Posttranslationally Acting Arginases Provide a Ribosomal Route to Non-proteinogenic Ornithine Residues in Diverse Peptide Sequences.

Ornithine is a component of many bioactive nonribosomal peptides but is challenging to incorporate into ribosomal products. We recently identified OspR, a cyanobacterial arginase-like enzyme that installs ornithines in the antiviral ribosomally synthesised and posttranslationally modified peptide (RiPP) landornamide A. Here we report that OspR belongs to a larger family of peptide arginases from diverse organisms and RiPP types. In E. coli, seven selected enzymes converted arginine into ornithine with little preference for the leader type. A broad range of peptide sequences was modified, including polyarginine repeats. We also generated analogues of ornithine-containing nonribosomal peptides using RiPP technology. Five pseudo-nonribosomal products with ornithines at the correct positions were obtained, including a brevicidine analogue containing ornithine and a d-amino acid installed by the peptide epimerase OspD. These results suggest new opportunities for peptide bioengineering.