by Muhammad Ghaffar (8082002)

Over-expression of rhodopsin decreased the expression levels of differentiation markers in NHEKs. by Hyoung-June Kim (459814)

<i>In vitro</i> IC₅₀ values (nM) for fatty acid desaturases. by Hiroaki Yashiro (2231686)

Predictions of random forests (RF), gradient boosting machines (GBM), and neural networks (NN) trained on 12 covariates chosen using subjective feature selection. by Dennis Ochola (11626912)

Predictions of random forests (RF), gradient boosting machines (GBM), and neural networks (NN) trained on 17 covariates selected after recursive feature selection. by Dennis Ochola (11626912)

<i>E. faecalis</i> metabolism decreases after exposure to bilirubin. by Christopher L. Nobles (437464)

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…In viscous solvents, the particle steps decrease proportionally to the increment of the viscosity, leading to macroscopically slow diffusion. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…In viscous solvents, the particle steps decrease proportionally to the increment of the viscosity, leading to macroscopically slow diffusion. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…In viscous solvents, the particle steps decrease proportionally to the increment of the viscosity, leading to macroscopically slow diffusion. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…In viscous solvents, the particle steps decrease proportionally to the increment of the viscosity, leading to macroscopically slow diffusion. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…In viscous solvents, the particle steps decrease proportionally to the increment of the viscosity, leading to macroscopically slow diffusion. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…In viscous solvents, the particle steps decrease proportionally to the increment of the viscosity, leading to macroscopically slow diffusion. …”