2021
Benefits of Chemical Sugar Modifications Introduced by Click Chemistry for Glycoproteomic Analyses
Calle B, Bineva-Todd G, Marchesi A, Flynn H, Ghirardello M, Tastan OY, Roustan C, Choi J, Galan MC, Schumann B, Malaker SA. Benefits of Chemical Sugar Modifications Introduced by Click Chemistry for Glycoproteomic Analyses. Journal Of The American Society For Mass Spectrometry 2021, 32: 2366-2375. PMID: 33871988, PMCID: PMC7611619, DOI: 10.1021/jasms.1c00084.Peer-Reviewed Original ResearchConceptsMass spectrometryCharge densityMass spectrometric signatureLow charge densityIntact O-glycopeptidesHigh charge densityTandem mass spectrometryClick chemistryChemical methodsChemical modificationO-glycopeptidesETD fragmentationFragmentation behaviorMonosaccharide analoguesSpectrometric signaturesMucin-type O-glycansGlycoproteomic analysisCharge stateComplex post-translational modificationsRight analytical toolsGlycan structuresO-glycosylationSugar modificationsGlycopeptidesSpectrometry
2020
Electron-Based Dissociation Is Needed for O‑Glycopeptides Derived from OpeRATOR Proteolysis
Riley NM, Malaker SA, Bertozzi CR. Electron-Based Dissociation Is Needed for O‑Glycopeptides Derived from OpeRATOR Proteolysis. Analytical Chemistry 2020, 92: 14878-14884. PMID: 33125225, PMCID: PMC8329938, DOI: 10.1021/acs.analchem.0c02950.Peer-Reviewed Original ResearchConceptsO-glycopeptidesElectron-based fragmentationElectron-driven dissociationMS/MS spectraO-glycositesTandem mass spectrometryMS spectraMass spectrometryGlycoproteomic methodsOrthogonal cleavageDissociation methodO-glycoproteomicsPeptide fragmentsCombined digestionN-terminal residuesThreonine residuesBacterial enzymesO-glycoproteinsDissociationN-terminusExciting opportunitiesO-glycansCanonical proteasesElectronsSpectrometry