Barbora Salovska, PhD
she/her/hers
Associate Research Scientist in PharmacologyCards
About
Research
Publications
2025
Divergent proteome tolerance against gain and loss of chromosome arms
Di Y, Li W, Castellano J, Jin W, Modi J, Salovska B, Khosroabadi D, Hu W, Taylor A, Liu Y. Divergent proteome tolerance against gain and loss of chromosome arms. Molecular Cell 2025, 85: 4268-4278.e6. PMID: 41270725, DOI: 10.1016/j.molcel.2025.10.023.Peer-Reviewed Original ResearchConceptsChromosome arm gainsProtein complex subunitsStable protein complexesChromosome 3p lossQuantitative mass spectrometryChromosome armsProteostasis mechanismsComplex stoichiometryComplex subunitsProtein complexesEuploid chromosomeComplexation showMass spectrometryProtein degradationThermal stabilityIsotope labelingProtein synthesisProteinChromosomeAneuploidyCell modelHuman lung cell modelLung cell modelProteostasisProteomic Characterization of Glucose-Induced Redox Signaling in Human Pancreatic β-cells
Holendova B, Salovska B, Plecita L. Proteomic Characterization of Glucose-Induced Redox Signaling in Human Pancreatic β-cells. Free Radical Biology And Medicine 2025, 240: s66. DOI: 10.1016/j.freeradbiomed.2025.10.189.Peer-Reviewed Original ResearchA robust multiplex-DIA workflow profiles protein turnover regulations associated with cisplatin resistance and aneuploidy
Salovska B, Li W, Bernhardt O, Germain P, Wang Q, Gandhi T, Reiter L, Liu Y. A robust multiplex-DIA workflow profiles protein turnover regulations associated with cisplatin resistance and aneuploidy. Nature Communications 2025, 16: 5034. PMID: 40447611, PMCID: PMC12125295, DOI: 10.1038/s41467-025-60319-x.Peer-Reviewed Original ResearchConceptsMS platformsMass spectrometryDrug discoveryCisplatin resistanceDegradation kineticsDegradation profileAssociated with cisplatin resistanceProtein turnoverLabeled channelsProtein complex subunitsRespiratory complex IMitochondrial metabolic adaptationRobust workflowProtein degradation profilesCancer cell modelsMeasure protein turnoverProtein turnover regulationProteome dynamicsSpectrometryHigh-throughputComplex ICellular processesComplex subunitsSILAC labelingAneuploid genomesDetermination of ADP/ATP translocase isoform ratios in malignancy and cellular senescence
Liblova Z, Maurencova D, Salovska B, Kratky M, Mracek T, Korandova Z, Pecinova A, Vasicova P, Rysanek D, Andera L, Fabrik I, Kupcik R, Kashmel P, Sultana P, Tambor V, Bartek J, Novak J, Vajrychova M, Hodny Z. Determination of ADP/ATP translocase isoform ratios in malignancy and cellular senescence. Molecular Oncology 2025, 19: 2619-2647. PMID: 40288905, PMCID: PMC12420346, DOI: 10.1002/1878-0261.70039.Peer-Reviewed Original ResearchANT isoformsOxidative phosphorylationCellular senescenceProtein isoform levelsGlioblastoma cellsProtein levelsCellular energy stateADP/ATP translocaseCellular oxygen consumption rateBioinformatics analysisIsoform levelsIsoform ratioDevelopment of senescenceGlioblastoma tumorigenesisOxygen consumption rateIsoformsPoor prognosis of glioblastomaANT2Targeted Mass SpectrometrySenescencePhosphorylationRT-PCRAntsPrognosis of glioblastomaAggressive brain tumorTurnover atlas of proteome and phosphoproteome across mouse tissues and brain regions
Li W, Dasgupta A, Yang K, Wang S, Hemandhar-Kumar N, Chepyala S, Yarbro J, Hu Z, Salovska B, Fornasiero E, Peng J, Liu Y. Turnover atlas of proteome and phosphoproteome across mouse tissues and brain regions. Cell 2025, 188: 2267-2287.e21. PMID: 40118046, PMCID: PMC12033170, DOI: 10.1016/j.cell.2025.02.021.Peer-Reviewed Original ResearchConceptsMouse tissuesNeurodegeneration-related proteinsPost-translational modificationsImpact of phosphorylationStable isotope labelingLong-lived proteinsPeroxisomal proteinsProtein lifetimeProteomic propertiesProtein phosphorylationProtein stabilityInteractive web-based portalProtein abundanceProtein turnoverPhosphorylationMammalian tissuesComprehensive resourceProteinIsotope labelingProteomicsA-synucleinAbundanceTurnoverTurnover changesPhosphosites
