Precursor Supply for Polyketide Biosynthesis: The Role of Crotonyl-CoA Reductase

Abstract

Crotonyl-CoA reductase (CCR), which catalyzes the reduction of crotonyl-CoA to butyryl-CoA, is common to most streptomycetes and appears to be inducible by either lysine or its catabolites in Streptomyces cinnamonensis grown in chemically defined medium. A major role of CCR in providing butyryl-CoA from acetate for monensin A biosynthesis has been demonstrated by the observation of a change in the monensin A/monensin B ratio in the parent C730.1 strain (50/50) and a ccr (encoding CCR) disruptant (12:88) of S. cinnamonensis in a complex medium. Both strains produce significantly higher monensin A/monensin B ratios in a chemically defined medium containing valine as a major carbon source than in either complex medium or chemically defined medium containing alternate amino acids. This observation demonstrates that under certain growth conditions valine catabolism may have a more significant role than CCR in providing butyryl-CoA. Such a process most likely involves an isomerization of the valine catabolite isobutyryl-CoA, catalyzed by the coenzyme B12-dependent isobutyryl-CoA mutase. Monensin labeling experiments using dual 13C-labeled acetate in the ccr-disrupted S. cinnamonensis indicate the presence of an additional coenzyme B12-dependent mutase linking branched and straight-chain C4 compounds by a new pathway.