Treatment with TDF decreased cell viability and induced morphological changes in hepatic stellate cells. by Sung Won Lee (222509)

RIG-I deficient mice demonstrate decreased protection against heterologous IAV challenge. by Matheswaran Kandasamy (105167)

mPEG PV1-Fab’ treatment decreases T_reg population. by Pedro Henrique Papotto (791904)

Effect of MF (2 mT, 50 Hz) on ERK activation and phosphorylation levels of HUVECs. by Simona Delle Monache (402973)

Disruption of FGFR1-Frs2/3 pathway decreases the number of support cells. by Kazuya Ono (513633)

Ofd1 protection of photoreceptors from oxidative stress via decreasing ROS production. by Juan Wang (115708)

“…NC: normal control. * p<0.05. n = 6. (C) These results showed that the SOD and CAT activities decreased by 40% and 30% in MNU-treated cells (MNU), but was partially attenuated by Ofd1 overexpression (Ofd1-CDS+MNU). …”

Mean (±95%CI) 24-hr post soreness measured using a numeric pain rating scale (1–10) for the Nordic hamstring exercise, Sprint, and control groups. by Nicholas J. Ripley (14709756)

Loss of <i>Nf1</i> increases sleep fragmentation and decreases sleep depth. by Elizabeth B. Brown (4582978)

“…<p><b>(A-C)</b> Sleep traits of <i>nf1</i>^P1 mutants, heterozygotes, and their respective control. …”

Characterization of Cadherin-11 expression in the Tsk-1 mouse model of skin fibrosis. by Mesias Pedroza (212574)

Peptides containing LANA caspase cleavage sites inhibit caspase activity, decrease PARP cleavage and increase cell viability. by David A. Davis (239142)

Frequency of the number of peaks (<i>N</i>_pics) (black, left vertical axis) and average amplitude of pics (<i>A</i>_pics) (red, right vertical axis) observed i... by Sławomir Grzegorczyn (12035398)

GSH depletion leads to a strong decrease in SCF-dependent HIF-1α PHD activity in LAD2 cells. by Bernhard F. Gibbs (328262)

Association of metabolic syndrome components and HbA1c level with hard-to-treat psoriasis severity. by Dina Evyana (18462048)

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”