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Low-Toxicity Sulfonium-Based Probes for Cysteine-Specific Profiling in Live Cells

Rui Wang, Dongyan Yang, Tian Tian, Yuhao An, Chuan Wan, Qi Chang, Mingchan Liang, Zhanfeng Hou, Ying Wang, Liang Zhang, Zigang Li

2022Analytical Chemistry26 citationsDOI

Abstract

Despite being a low-abundance amino acid, cysteine plays an essential role in regulating protein function and serves as a satisfactory target of post-translational modifications and drug developments. To comprehensively assess reactive-cysteine-containing proteins, the development of chemical proteomic probes to label cysteine residues in human cells is an important objective. Cysteine modification using sulfonium-based probes is a novel method to identify reactive cysteine residues in proteins. Herein, we reported a set of "cysteine-reactive sulfonium-based (C-Sul)" probes to label the reactive cysteine sites in cellular proteins. Notably, water-soluble C-Sul probes have a significantly enhanced stability and cellular uptakes, displaying a high specificity toward reactive cysteines and compatibility with quantitative proteomic profiling. In comparison to the conventional iodoacetamide-based probe, C-Sul particularly has no inhibitory effects on cell viability, enabling its application in proteomic profiling of reactive cysteine residues under biorelevant conditions. We propose C-Sul probes as optimal tools of cysteine profiling for further broadly basic research.

Topics & Concepts

CysteineChemistryIodoacetamideSulfoniumBiochemistryAmino acidEnzymeOrganic chemistrySalt (chemistry)Click Chemistry and ApplicationsAdvanced biosensing and bioanalysis techniquesChemical Synthesis and Analysis
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