2017
DOI: 10.1039/c6mb00861e
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Quantitative proteomic characterization of redox-dependent post-translational modifications on protein cysteines

Abstract: Protein thiols play a crucial role in redox signaling, in the regulation of enzymatic activity and protein function, and in maintaining redox homeostasis in living systems. The unique chemical reactivity of the thiol group makes protein cysteines susceptible to reactions with reactive oxygen and nitrogen species that form various reversible and irreversible post-translational modifications (PTMs). The reversible PTMs in particular are major components of redox signaling and are involved in the regulation of va… Show more

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Cited by 54 publications
(44 citation statements)
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“…The ability to measure a variety of PTMs is a unique aspect of advanced proteomics technologies. Currently, more than 200 biological relevant PTMs have been reported [47] and several types of them, such as phosphorylation, acetylation, glycosylation, and thiol-based redox modifications, have been studied extensively [24,32,4850]. …”
Section: Ms-based Ptm Profilingmentioning
confidence: 99%
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“…The ability to measure a variety of PTMs is a unique aspect of advanced proteomics technologies. Currently, more than 200 biological relevant PTMs have been reported [47] and several types of them, such as phosphorylation, acetylation, glycosylation, and thiol-based redox modifications, have been studied extensively [24,32,4850]. …”
Section: Ms-based Ptm Profilingmentioning
confidence: 99%
“…In addition to ROS, reactive nitrogen species (RNS) have also been implicated in ENM-induced toxicity [12]. ROS/RNS are known mediators of thiol-based redox modifications [32], which include several types of reversible modifications such as S-nitrosylation (SNO), S-sulfenylation (SOH), S-glutathionylation (SSG), and redox-sensitive disulfide formation, and irreversible modifications such as sulfinic acid (SO 2 H) and sulfonic acid (SO 3 H). These modifications could either play a role in the signaling and regulation, or represent pathological signatures of cellular toxicity (Fig.…”
Section: Ms-based Ptm Profilingmentioning
confidence: 99%
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“…Although the functional relevance of Cys oxidative PTMs in human diseases, such as cancer [189], cardiovascular [188,190], inflammatory [191], and neurodegenerative diseases [191,192] is clear, the molecular mechanisms of redox signaling still remain unclear. A number of proteomics techniques have been developed to study the targets and modulations of redox signaling [193]. Because redox proteomics is still an emerging field with continuing method development, research has mainly focused on basic method development and the application of the newly-developed methods to cell culture and animal models [193,194]; only a few redox proteomics studies have involved human subjects [195,196].…”
Section: Analyzing Oxidative Cys Modifications In Clinical Samplesmentioning
confidence: 99%
“…Overnight incubation of the thiol-deprived analyte at a low pH results in a total loss of acid-labile phosphorylations, including those that are S-linked. Therefore, any reappearance of thiol groups may be attributed to hydrolytically released Cys-peptides, which can be effectively extracted on thiol-affinity materials (Gu et al 2015;Duan et al 2017).…”
Section: Detection Of S-linked Phosphorylation By Cognate Cys-peptidesmentioning
confidence: 99%