Decoding the comprehensive substrate-specificity and evidence of altered site-specific collagen prolyl-3-hydroxylation, lysyl-hydroxylation, and lysyl O-glycosylation in P4ha1 and P4ha2 deleted mutant mice

Abstract: Collagens, the most abundant proteins in mammals, play pivotal roles in the maintenance of tissue structure, functions, cell-to-cell communication, cellular migration, behavior, and growth. Collagens are highly complex in structure due to the dynamic post-translational modifications (PTMs) such as hydroxylations (on prolines and lysine residues) and O-glycosylation (on hydroxylysines) enzymatically catalyzed during biosynthesis. The most prevalent modification in fibrillar collagens is prolyl 4-hydroxylation c… Show more