Thirteen posttranslational modifications convert a 14-residue peptide into the antibiotic thiocillin

Laura C. Brown; Michael Acker; Jon Clardy; Christopher T. Walsh; Michael A. Fischbach

doi:10.1073/pnas.0900008106

Thirteen posttranslational modifications convert a 14-residue peptide into the antibiotic thiocillin

Laura C. Brown(Harvard University), Michael Acker(Harvard University), Jon Clardy(Harvard University), Christopher T. Walsh(Harvard University), Michael A. Fischbach(Massachusetts General Hospital)

Proceedings of the National Academy of Sciences

February 7, 2009

10.1073/pnas.0900008106

Cited by 194Open Access

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Abstract

The thiazolylpeptides are a family of >50 bactericidal antibiotics that block the initial steps of bacterial protein synthesis. Here, we report a biosynthetic gene cluster for thiocillin and establish that it, and by extension the whole class, is ribosomally synthesized. Remarkably, the C-terminal 14 residues of a 52-residue peptide precursor undergo 13 posttranslational modifications to give rise to thiocillin, making this antibiotic the most heavily posttranslationally-modified peptide known to date.

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