A paper titled "Functional implications of unusual NOS and SONOS covalent linkages found in proteins," by Matthew D. Lloyd, Kyle S. Gregory, and K. Ravi Acharya, from the University of Bath Department ...

Cysteine’s thiol chemistry makes it central to forming disulfide bonds that lock peptides into stable, functional shapes. By combining careful placement of cysteine residues with selective protection ...

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 ...

From predicting isoelectric points to mapping hidden chemical bonds, AI and automation are revolutionizing protein characterization. New computational tools accelerate discoveries that once took ...

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, ...