Metabolic Coupling of Dehydration and Decarboxylation in the Curacin A Pathway: Functional Identification of a Mechanistically Diverse Enzyme Pair
Journal of the American Chemical Society2006Vol. 128(28), pp. 9014–9015
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Abstract
This study describes the functional identification of a pair of mechanistically diverse enzymes that catalyze the successive dehydration (CurE ECH1) and decarboxylation (CurF ECH2) of (S)-HMG-ACP to generate a 3-methylcrotonyl-ACP intermediate, the presumed precursor of the cyclopropyl ring in curacin A. The reactions catalyzed by ECH1 and ECH2 are found in a broad cross-section of microbial natural product gene clusters and participate in the introduction of carbon chain branch points and functional group diversity as key steps in the HMG-CoA synthase mediated addition of C-2 from acetate to the beta-carbonyl group of polyketide chains.
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