Organic Reaction as a Stimulus for Polymer Phase Separation by Masami Naya (4339054)

“…This process will be the first step for the development of artificial allosteric enzyme mimics from a combination of a simple synthetic polymer and a product or reactant in organic reactions.…”

L-[1-¹⁴C]Met oxidation as a percentage of dose, representing the change in Cys synthesis, in enterally fed piglets receiving graded levels of Cys and 0.25 g kg<sup>-1</s... by Anna K. Shoveller (6208457)

In absence of HGT, an infinite-allele model provides a diversity-maintenance mechanism with an intrinsic time scale. by Simone Pompei (134652)

The OmpA (I, δ) allele is enriched in ExPEC relative to environmental isolates. by Chunyu Liao (4436998)

Western blot analysis on Huh-7 cells following incubation with decreasing concentrations of wild-type PCSK9 (500 nM, 50 nM and 5 nM) or gain-of-function PCSK9 D374Y mutant (20 nM,... by Aarti Ramanathan (2626780)

Overexpression of TNFAIP9 alleviated the renal fibrosis caused by 5/6 Nx in C57 mice. by Ying Chen (9697)

Overexpression of TNFAIP9 inhibited the TGF-β-induced fibrosis in HK-2 cells. by Ying Chen (9697)

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Self-Repair of Structure and Bioactivity in a Supramolecular Nanostructure by Charlotte H. Chen (5915282)

“…Thermal energy in this cycle enables noncovalent interactions to reconfigure the nanostructures into the thermodynamically preferred long nanofibers, a repair process that is impeded by kinetic traps. …”

Overexpression of TNFAIP9 suppressed inflammation in mouse peritoneal macrophages caused by 5/6 Nx in C57 mice. by Ying Chen (9697)

Overexpression of TNFAIP9 inhibited the TNF-α-induced inflammation in HK-2 cells. by Ying Chen (9697)

Discovery and Hit-to-Lead Optimization of Benzothiazole Scaffold-Based DNA Gyrase Inhibitors with Potent Activity against Acinetobacter baumannii and Pseudomonas aeruginosa by Andrej Emanuel Cotman (5203904)

“…Starting from DNA gyrase inhibitor <b>1</b>, we identified compound <b>27</b>, featuring a 10-fold improved aqueous solubility, a 10-fold improved inhibition of topoisomerase IV from A. baumannii and P. aeruginosa, a 10-fold decreased inhibition of human topoisomerase IIα, and no cross-resistance to novobiocin. …”