1993
Dynamic equilibrium between vesicular stomatitis virus glycoprotein monomers and trimers in the Golgi and at the cell surface
Zagouras P, Rose J. Dynamic equilibrium between vesicular stomatitis virus glycoprotein monomers and trimers in the Golgi and at the cell surface. Journal Of Virology 1993, 67: 7533-7538. PMID: 8230472, PMCID: PMC238219, DOI: 10.1128/jvi.67.12.7533-7538.1993.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, ViralAntibody SpecificityBiological TransportBrefeldin ACell CompartmentationCell MembraneCells, CulturedCricetinaeCyclopentanesGolgi ApparatusHexosaminidasesMembrane GlycoproteinsMutationPostural BalanceProtein ConformationProtein Processing, Post-TranslationalVesicular stomatitis Indiana virusViral Envelope ProteinsConceptsEndoplasmic reticulumHeterotrimer formationG proteinsMutant G proteinsG protein trimersVesicular stomatitis virus glycoproteinG protein subunitsVSV G proteinProtein moleculesG protein moleculesWild-type trimersMutant proteinsCytoplasmic domainCellular compartmentsCoexpression experimentsGlycoprotein monomersLonger chase periodsPlasma membraneProtein subunitsMu proteinProtein trimerForms trimersCell surfaceMonomeric subunitsProteinCell fusion by the envelope glycoproteins of persistent measles viruses which caused lethal human brain disease
Cattaneo R, Rose J. Cell fusion by the envelope glycoproteins of persistent measles viruses which caused lethal human brain disease. Journal Of Virology 1993, 67: 1493-1502. PMID: 8437226, PMCID: PMC237519, DOI: 10.1128/jvi.67.3.1493-1502.1993.Peer-Reviewed Original ResearchMeSH KeywordsAutopsyBacteriophage T7Biological TransportBrain DiseasesCell FusionCell LineCloning, MolecularDNA, ViralGlycosylationHeLa CellsHemagglutinins, ViralHumansMeaslesMeasles virusOligosaccharidesPromoter Regions, GeneticProtein ConformationProtein Processing, Post-TranslationalRecombinant ProteinsRNA, ViralViral Envelope ProteinsViral Fusion ProteinsViral InterferenceViral Matrix ProteinsVirulenceConceptsIntegral membrane proteinsH proteinCell fusionMembrane proteinsIntracellular domainViral buddingM proteinHS-protein interactionsF protein functionProtein interactionsMV genesIntracellular transportFusion proteinOligosaccharide modificationViral envelope proteinsMatrix proteinsHuman brain diseasesProteinMeasles virusReduced expressionEnvelope proteinPersistent measles virusBuddingSyncytium formationDisease developmentMembrane association of functional vesicular stomatitis virus matrix protein in vivo
Chong L, Rose J. Membrane association of functional vesicular stomatitis virus matrix protein in vivo. Journal Of Virology 1993, 67: 407-414. PMID: 8380086, PMCID: PMC237377, DOI: 10.1128/jvi.67.1.407-414.1993.Peer-Reviewed Original ResearchMeSH KeywordsCell MembraneCytosolHeLa CellsHumansMacromolecular SubstancesMembrane ProteinsModels, BiologicalOctoxynolPolyethylene GlycolsProtein ConformationRecombinant ProteinsRibonucleoproteinsSolubilitySubcellular FractionsVesicular stomatitis Indiana virusViral Core ProteinsViral Matrix ProteinsConceptsVesicular stomatitis virusRNP coresMatrix proteinsVesicular stomatitis virus matrix proteinM proteinVirus matrix proteinSoluble M proteinMajor structural componentRibonucleocapsid coreMembrane associationMembrane proteinsM protein moleculeVirus buddingSubcellular fractionationCellular membranesMembrane envelopeHeLa cellsVSV proteinsViral proteinsDetergent Triton XProteinProtein moleculesConformational differencesStomatitis virusMembrane
1992
Intermonomer disulfide bonds impair the fusion activity of influenza virus hemagglutinin
Kemble G, Bodian D, Rosé J, Wilson I, White J. Intermonomer disulfide bonds impair the fusion activity of influenza virus hemagglutinin. Journal Of Virology 1992, 66: 4940-4950. PMID: 1629960, PMCID: PMC241339, DOI: 10.1128/jvi.66.8.4940-4950.1992.Peer-Reviewed Original ResearchAnimalsAntibodies, MonoclonalCell LineCHO CellsCricetinaeDisulfidesDithiothreitolErythrocytesFluorescent DyesHemagglutinin Glycoproteins, Influenza VirusHemagglutinins, ViralHumansHydrogen-Ion ConcentrationKineticsMacromolecular SubstancesMembrane FusionProtein ConformationRhodaminesViral Envelope Proteins
1989
A single-amino-acid substitution eliminates the stringent carbohydrate requirement for intracellular transport of a viral glycoprotein
Pitta A, Rose J, Machamer C. A single-amino-acid substitution eliminates the stringent carbohydrate requirement for intracellular transport of a viral glycoprotein. Journal Of Virology 1989, 63: 3801-3809. PMID: 2760984, PMCID: PMC250973, DOI: 10.1128/jvi.63.9.3801-3809.1989.Peer-Reviewed Original ResearchMeSH KeywordsAmino AcidsBiological TransportCell MembraneGlycosylationMembrane GlycoproteinsMutationProtein ConformationTunicamycinViral Envelope Proteins
1988
Regulation of Protein Export From the Endoplasmic Reticulum
Rose J, Doms R. Regulation of Protein Export From the Endoplasmic Reticulum. Annual Review Of Cell And Developmental Biology 1988, 4: 257-288. PMID: 3058161, DOI: 10.1146/annurev.cb.04.110188.001353.Peer-Reviewed Original ResearchDifferential effects of mutations in three domains on folding, quaternary structure, and intracellular transport of vesicular stomatitis virus G protein.
