Browse our Research Articles

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.

Pericytes regulate cerebrovascular development, while vascular smooth muscle cells prevent hemorrhage and blood–brain barrier breakdown at vascular hotspots in juvenile and adult zebrafish.

A cognitive adaptation in Heliconius butterflies, accompanied by strikingly divergent changes in two principal insect integration centres, reveals that neural circuits can differ strongly in their propensity for evolutionary change.

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

Trained monocytes alleviate DSS-induced colitis via bacterial clearance and monocyte differentiation reprogramming.

TrASPr+BOS enables accurate prediction and design of tissue-specific RNA splicing, even for tissues not trained on, uncovering unseen regulatory elements and guiding sequence edits that reshape splicing outcomes.

ITCH is an important regulator of SARS-CoV-2 life cycle, coordinating ubiquitination, assembly, autophagosome-mediated secretion, and spike stability, highlighting ITCH as a promising therapeutic target for antiviral intervention.

Cryo-EM structures unexpectedly show that there are two binding sites for RAB5, with the VPS15 site being the most evolutionarily ancient site, which is essential for endocytic sorting.