Researchers have shown that the formation of biological condensates affects cellular activity far beyond their immediate vicinity. The results show that they may be a previously missing mechanism by ...

In the evolutionary history of life, the ability of a cell to separate its inner world from the external environment was an ...

A lipid hidden within cells called phosphatidylserine reveals how the body initiates the removal of threats and cellular debris.

Lipid molecules form the membranes that organize cellular biochemistry in all domains of life. Imaging approaches have been developed to visualize different types of lipid at subcellular scales and ...

Special proteins -- known as membrane transporters -- are key to the mobility of sperm cells. A research team has, with the aid of cryo-electron microscopy, succeeded in decoding the structure of such ...

Scientists have long known that cellular membranes vary in thickness, but measuring those differences inside actual cells has been out of reach. Until now, scientists could only measure membrane ...

Researchers discovered that the mitochondrial MIM complex influences lipid droplet accumulation in yeast cells through ...

Max Planck Institute of Molecular Cell Biology and Genetics led a study showing that directional, non-vesicular lipid transport drives fast, species-selective lipid sorting, outpacing slower, less ...

Researchers have for the first time characterised a unique molecular mechanism of the early stages of programmed cell death or apoptosis, a process which plays a crucial role in prevention of cancer.

Researchers have for the first time characterized a unique molecular mechanism of the early stages of programmed cell death or apoptosis, a process which plays a crucial role in prevention of cancer.

But when the Johns Hopkins team examined cancer cells grown in the lab, they found that energy-generating enzymes gather and move as waves on the cell membrane, suggesting a more fine-tuned energy ...