2017
Cellular differentiation state modulates the mRNA export activity of SR proteins
Botti V, McNicoll F, Steiner MC, Richter FM, Solovyeva A, Wegener M, Schwich OD, Poser I, Zarnack K, Wittig I, Neugebauer KM, Müller-McNicoll M. Cellular differentiation state modulates the mRNA export activity of SR proteins. Journal Of Cell Biology 2017, 216: 1993-2009. PMID: 28592444, PMCID: PMC5496613, DOI: 10.1083/jcb.201610051.Peer-Reviewed Original ResearchMeSH KeywordsActive Transport, Cell NucleusAnimalsArginineCell DifferentiationCell NucleusDNA-Binding ProteinsHeLa CellsHumansImmunoprecipitationMethylationMiceNeurogenesisPhenotypePhosphorylationPluripotent Stem CellsProtein BindingProtein Processing, Post-TranslationalRepressor ProteinsRNA InterferenceRNA, MessengerRNA-Binding ProteinsSerine-Arginine Splicing FactorsTandem Mass SpectrometryTranscription FactorsTransfectionConceptsMRNA export activitySR proteinsP19 cellsMRNA exportSR protein family membersProtein-RNA interactionsMurine P19 cellsCellular differentiation stateProtein family membersLower phosphorylation levelsArginine methylationPluripotency factorsCytoplasmic mRNA levelsMRNA processingPosttranslational modificationsCellular dynamicsDifferentiated cellsNeural differentiationSRSF5Differentiation statePhosphorylation levelsHeLa cellsProteinExport activityMRNA levels
2010
Global analysis reveals SRp20- and SRp75-specific mRNPs in cycling and neural cells
Änkö M, Morales L, Henry I, Beyer A, Neugebauer KM. Global analysis reveals SRp20- and SRp75-specific mRNPs in cycling and neural cells. Nature Structural & Molecular Biology 2010, 17: 962-970. PMID: 20639886, DOI: 10.1038/nsmb.1862.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell CycleCell DifferentiationCell Line, TumorChromosomes, Artificial, BacterialGene Expression Regulation, NeoplasticGene Knockdown TechniquesGreen Fluorescent ProteinsImmunoprecipitationMiceNeuronsOrgan SpecificityProtein BindingRibonucleoproteinsRNA, MessengerRNA-Binding ProteinsSerine-Arginine Splicing FactorsDynamic control of Cajal body number during zebrafish embryogenesis
Strzelecka M, Oates AC, Neugebauer KM. Dynamic control of Cajal body number during zebrafish embryogenesis. Nucleus 2010, 1: 96-108. PMID: 21327108, PMCID: PMC3035118, DOI: 10.4161/nucl.1.1.10680.Peer-Reviewed Original ResearchConceptsCajal bodiesEnd processing factorsGene expressionZygotic genome activationZygotic gene expressionRNA processing machineryDistinct nuclear bodiesMRNA splicing machineryCajal body numberLive-cell imagingCB numberHours of developmentGenome activationZebrafish embryogenesisNuclear subcompartmentsSnRNP biogenesisSplicing machineryZebrafish embryosCell divisionNuclear bodiesCB assemblyEmbryonic cellsMaternal contributionProcessing machineryEmbryos
1989
Integrins and Cell Adhesion Molecules: Neuronal Receptors That Regulate Axon Growth on Extracellular Matrices and Cell Surfaces
Reichardt L, Bixby J, Hall D, Ignatius M, Neugebauer K, Tomaselli K. Integrins and Cell Adhesion Molecules: Neuronal Receptors That Regulate Axon Growth on Extracellular Matrices and Cell Surfaces. Developmental Neuroscience 1989, 11: 332-347. PMID: 2551626, DOI: 10.1159/000111910.Peer-Reviewed Original Research