2023
A basic phosphoproteomic-DIA workflow integrating precise quantification of phosphosites in systems biology
Di Y, Li W, Salovska B, Ba Q, Hu Z, Wang S, Liu Y. A basic phosphoproteomic-DIA workflow integrating precise quantification of phosphosites in systems biology. Biophysics Reports 2023, 9: 82-98. PMID: 37753060, PMCID: PMC10518521, DOI: 10.52601/bpr.2023.230007.Peer-Reviewed Original ResearchPost-translational modificationsData-independent acquisitionSystems biologySite-specific phosphorylation eventsImportant post-translational modificationMost human proteinsCritical protein functionsPhosphorylation eventsProtein functionPhosphoproteomic studiesPhosphoproteomic analysisBioinformatics AdvancesHuman proteinsMass spectrometry technologyBioinformatics analysisLarge-scale quantificationExperimental workflowHigh-resolution mass spectrometry technologySpectrometry technologyPhosphoproteomicsPhosphorylationBiologyProteinSystems medicineSingle experiment
2021
Limited Proteolysis-Coupled Mass Spectrometry Identifies Phosphatidylinositol 4,5-Bisphosphate Effectors in Human Nuclear Proteome
Sztacho M, Šalovská B, Červenka J, Balaban C, Hoboth P, Hozák P. Limited Proteolysis-Coupled Mass Spectrometry Identifies Phosphatidylinositol 4,5-Bisphosphate Effectors in Human Nuclear Proteome. Cells 2021, 10: 68. PMID: 33406800, PMCID: PMC7824793, DOI: 10.3390/cells10010068.Peer-Reviewed Original ResearchConceptsGene expressionHuman nuclear proteomeLimited proteolysisLabel-free quantitative mass spectrometryNuclear pore complexGene ontology analysisCell cycle regulationQuantitative mass spectrometryNuclear proteomeProtein effectorsPore complexPol IIRNA splicingOntology analysisMRNA splicingCycle regulationPIP2 bindingProtein interactionsDNA repairBioinformatics analysisNuclear envelopeFunctional domainsMass spectrometry identifiesSpecific proteinsCell cycle