Effect of NaCl on the oligomeric mass/size of <i>M</i>. <i>leprae</i> HSP18. by Sandip Kumar Nandi (713237)

Loss of Nemp1 leads to the expansion of erythroid progenitors and of early erythroblasts and to stress erythropoiesis. by Didier Hodzic (132944)

Deciphering Nonbioavailable Substructures Improves the Bioavailability of Antidepressants by Serotonin Transporter by Zhi-Zheng Wang (6056033)

“…A more potent SERT inhibitor <b>DH4</b> was discovered with a bioavailability of 83.28% in rats by replacing the nonbioavailable substructure of approved drug vilazodone. …”

Deciphering Nonbioavailable Substructures Improves the Bioavailability of Antidepressants by Serotonin Transporter by Zhi-Zheng Wang (6056033)

“…A more potent SERT inhibitor <b>DH4</b> was discovered with a bioavailability of 83.28% in rats by replacing the nonbioavailable substructure of approved drug vilazodone. …”

Deciphering Nonbioavailable Substructures Improves the Bioavailability of Antidepressants by Serotonin Transporter by Zhi-Zheng Wang (6056033)

“…A more potent SERT inhibitor <b>DH4</b> was discovered with a bioavailability of 83.28% in rats by replacing the nonbioavailable substructure of approved drug vilazodone. …”

Deciphering Nonbioavailable Substructures Improves the Bioavailability of Antidepressants by Serotonin Transporter by Zhi-Zheng Wang (6056033)

“…A more potent SERT inhibitor <b>DH4</b> was discovered with a bioavailability of 83.28% in rats by replacing the nonbioavailable substructure of approved drug vilazodone. …”

Deciphering Nonbioavailable Substructures Improves the Bioavailability of Antidepressants by Serotonin Transporter by Zhi-Zheng Wang (6056033)

“…A more potent SERT inhibitor <b>DH4</b> was discovered with a bioavailability of 83.28% in rats by replacing the nonbioavailable substructure of approved drug vilazodone. …”

Additional file 7 of Fecal profiling reveals a common microbial signature for pancreatic cancer in Finnish and Iranian cohorts by Heidelinde Sammallahti (21103706)

The DR-<i>white</i> DNA double-strand break (DSB) reporter assay. by Elizabeth L. Graham (18462018)

RipE1 interacts with NbUCH12 and NbUCH15. by Wenjia Yu (9422059)

Colocalization of Sig1R-YFP with immunostained ER and mitochondria on fixed and permeabilized SK-OV-3 cells. by Sergei Kopanchuk (6406085)

Ligand binding properties of Sig1R-YFP in SK-OV-3 cells. by Sergei Kopanchuk (6406085)

Profile of sorted, unstimulated monocytes in culture for 20–24 h is similar to monocytes within PBMC. by Justin Lee (277033)

Effect of diet on inflammatory gene expression and serum inflammatory markers. by Tara Jois (3592874)

Integrated analysis of zone-specific protein and metabolite profiles within nitrogen-fixing <i>Medicago truncatula-Sinorhizobium medicae</i> nodules - Fig 4 by Aaron J. Ogden (4237465)

Cortical areas of interest stained with Nissl. by Tiffany Hong (15354003)

NbUCH positive regulates RipE1 accumulation in <i>N. benthamiana.</i> by Wenjia Yu (9422059)

Silencing <i>NbUCHs</i> triggers SGT1-dependent immunity in <i>N. benthamiana.</i> by Wenjia Yu (9422059)

Rapidly Thermoreversible and Biodegradable Polypeptide Hydrogels with Sol–Gel–Sol Transition Dependent on Subtle Manipulation of Side Groups by Dan Zhao (285025)

“…Intriguingly, the obtained hydrogels can transform from gel to sol within 10–70 s in response to the temperature decrease from 37 to 0 °C. The thermosensitive sol–gel–sol transitions are markedly faster than previously reported thermoreversible PEG-poly­(l-glutamate) derivative hydrogels with subtle differences in the side groups and a widely studied poly­(d,l-lactide-<i>co</i>-glycolide)-<i>b</i>-PEG-<i>b</i>-poly­(d,l-lactide-<i>co</i>-glycolide) (PLGA-PEG-PLGA) hydrogel that required a much longer time of 40∼150 min. …”

Rapidly Thermoreversible and Biodegradable Polypeptide Hydrogels with Sol–Gel–Sol Transition Dependent on Subtle Manipulation of Side Groups by Dan Zhao (285025)

“…Intriguingly, the obtained hydrogels can transform from gel to sol within 10–70 s in response to the temperature decrease from 37 to 0 °C. The thermosensitive sol–gel–sol transitions are markedly faster than previously reported thermoreversible PEG-poly­(l-glutamate) derivative hydrogels with subtle differences in the side groups and a widely studied poly­(d,l-lactide-<i>co</i>-glycolide)-<i>b</i>-PEG-<i>b</i>-poly­(d,l-lactide-<i>co</i>-glycolide) (PLGA-PEG-PLGA) hydrogel that required a much longer time of 40∼150 min. …”