Litcius/Paper detail

A novel tyrosine hyperoxidation enables selective peptide cleavage

Shengping Zhang, Luis M. De Leon Rodriguez, Freda F. Li, Renjie Huang, Ivanhoe K. H. Leung, Paul W. R. Harris, Margaret A. Brimble

2022Chemical Science14 citationsDOIOpen Access PDF

Abstract

-indole-2-carboxamide, along with an intact N-terminal peptide fragment. This reaction proceeds with high site-selectivity for tyrosine and exhibits broad substrate scope for various peptides, including those containing post-translational modifications. More importantly, this oxidative cleavage was successfully applied to enable sequencing of three naturally occurring cyclic peptides, including one depsipeptide and one lipopeptide. The linearized peptides generated from the cleavage reaction significantly simplify cyclic peptide sequencing by MS/MS, thus providing a robust tool to facilitate rapid sequence determination of diverse cyclic peptides containing tyrosine. Furthermore, the highly electrophilic nature of the hyperoxidized tyrosine unit disclosed in this work renders it an important electrophilic target for the selective bioconjugation or synthetic manipulation of peptides containing this unit.

Topics & Concepts

TyrosineCleavage (geology)PeptideChemistryBond cleavagePeptide bondStereochemistryBiochemistryBiologyCatalysisFracture (geology)PaleontologyRedox biology and oxidative stressReceptor Mechanisms and SignalingChemical Synthesis and Analysis