2012
DOI: 10.1074/mcp.r112.019117
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Characterizing Ubiquitination Sites by Peptide-based Immunoaffinity Enrichment

Abstract: Advances in high resolution tandem mass spectrometry and peptide enrichment technologies have transformed the field of protein biochemistry by enabling analysis of end points that have traditionally been inaccessible to molecular and biochemical techniques. One field benefitting from this research has been the study of ubiquitin, a 76-amino acid protein that functions as a covalent modifier of other proteins. Seminal work performed decades ago revealed that trypsin digestion of a branched protein structure kno… Show more

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Cited by 58 publications
(43 citation statements)
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References 102 publications
(116 reference statements)
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“…Numerous large-scale studies have been conducted on intracellular, regulatory modifications, such as phosphorylation (2), GlcNAcylation (3), ubiquitination (4), and acetylation (5). Although ER/Golgi-derived glycosylation is one of the most frequently occurring classes of PTMs (6), these extracellular modifications continue to be a major challenge because of technical difficulties both in their structural characterization and in deciphering their biological roles.…”
Section: Post-translational Modifications (Ptms)mentioning
confidence: 99%
“…Numerous large-scale studies have been conducted on intracellular, regulatory modifications, such as phosphorylation (2), GlcNAcylation (3), ubiquitination (4), and acetylation (5). Although ER/Golgi-derived glycosylation is one of the most frequently occurring classes of PTMs (6), these extracellular modifications continue to be a major challenge because of technical difficulties both in their structural characterization and in deciphering their biological roles.…”
Section: Post-translational Modifications (Ptms)mentioning
confidence: 99%
“…Protein-based Ubiquitin Proteomics-The need for the development of sensitive and reliable methods for monitoring spatial and temporal patterns of ubiquitylation in vivo has driven innovation in the field of mass spectrometry (MS)-based proteomics (3)(4)(5). MS is an ideal platform for studying protein modifications such as ubiquitylation because it allows for the simultaneous identification of endogenous ubiquitylation substrates and the precise lysine residue that is modified (6).…”
mentioning
confidence: 99%
“…The modification has different chemical properties and can be resolved chromatographically as a peak doublet [57]; it is also not well-recognized by the K-GG peptide antibody [58,59]. The detailed analysis of MS/MS spectra of these chemical artifacts shows a higher tendency for a -57 Da or a -144 Da neutral loss, which can be used as an additional quality criterion [58]. IAA alkylation of lysine is temperature-dependent with modification only occuring at higher incubation temperatures [56], and so can be largely avoided.…”
Section: Pitfalls Of Ubiquitin Site Identificationmentioning
confidence: 99%