Design and Production of Geranylated Cyclic Peptides by the RiPP Enzymes SyncM and PirF.

The growing threat of antibiotic resistance highlights the urgent need for new antimicrobial agents. Nonribosomal peptides (NRPs) are potent antibiotics with complex structures, but generating novel NRP analogues is costly and inefficient. An emerging alternative is using ribosomally synthesized and post-translationally modified peptides (RiPPs), which are gene-encoded, allowing for easier mutagenesis and modification. This study aimed to produce peptides with two key structural elements of many NRP antibiotics: a macrocycle and an N-terminal lipid moiety. The RiPP enzymes SyncM and PirF were employed-SyncM introduced lanthionine or methyllanthionine macrocycles, while PirF incorporated isoprenyl chains to emulate the lipid moieties in NRPs. Both enzymes successfully modified the templates, and their combined use generated lipidated macrocyclic peptides, resembling lipopeptide antibiotics. These findings demonstrate the potential of SyncM and PirF as versatile tools for designing novel gene-encoded NRP mimics, enabling high-throughput screening for new bioactive peptides.