Structure-based redesign of docking domain interactions modulates the product spectrum of a rhabdopeptide-synthesizing NRPS

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Abstract

Several peptides in clinical use are derived from non-ribosomal peptide synthetases (NRPS). In these systems multiple NRPS subunits interact with each other in a specific linear order mediated by docking domains (DDs) to synthesize well-defined peptide products. In contrast to these classical NRPSs, the subunits of rhabdopeptide/xenortide producing NRPSs can act iteratively and in different order resulting in libraries of peptide products. In order to define the structural and thermodynamic basis for their unusual interaction patterns, we determined the structures of all N-terminal DDs ( N DDs) as well as of an N DD- C DD complex and characterized all putative DD interactions thermodynamically for one such system. Key amino acid residues for DD interactions were identified that upon their exchange not only changed the DD affinity but also resulted in rationally predictable changes in peptide production. A simple set of ‘recognition rules’ for DD interactions was identified that also operates in other megasynthase complexes.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00