Browse our Research Articles

Dynamic relocalization of MinD in Bacillus subtilis arises from membrane binding of monomers and dimers with membrane-triggered ATP hydrolysis, suggesting MinE-like activators are unnecessary for Min system dynamics.

The TFIIH subunit Tfb3/MAT1 can be split into two parts to uncouple the TFIIH kinase and DNA translocase modules, resulting in unfocused C-terminal domain phosphorylation.

Muscarinic cholinergic signaling links neural activity to organism‑wide transcriptional and proteostatic responses that protect against chronic oxidative stress.

In Gambian infants, positive growth from 0 to 5 months of age predicted more mature brain networks, which in turn predicted cognitive outcomes at 3-5 years.

The direct observation of collagen using magnetic resonance imaging is possible, presenting a new method to study the protein in vivo.

Transcriptome-wide profiling of bacterial RNA pseudouridylation maps modification landscapes and nominates candidate regulatory sites, offering a resource and foundation for future mechanistic studies of Ψ function in bacteria.

HSD17B7-dependent cholesterol biosynthesis is essential for hair cell function, implicating HSD17B7 disruption in the pathogenesis of hearing loss.

Connexin43 is the most ubiquitously expressed connexin in the human body, and the CO₂-dependent opening of Connexin43 hemichannels implies that CO₂ may influence many physiological processes.

A range of biophysical techniques is used in combination with computational analysis to understand whether glutamine-binding protein binds its ligand via the induced-fit or conformational selection mechanism.

A conserved kinase network links nutrient sensing to chromosome segregation and gene regulation by modulating cohesin dynamics through phosphorylation.