Many biological processes are regulated by electricity—from nerve impulses to heartbeats to the movement of molecules in and ...

Unlike our organs, cell organelles such as mitochondria are not fixed in place, but when, where, how, and why organelles move ...

Cells may generate their own electrical signals through microscopic membrane motions. Researchers show that active molecular ...

Cell membrane chromatography (CMC) is an innovative bioaffinity technique that utilises immobilised cell membranes to replicate the native configuration and function of membrane proteins. This ...

Researchers shifted the focus to the internal properties of the membrane itself, specifically its viscosity, highlighting its critical role in controlling deformation and dynamics during essential ...

Located at the cellular interface, membrane proteins play critical regulatory roles in the signaling between a cell and its interacting environment, making them popular and ideal drug targets.

Inside every living cell, tiny molecular machines are constantly in motion, shifting shapes, tugging on membranes and shuttling ions from one side to the other. That restless activity does more than ...

A quick revision guide covering key concepts, biomolecules, cell organelles, and essential NEET-style MCQs to boost exam ...

Scientists have discovered that T cell receptors activate through a hidden spring-like motion that had never been seen before ...