2024
GABAA receptor π forms channels that stimulate ERK through a G-protein-dependent pathway
Wang Y, Zhang Y, Li W, Salovska B, Zhang J, Li T, Li H, Liu Y, Kaczmarek L, Pusztai L, Klein D. GABAA receptor π forms channels that stimulate ERK through a G-protein-dependent pathway. Molecular Cell 2024, 85: 166-176.e5. PMID: 39642883, PMCID: PMC11698630, DOI: 10.1016/j.molcel.2024.11.016.Peer-Reviewed Original ResearchExtracellular regulated kinaseStimulated extracellular regulated kinaseExtracellular-regulated kinase signalingG-protein-dependent pathwayG protein-coupled pathwayUncharacterized pathwayGrowth signalsSignaling functionsCryoelectron microscopyCryo-EMSignaling mechanismsGABRPFunctional assaysNative nanodiscsPathwayStimulate growthPhysiological concentrationsAbsence of GABATargeted inhibitionType A receptorConcentrations of GABAMetabotropic receptorsIonotropic activitySignalGABA bindingThe RNA-dependent association of phosphatidylinositol 4,5-bisphosphate with intrinsically disordered proteins contribute to nuclear compartmentalization
Sztacho M, Červenka J, Šalovská B, Antiga L, Hoboth P, Hozák P. The RNA-dependent association of phosphatidylinositol 4,5-bisphosphate with intrinsically disordered proteins contribute to nuclear compartmentalization. PLOS Genetics 2024, 20: e1011462. PMID: 39621780, PMCID: PMC11668513, DOI: 10.1371/journal.pgen.1011462.Peer-Reviewed Original ResearchPhosphatidylinositol 4,5-bisphosphateBromodomain-containing protein 4Nuclear specklesNuclear architectureRNA-dependent associationRNA-dependent mannerAssociated with RNAFunctional nuclear architectureRNA-dependentUbiquitination sitesNuclear compartmentalizationNuclear localizationNuclear fociNuclear compartmentDisordered proteinsPIP2 levelsDisordered regionsGene expressionHuman cellsPIP2RNANuclear processesBRD4 proteinProteinRNA contentCysteine in the Spotlight: Glucose-Driven Redox Signaling in Pancreatic Beta Cells
Holendova B, Šalovská B, Benakova S, Hlavata L. Cysteine in the Spotlight: Glucose-Driven Redox Signaling in Pancreatic Beta Cells. Free Radical Biology And Medicine 2024, 224: s23. DOI: 10.1016/j.freeradbiomed.2024.10.045.Peer-Reviewed Original ResearchBeyond glucose: The crucial role of redox signaling in β-cell metabolic adaptation
Holendová B, Šalovská B, Benáková Š, Plecitá-Hlavatá L. Beyond glucose: The crucial role of redox signaling in β-cell metabolic adaptation. Metabolism 2024, 161: 156027. PMID: 39260557, DOI: 10.1016/j.metabol.2024.156027.Peer-Reviewed Original ResearchPost-translational modificationsReactive oxygen speciesEndoplasmic reticulumTricarboxylic acidRedox signalingPancreatic B-cellsGlucose stimulationModification of proteinsB-cell metabolismRedox signaling pathwaysReversible cysteine oxidationIncreased ROS levelsProduction of reactive oxygen speciesB cell functionInsulin secretionB cellsProtein functionProtein processingCysteine thiol modificationsGlucose-induced increaseOxidative phosphorylationPyruvate metabolismProtein activityRegulatory mechanismsMetabolic pathwaysPTMoreR-enabled cross-species PTM mapping and comparative phosphoproteomics across mammals
Wang S, Di Y, Yang Y, Salovska B, Li W, Hu L, Yin J, Shao W, Zhou D, Cheng J, Liu D, Yang H, Liu Y. PTMoreR-enabled cross-species PTM mapping and comparative phosphoproteomics across mammals. Cell Reports Methods 2024, 4: 100859. PMID: 39255793, PMCID: PMC11440062, DOI: 10.1016/j.crmeth.2024.100859.Peer-Reviewed Original ResearchConceptsP-siteSurrounding amino acid sequenceKinase-substrate networkQuantitative phosphoproteomic analysisFunctional enrichment analysisPhosphoproteomic resultsKinase motifsComparative phosphoproteomicsPTM sitesPhosphorylation eventsPhosphoproteomic analysisProteomic analysisEnrichment analysisMammalian speciesSpeciesEvolutionary anglePhosphoproteomeMotifEnvironmental factorsNon-human speciesPTMProteomicsKinaseMammalsProtein
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West Haven, CT 06516