Embryonic caffeine exposure leads to a decrease in global DNA methylation. by Daniela L. Buscariollo (140729)

“…<p>DNA was isolated from adult left ventricles of mice treated <i>in utero</i> with caffeine. (A) The percentage of 5-methylcytosine decreased in caff+/+ hearts compared to veh+/+ controls, but no change in global DNA methylation levels was observed in caff+/− hearts compared to veh+/− hearts. …”

Mitochondrial protein acetylation correlates with a decrease in sirtuin 3 levels. by Mercedes García-Roche (6459200)

Effect of SNX5 S226 phosphorylation on macropinocytosis. by Nao Itai (5954666)

Subjects:

Changes in the localization of SNX5 S226 mutants. by Nao Itai (5954666)

Subjects:

IL-15 decreased early apoptosis of α-GalCer-treated iNKT cells in SLE patients. by Chien-Ya Hsu (11868746)

Subjects:

Decreased expression of TCA cycle and ETC enzymes in kidneys from rats administered Tl. by Sho Sugahara (11895828)

DHT increases whereas orchidectomy decreases the seminal vesicle weight in wild-type and SOD1-G93A mice. by Young-Eun Yoo (323357)

“…Conversely, orchidectomy decreased the seminal vesicle weight in both WT mice (28.4±13 mg, <i>p</i><0.0001) and SOD1 mice (20.8±3.5 mg, <i>p</i><0.0001) compared with control WT and SOD1 mice, respectively. …”

Glucocorticoid receptor knockdown is associated with a decrease in nuclear Nrf2. by Elena Obrador (559979)

Decrease of Sun4 protein level upon <i>eIF2A</i> overexpression requires the presence of Ssd1. by Laura Meyer (4033793)

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Pharmacodynamic Profile of CCX168 in Healthy Human Volunteers. by Pirow Bekker (392139)

“…CD11b upregulation was diminished in both blood samples from CCX168 subjects with a 10-fold decrease in C5a potency exhibited in the 12-hour samples.…”

Mutation (_mut) in the extracellular loop (ECL) 2 leads to decreased <i>cis</i>- and <i>trans</i>-interaction of claudins (Cldns). by Nora Gehne (4357123)

Decreased efficacy of the coincidence detection in pathologic/movement disorders. by Hidetoshi Urakubo (578508)

Fig 5 - by Mykola Pinkevych (125551)

EIF5A2 or MTA1 expression levels influenced the aggressiveness of GC cells in vitro. by Qing-Bin Meng (707083)

“…<p>(<b>A</b>) Proliferation of EIF5A2-targeted siRNA (T1-siRNA) and non-targeted control (NC) HGC27 cells were measured by CCK-8 assay every 24 h after siRNA transfection. …”

Fig 5 - by Felix Bosch (10024550)