To understand the thioesterase (TE)-mediated macrocyclization, the development of a substrate-based analog with mixed phosphonate warheads is reported, which can react irreversibly with the Ser residue at the active site of TE. The tyrocidine A linear peptide with a p-nitrophenyl phosphonate enables efficient complex formation with TycC-TE containing tyrocidine synthetase.
Natural macrocyclic peptides derived from microorganisms are medicinal resources that are important for the development of new therapeutic agents. Most of these molecules are biosynthesized by a nonribosomal peptide synthetase (NRPS). The thioesterase (TE) domain in NRPS is responsible for the macrocyclization of mature linear peptide thioesters in a final biosynthetic step. NRPS-TEs can cyclize synthetic linear peptide analogs and can be utilized as biocatalysts for the preparation of natural product derivatives. Although the structures and enzymatic activities of TEs have been investigated, the substrate recognition and substrate-TE interaction during the macrocyclization step are still unknown. To understand the TE-mediated macrocyclization, here we report the development of a substrate-based analog with mixed phosphonate warheads, which can react irreversibly with the Ser residue at the active site of TE. We have demonstrated that the tyrocidine A linear peptide (TLP) with a p-nitrophenyl phosphonate (PNP) enables efficient complex formation with tyrocidine synthetase C (TycC)-TE containing tyrocidine synthetase.