Literature DB >> 20562876

An ATP-independent strategy for amide bond formation in antibiotic biosynthesis.

Masanori Funabashi1, Zhaoyong Yang, Koichi Nonaka, Masahiko Hosobuchi, Yoko Fujita, Tomoyuki Shibata, Xiuling Chi, Steven G Van Lanen.   

Abstract

A-503083 B, a capuramycin-type antibiotic, contains an L-aminocaprolactam and an unsaturated hexuronic acid that are linked via an amide bond. A putative class C beta-lactamase (CapW) was identified within the biosynthetic gene cluster that-in contrast to the expected beta-lactamase activity-catalyzed an amide-ester exchange reaction to eliminate the L-aminocaprolactam with concomitant generation of a small but significant amount of the glyceryl ester derivative of A-503083 B, suggesting a potential role for an ester intermediate in the biosynthesis of capuramycins. A carboxyl methyltransferase, CapS, was subsequently demonstrated to function as an S-adenosylmethionine-dependent carboxyl methyltransferase to form the methyl ester derivative of A-503083 B. In the presence of free L-aminocaprolactam, CapW efficiently converts the methyl ester to A-503083 B, thereby generating a new amide bond. This ATP-independent amide bond formation using methyl esterification followed by an ester-amide exchange reaction represents an alternative to known strategies of amide bond formation.

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Year:  2010        PMID: 20562876     DOI: 10.1038/nchembio.393

Source DB:  PubMed          Journal:  Nat Chem Biol        ISSN: 1552-4450            Impact factor:   15.040


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