Toward a hypothesis‐free understanding of how phosphorylation dynamically impacts protein turnover
Li W, Salovska B, Fornasiero E, Liu Y. Toward a hypothesis‐free understanding of how phosphorylation dynamically impacts protein turnover. Proteomics 2022, 23: e2100387. PMID: 36422574, PMCID: PMC10964180, DOI: 10.1002/pmic.202100387.Peer-Reviewed Original ResearchConceptsPost-translational modificationsProtein turnoverDynamic stable isotope labelingCell starvationStable isotope labelingData-independent acquisition mass spectrometryAcquisition mass spectrometryProteome levelTurnover diversityPhosphoproteomic datasetsPhosphorylation stoichiometryMetabolic labelingIsotope labelingMass spectrometryPhosphorylationAmino acidsCell culturesBiological perspectiveStarvationTurnoverTurnover measurementsRecent studiesSILACProteoformsPeptidoformsSILAC-IodoTMT for Assessment of the Cellular Proteome and Its Redox Status
Vajrychova M, Salovska B, Pimkova K, Fabrik I, Hodny Z. SILAC-IodoTMT for Assessment of the Cellular Proteome and Its Redox Status. Methods In Molecular Biology 2022, 2603: 259-268. PMID: 36370286, DOI: 10.1007/978-1-0716-2863-8_21.Peer-Reviewed Original ResearchConceptsHigh-resolution mass spectrometryIodoacetyl tandem mass tagLiquid chromatography separationMass spectrometry-based approachQuantification of proteinsStable isotope labelingChromatography separationTandem mass tagsMass spectrometryCysteine modificationCellular proteomeGlobal proteomeIsotope labelingMass tagsModification levelsAmino acidsRedox statusProteomeCell culturesSpectrometrySILACSeparationProteinAcidTags