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Literature DB >> 23790488

Structural and stereochemical analysis of a modular polyketide synthase ketoreductase domain required for the generation of a cis-alkene.

Shilah A Bonnett¹, Jonathan R Whicher², Kancharla Papireddy¹, Galina Florova¹, Janet L Smith^3,4, Kevin A Reynolds¹.

Abstract

The formation of an activated cis-3-cyclohexylpropenoic acid by Plm1, the first extension module of the phoslactomycin polyketide synthase, is proposed to occur through an L-3-hydroxyacyl-intermediate as a result of ketoreduction by an A-type ketoreductase (KR). Here, we demonstrate that the KR domain of Plm1 (PlmKR1) catalyzes the formation of an L-3-hydroxyacyl product. The crystal structure of PlmKR1 revealed a well-ordered active site with a nearby Trp residue characteristic of A-type KRs. Structural comparison of PlmKR1 with B-type KRs that produce D-3-hydroxyacyl intermediates revealed significant differences. The active site of cofactor-bound A-type KRs is in a catalysis-ready state, whereas cofactor-bound B-type KRs are in a precatalytic state. Furthermore, the closed lid loop in substrate-bound A-type KRs restricts active site access from all but one direction, which is proposed to control the stereochemistry of ketoreduction.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2013 PMID： 23790488 PMCID： PMC3875705 DOI： 10.1016/j.chembiol.2013.04.014

Source DB: PubMed Journal: Chem Biol ISSN： 1074-5521

36 in total

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