Biologists have long treated cell membranes as passive barriers, thin skins that separate the chemistry of life from the ...

Researchers have determined that condensates are electrically charged droplets that can induce voltage changes across the ...

Researchers at Rochester Institute of Technology are advancing tissue engineering through new work in developing improved porous membranes that will be the “scaffolds,” or foundational structures, for ...

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 ...

Cellular membrane proteins play many important roles throughout the body, including transporting substances in and out of the cell, transmitting signals, speeding up reactions and helping neighboring ...

Scientists have discovered that T cell receptors activate through a hidden spring-like motion that had never been seen before. This breakthrough may help explain why immunotherapy works for some ...

Researchers have developed a theoretical framework that shows how living cell membranes can generate electricity from molecular fluctuations. The work is published in the journal PNAS Nexus.

At the recent ELRIG Drug Discovery conference, Technology Networks<i/> spoke with Dr. Kundan Sharma to learn more about how cell-free expression platforms are transforming membrane protein research.

Anion exchange membrane fuel cells (AEMFCs) have gained attention in the process of fuel cell development because they operate in alkaline environments, the redox reaction rate at the electrodes is ...

Living cells may generate electricity through the natural motion of their membranes. These fast electrical signals could play ...