Living cells are highly organized, yet they are not assembled using rigid blueprints or by following a predetermined plan.

Researchers have resolved a 50-year-old scientific mystery by identifying the molecular mechanism that allows tissues to ...

When we learn a new motor skill—whether mastering a piano passage or refining balance while walking—the brain must reorganize ...

With a new mathematical model, a team of biophysicists has revealed fresh insights into how biological tissues are shaped by the active motion of structural imperfections known as "topological defects ...

SES AI earns a Strong Buy rating for its pivot from battery manufacturing to a high-margin SaaS and IP-driven model in the EV ...

Astrocytes use the MEGF10 receptor to prune synapses in the striatum, a process essential for dopamine-driven motor learning.

A research team at the University of Würzburg has deciphered another aspect of poxviral gene activation. The study reveals a ...

Neutral particles can outpace diffusion in electric fields, shifting motion regimes over time; the model predicts behavior in ...

Scientists have identified a conserved aging-related protein, EPS8, that promotes toxic protein aggregation linked to neurodegenerative diseases.

Understanding how microscopic interactions between proteins in cells produce large-scale organization and asymmetry is a fundamental question in cell biology.

Researchers at the Sanford Stem Cell Institute have taken the fight against rare diseases to the lab, to patients’ bedsides ...