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

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

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

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

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 ...

When droplet-like structures called condensates collide with cell membranes, the interaction can alter the cell membrane’s electrical properties at the point of contact. This image shows a condensate ...

One of the most exciting advances in cancer treatments in the past decade is the development of T cell immunotherapies, in which a patient's own immune system is trained to recognize and attack ...

At the recent ELRIG Drug Discovery conference, Technology Networks<i/> spoke with Dr. Kundan Sharma to learn more about how ...

Living cells may generate electricity through tiny membrane movements, scientists suggest. Molecular activity can create nerve-like voltage spikes, helping drive ion transport and inspiring bio ...