Litcius/Paper detail

Quantitative proteome-wide O-glycoproteomics analysis with FragPipe

Daniel A. Polasky, Lei Lü, Fengchao Yu, Kai Li, Michael R. Shortreed, Lloyd M. Smith, Alexey I. Nesvizhskii

2024Analytical and Bioanalytical Chemistry11 citationsDOIOpen Access PDF

Abstract

Identification of O-glycopeptides from tandem mass spectrometry data is complicated by the near complete dissociation of O-glycans from the peptide during collisional activation and by the combinatorial explosion of possible glycoforms when glycans are retained intact in electron-based activation. The recent O-Pair search method provides an elegant solution to these problems, using a collisional activation scan to identify the peptide sequence and total glycan mass, and a follow-up electron-based activation scan to localize the glycosite(s) using a graph-based algorithm in a reduced search space. Our previous O-glycoproteomics methods with MSFragger-Glyco allowed for extremely fast and sensitive identification of O-glycopeptides from collisional activation data but had limited support for site localization of glycans and quantification of glycopeptides. Here, we report an improved pipeline for O-glycoproteomics analysis that provides proteome-wide, site-specific, quantitative results by incorporating the O-Pair method as a module within FragPipe. In addition to improved search speed and sensitivity, we add flexible options for oxonium ion-based filtering of glycans and support for a variety of MS acquisition methods and provide a comparison between all software tools currently capable of O-glycosite localization in proteome-wide searches.

Topics & Concepts

GlycoproteomicsProteomeComputational biologyChemistryProteomicsBiologyBiochemistryGeneGlycosylation and Glycoproteins ResearchAdvanced Proteomics Techniques and ApplicationsGenomics and Phylogenetic Studies