Journal of the American Chemical Society 2005-08-17

Stereochemical assignment of intermediates in the rifamycin biosynthetic pathway by precursor-directed biosynthesis.

Ingo V Hartung, Mathew A Rude, Nathan A Schnarr, Daniel Hunziker, Chaitan Khosla

Index: J. Am. Chem. Soc. 127(32) , 11202-3, (2005)

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Abstract

Natural and semisynthetic rifamycins are clinically important inhibitors of bacterial DNA-dependent RNA polymerase. Although the polyketide-nonribosomal peptide origin of the naphthalene core of rifamycin B is well established, the absolute and relative configuration of both stereocenters introduced by the first polyketide synthase module is obscured by aromatization of the naphthalene ring. To decode the stereochemistry of the rifamycin polyketide precursor, we synthesized all four diastereomers of the biosynthetic substrate for module 2 of the rifamycin synthetase in the form of their N-acetylcysteamine (SNAC) thioester. Only one diastereomer was turned over in vivo into rifamycin B, thus establishing the absolute and relative configuration of the native biosynthetic intermediates.