Genome Mining Reveals High Topological Diversity of ω-Ester Containing Peptides and Divergent Evolution of ATP-Grasp Macrocyclases

ω-Ester containing peptides (OEPs) are a family of ribosomally synthesized and post-translationally modified peptides (RiPPs) containing intramolecular ω-ester or ω-amide bonds. Although their distinct side-to-side connections may create considerable topological diversity of multicyclic peptides, it is largely unknown how diverse ring patterns have been developed in nature. Here, using genome mining of biosynthetic enzymes of OEPs, we identified genes encoding nine new groups of putative OEPs with novel core consensus sequences, disclosing a total of ~1,500 candidate OEPs in 12 groups. Connectivity analysis revealed that OEPs from three different groups contain novel tricyclic structures, one of which has a distinct biosynthetic pathway where a single ATP-grasp enzyme produces both ω-ester and ω-amide linkages. Analysis of the enzyme cross-reactivity showed that, while enzymes are promiscuous to non-conserved regions of the core peptide, they have high specificity to the cognate core consensus sequence, s...