Disulfide bonds play a pivotal role in the folding and stability of many bacterial proteins, influencing not only their tertiary structure but also their biological activity. In bacteria, the ...

The study results, published June 5 in The EMBO Journal, shed new light, researchers say, on the way the altered mitochondrial membranes found in people with metabolic diseases such as Barth syndrome, ...

Proteins can form “catch-bonds” that tighten under force, much like a finger trap. Using artificial intelligence and molecular simulations, Auburn scientists uncovered how these bonds strengthen ...

AI analysis uncovers why certain protein interactions behave like a finger trap, gripping tighter the harder they’re pulled. Imagine tugging on a Chinese finger trap. The harder you pull, the tighter ...

Visualizes functional protein-protein interactions directly within fixed tissue at subcellular resolution Enables simultaneous detection of protein proximity, RNA, and proteins on the same tissue ...