化学
卤化物
电泳剂
烷基
半胱氨酸
有机化学
组合化学
催化作用
酶
作者
Daniel S. Honeycutt,Waldo Salgado-Bello,H. Greenberg,W. H. McCarthy,Jason M. Mrosla,Brian Pallares,Jacob M. Goldberg,Fang Wang
摘要
Functional group conversion is a cornerstone of modern synthetic chemistry. Many strategies routinely employed for small-molecule transformations are unsuitable for modifying biomacromolecules, including peptides. Here, we describe a simple but chemoselective approach that directly converts the nucleophilic cysteine carbon-thiol side chain into an electrophilic carbon-halogen bond under mild conditions, compatible with diverse peptides. The incorporation of this versatile synthetic handle facilitates a range of subsequent transformations that are rarely, if ever, applied to complicated peptides. We envision that this side-chain editing methodology will open a broad expanse of unexplored peptide chemical space, which will concomitantly unlock applications for an entire class of new biomacromolecules.
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