Fiche publication


Date publication

mars 2018

Journal

Analytical chemistry

Auteurs

Membres identifiés du Cancéropôle Est :
Dr CARAPITO Christine


Tous les auteurs :
Garcia L, Girod M, Rompais M, Dugourd P, Carapito C, Lemoine J

Résumé

Thanks to comprehensive and unbiased sampling of all precursor ions, the interest to move toward bottom-up proteomic with data-independent acquisition (DIA) is continuously growing. DIA offers precision and reproducibility performances comparable to true targeted methods but has the advantage of enabling retrospective data testing with the hypothetical presence of new proteins of interest. Nonetheless, the chimeric nature of DIA MS/MS spectra inherent to concomitant transmission of a multiplicity of precursor ions makes the confident identification of peptides often challenging, even with spectral library-based extraction strategy. The introduction of specificity at the fragmentation step upon ultraviolet or visible laser-induced dissociation (LID) range targeting only the subset of cysteine-containing peptides (Cys-peptide) has been proposed as an option to streamline and reduce the search space. Here, we describe the first coupling between DIA and visible LID at 473 nm to test for the presence of Cys-peptides with a peptide-centric approach. As a test run, a spectral library was built for a pool of Cys-synthetic peptides used as surrogates of human kinases (1 peptide per protein). By extracting ion chromatograms of query standard and kinase peptides spiked at different concentration levels in an Escherichia coli proteome lysate, DIA-LID demonstrates a dynamic range of detection of at least 3 decades and coefficients of precision better than 20%. Finally, the spectral library was used to search for endogenous kinases in human cellular extract.

Mots clés

Cell Line, Cysteine, analysis, Humans, Peptides, chemistry, Protein Kinases, chemistry, Proteome, chemistry, Proteomics, methods, Software, Tandem Mass Spectrometry, methods, Workflow, p-Dimethylaminoazobenzene, analogs & derivatives

Référence

Anal. Chem.. 2018 Mar 20;90(6):3928-3935