Discrete Acyltransferases and Thioesterases in Iso-Migrastatin and Lactimidomycin Biosynthesis.

Iso-Migrastatin (iso-MGS) and lactimidomycin (LTM) are glutarimide-containing polyketide natural products (NPs) that are biosynthesized by homologous acyltransferase (AT)-less type I polyketide synthase (PKS) assembly lines. The biological activities of iso-MGS and LTM have inspired numerous efforts to generate analogues via genetic manipulation of their biosynthetic machinery in both native producers and model heterologous hosts. A detailed understanding of the MGS and LTM AT-less type I PKSs would serve to inspire future engineering efforts while advancing the fundamental knowledge of AT-less type I PKS enzymology. The and biosynthetic gene clusters (BGCs) encode for two discrete ATs of the architecture AT-enoylreductase (AT-ER) and AT-type II thioesterase (AT-TE). Herein, we report the functional characterization of the and and the and gene products, revealing that MgsB and LtmB function as type II thioesterases (TEs) and MgsH and LtmH are the dedicated -ATs for the MGS and LTM AT-less type I PKSs. In vivo and in vitro experiments demonstrated that MgsB was devoid of any AT activity, despite the presence of the conserved catalytic triad of canonical ATs. Cross-complementation experiments demonstrated that MgsH and LtmH are functionally interchangeable between the MGS and LTM AT-less type I PKSs. This work sets the stage for future mechanistic studies of AT-less type I PKSs and efforts to engineer the MGS and LTM AT-less type I PKS assembly lines for novel glutarimide-containing polyketides.