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

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

Viruses possess a formidable ability to enter our cells to multiply there, thus triggering diseases. However, a team from ...

The Warburg effect describes how cancer cells switch from oxidative phosphorylation to glycolysis even in oxygen-rich ...

The National Medical Commission (NMC) has released the official NEET UG 2026 syllabus, outlining the topics to be covered in ...

Inside every living cell, tiny molecular machines are constantly in motion, shifting shapes, tugging on membranes and ...

A newly identified virus–cell hybrid structure allows viruses to spread faster and more aggressively by hitching a ride on ...

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 ...

A vesicle, only a few nanometers in size and filled with neurotransmitters, approaches a cell membrane, fuses with it, and releases its chemical messengers into the synaptic cleft—making them ...

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.

A Korean research team has developed a new energy-harvesting water purification system capable of producing both purified water and hydrogen simultaneously. This innovative technology removes ...

The tectorial membrane (TM) is a critical component in the auditory system, playing a pivotal role in stimulating hair cells and facilitating sound transmission. Abnormalities in the TM are commonly ...