Multiattribute Glycan Identification and FDR Control for Glycoproteomics |
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Authors: | Daniel A. Polasky Daniel J. Geiszler Fengchao Yu Alexey I. Nesvizhskii |
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Affiliation: | 1. Department of Pathology, University of Michigan, Ann Arbor, Michigan, USA;2. Department of Computational Medicine and Bioinformatics, University of Michigan, Ann Arbor, Michigan, USA |
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Abstract: | Rapidly improving methods for glycoproteomics have enabled increasingly large-scale analyses of complex glycopeptide samples, but annotating the resulting mass spectrometry data with high confidence remains a major bottleneck. We recently introduced a fast and sensitive glycoproteomics search method in our MSFragger search engine, which reports glycopeptides as a combination of a peptide sequence and the mass of the attached glycan. In samples with complex glycosylation patterns, converting this mass to a specific glycan composition is not straightforward; however, as many glycans have similar or identical masses. Here, we have developed a new method for determining the glycan composition of N-linked glycopeptides fragmented by collisional or hybrid activation that uses multiple sources of information from the spectrum, including observed glycan B-type (oxonium) and Y-type ions and mass and precursor monoisotopic selection errors to discriminate between possible glycan candidates. Combined with false discovery rate estimation for the glycan assignment, we show that this method is capable of specifically and sensitively identifying glycans in complex glycopeptide analyses and effectively controls the rate of false glycan assignments. The new method has been incorporated into the PTM-Shepherd modification analysis tool to work directly with the MSFragger glyco search in the FragPipe graphical user interface, providing a complete computational pipeline for annotation of N-glycopeptide spectra with false discovery rate control of both peptide and glycan components that is both sensitive and robust against false identifications. |
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Keywords: | glycoproteomics false discovery rate glycosylation mass spectrometry software AI–ETD" },{" #name" :" keyword" ," $" :{" id" :" kwrd0040" }," $$" :[{" #name" :" text" ," _" :" activated ion–electron transfer dissociation FDR" },{" #name" :" keyword" ," $" :{" id" :" kwrd0050" }," $$" :[{" #name" :" text" ," _" :" false discovery rate HCD" },{" #name" :" keyword" ," $" :{" id" :" kwrd0060" }," $$" :[{" #name" :" text" ," _" :" higher energy collisional dissociation NeuAc" },{" #name" :" keyword" ," $" :{" id" :" kwrd0070" }," $$" :[{" #name" :" text" ," $$" :[{" #name" :" italic" ," _" :" N" },{" #name" :" __text__" ," _" :" -acetyl neuraminic acid NeuGc" },{" #name" :" keyword" ," $" :{" id" :" kwrd0080" }," $$" :[{" #name" :" text" ," $$" :[{" #name" :" italic" ," _" :" N" },{" #name" :" __text__" ," _" :" -glycolyl neuraminic acid PSM" },{" #name" :" keyword" ," $" :{" id" :" kwrd0090" }," $$" :[{" #name" :" text" ," _" :" peptide-spectrum match PTM" },{" #name" :" keyword" ," $" :{" id" :" kwrd0100" }," $$" :[{" #name" :" text" ," _" :" post-translational modification |
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