Microtubules, the dynamic filaments that form the cell's internal scaffolding, have long been viewed as mere passive structural supports. But a new study reveals they play a far more active signaling ...

Researchers suggest targeting mTOR activity in aggressive cancers by blocking cholesterol sensing may represent a promising ...

A poorly characterized protein, historically thought to be a chaperon or enzyme, may actually be a key player in prostate cancer. In a systematic CRISPR screen, scientists from Arc Institute, UCSF, ...

Microtubules, the dynamic filaments that form the cell's internal scaffolding, have long been viewed as mere passive structural supports. But a new study reveals they play a far more active signaling ...

A University of Connecticut scientist has reportedly identified a key mechanism in Parkinson’s disease research. UConn Health, a branch of the university, said Tuesday that assistant professor of ...

Researchers present novel therapeutics that rejuvenate a previously undruggable mitochondrial regulator of aging through a new mode of enzyme activation. Leveraging a newly identified biophysical ...

Scientists are uncovering how sirtuins connect energy metabolism, mitochondrial resilience, and stress-response pathways to ...

The bacterial cell wall must be constantly remodeled in order to grow and divide. This involves the close coordination of lytic enzymes and peptidoglycan synthesis. Researchers led by Martin ...

Scientists have long assumed that once the smooth cartilage in a damaged knee wears away, the body has little chance of restoring it. A new line of research is challenging that assumption by showing ...