Biological processes that govern our lives are many, intertwined, and often difficult to understand. They involve countless ...

A Scripps team has adapted advanced imaging and computation to measure cell membrane thickness inside intact animal and yeast ...

A picture of a membrane created by the biomolecular modeling tool. Credit: Niels Bohr Institute Researchers at the Niels Bohr Institute, University of Copenhagen and University of Southern Denmark ...

Using catalytic chemistry, researchers at Institute of Science Tokyo have achieved dynamic control of artificial membranes, enabling life-like membrane behavior. By employing an artificial ...

Intricate molecular machineries, such as the ESCRT protein complexes, are well known for their ability to cut biological membranes. The discovery that membranes can also be severed by phase-separated ...

In every living cell, there are membranes—and in every membrane there are proteins, each of which acts as a chemical gatekeeper. Rather than passively letting ions pass in and out of the cell, these ...

The groundbreaking discovery could open new doors for other researchers working with delicate materials such as cell membranes. (Nanowerk News) Imagine drawing on something as delicate as a living ...

The chemical reactions on which life depends need a place to happen. That place is the cell. All the things which biology recognises as indisputably alive are either cells or conglomerations of cells ...

A revolution has occurred in the field of pharmaceutical development due to the development of drugs that target membrane proteins. It is estimated that one-third of currently available drugs target G ...

Cell membranes are the boundaries of living cells. They are made up of amphiphilic lipids, cholesterol, and membrane proteins arranged in a dynamic bilayer. They regulate signal transduction, ...