Structural Basis of Transient Interactions of Acyltransferase VinK with the Loading Acyl Carrier Protein of the Vicenistatin Modular Polyketide Synthase.
Akimasa MiyanagaKoichi KawadaTaichi ChisugaFumitaka KudoTadashi EguchiPublished in: Biochemistry (2022)
Acyltransferase (AT) recognizes its cognate acyl carrier protein (ACP) for functional transfer of an acyl unit in polyketide biosynthesis. However, structural characterization of AT-ACP complexes is limited because of the weak and transient interactions between them. In the biosynthesis of macrolactam polyketide vicenistatin, the trans -acting loading AT VinK transfers a dipeptidyl unit from the stand-alone ACP VinL to the ACP domain (VinP1ACP L ) of the loading module of modular polyketide synthase VinP1. Although the previously determined structure of the VinK-VinL complex clearly illustrates the VinL recognition mechanism of VinK, how VinK recognizes VinP1ACP L remains unclear. Here, the crystal structure of a covalent VinK-VinP1ACP L complex formed with a pantetheine-type cross-linking probe is reported at 3.0 Å resolution. The structure of the VinK-VinP1ACP L complex provides detailed insights into the transient interactions between VinK and VinP1ACP L . The importance of residues in the binding interface was confirmed by site-directed mutational analyses. The binding interface between VinK and VinP1ACP L is similar to that between VinK and VinL, although some of the interface residues are different. However, the ACP orientation and interaction mode observed in the VinK-VinP1ACP L complex are different from those observed in other AT-ACP complexes such as the disorazole trans -AT-ACP complex and cis -AT-ACP complexes of modular polyketide synthases. Thus, AT-ACP binding interface interactions are different in each type of AT-ACP pair.