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Selective Maleylation-Directed Isobaric Peptide Termini Labeling for Accurate Proteome Quantification

Tian, X., de Vries, M. P., Visscher, S. W. J., Permentier, H. P. & Bischoff, R., 2-Jun-2020, In : Analytical Chemistry. 92, 11, p. 7836-7844 9 p.

Research output: Contribution to journalArticleAcademicpeer-review

Isobaric peptide termini labeling (IPTL) is an attractive protein quantification method because it provides more accurate and reliable quantification information than traditional isobaric labeling methods (e.g., TMT and iTRAQ) by making use of the entire fragment-ion series instead of only a single reporter ion. The multiplexing capacity of published IPTL implementations is, however, limited to three. Here, we present a selective maleylation-directed isobaric peptide termini labeling (SMD-IPTL) approach for quantitative proteomics of LysC protein digestion. SMD-IPTL extends the multiplexing capacity to 4-plex with the potential for higher levels of multiplexing using commercially available 13C/15N labeled amino acids. SMD-IPTL is achieved in a one-pot reaction in three consecutive steps: (1) selective maleylation at the N-terminus; (2) labeling at the ϵ-NH2 group of the C-terminal Lys with isotopically labeled acetyl-alanine; (3) thiol Michael addition of an isotopically labeled acetyl-cysteine at the maleylated N-terminus. The isobarically labeled peptides are fragmented into sets of b- and y-ion clusters upon LC-MS/MS, which convey not only sequence information but also quantitative information for every labeling channel and avoid the issue of ratio distortion observed with reporter-ion-based approaches. We demonstrate the SMD-IPTL approach with a 4-plex labeled sample of bovine serum albumin (BSA) and yeast lysates mixed at different ratios. With the use of SMD-IPTL for labeling and a narrow precursor isolation window of 0.8 Th with an offset of -0.2 Th, accurate ratios were measured across a 10-fold mixing range of BSA in a background of yeast proteome. With the yeast proteins mixed at ratios of 1:5:1:5, BSA was detected at ratios of 0.94:2.46:4.70:9.92 when spiked at 1:2:5:10 ratios with an average standard deviation of peptide ratios of 0.34.

Original languageEnglish
Pages (from-to)7836-7844
Number of pages9
JournalAnalytical Chemistry
Volume92
Issue number11
Early online date22-Apr-2020
Publication statusPublished - 2-Jun-2020

    Keywords

  • RELATIVE QUANTIFICATION, QUANTITATIVE PROTEOMICS, DEUTERIUM, MIXTURES, PROTEINS, STRATEGY, LEVEL, SILAC, TAGS, MS

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