Doms R, Ruusala A, Machamer C, Helenius J, Helenius A, Rose J. Differential effects of mutations in three domains on folding, quaternary structure, and intracellular transport of vesicular stomatitis virus G protein. Journal Of Cell Biology 1988, 107: 89-99. PMID: 2839523, PMCID: PMC2115181, DOI: 10.1083/jcb.107.1.89.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, MonoclonalAntibody SpecificityBiological TransportCell LineCentrifugation, Density GradientElectrophoresis, Polyacrylamide GelEndoplasmic ReticulumGlycosylationImmunoassayKineticsMacromolecular SubstancesMembrane GlycoproteinsMutationProtein ConformationTransfectionVesicular stomatitis Indiana virusViral Envelope ProteinsViral Matrix ProteinsConceptsG proteinsMutant proteinsCytoplasmic domainMutant G proteinsVesicular stomatitis virus G proteinIntegral membrane proteinsWild-type proteinTrimer formationVesicular stomatitis virus glycoproteinVirus G proteinAltered glycosylation patternConformation-specific antibodiesTail mutationsMembrane proteinsMin of synthesisOligomeric assembliesQuaternary structureMature formEndoplasmic reticulumInitial foldingGlycosylation patternsCell surfaceEctodomainProteinFoldingVesicular stomatitis virus G proteins with altered glycosylation sites display temperature-sensitive intracellular transport and are subject to aberrant intermolecular disulfide bonding.
Machamer C, Rose J. Vesicular stomatitis virus G proteins with altered glycosylation sites display temperature-sensitive intracellular transport and are subject to aberrant intermolecular disulfide bonding. Journal Of Biological Chemistry 1988, 263: 5955-5960. PMID: 2833524, DOI: 10.1016/s0021-9258(18)60659-3.Peer-Reviewed Original ResearchBinding SitesBiological TransportCell LineCell MembraneDisulfidesDNA, RecombinantEndoplasmic ReticulumFluorescent Antibody TechniqueGlycosylationHexosaminidasesImmunosorbent TechniquesIodine RadioisotopesLactoperoxidaseMembrane GlycoproteinsMutationOligosaccharidesProtein ConformationStructure-Activity RelationshipTemperatureTransfectionVesicular stomatitis Indiana virusViral Envelope ProteinsViral Matrix Proteins
1987
Effects of mutations in three domains of the vesicular stomatitis viral glycoprotein on its lateral diffusion in the plasma membrane.
Scullion B, Hou Y, Puddington L, Rose J, Jacobson K. Effects of mutations in three domains of the vesicular stomatitis viral glycoprotein on its lateral diffusion in the plasma membrane. Journal Of Cell Biology 1987, 105: 69-75. PMID: 3038931, PMCID: PMC2114925, DOI: 10.1083/jcb.105.1.69.Peer-Reviewed Original ResearchConceptsCytoplasmic domainTransmembrane domainMutant proteinsMembrane proteinsExtracellular domainWild-type G proteinG proteinsMutant G proteinsVesicular stomatitis viral glycoproteinIntegral membrane proteinsEntire cytoplasmic domainLateral mobilitySite-directed mutagenesisEffects of mutationsCOS-1 cellsSlow mutantsFastest mutantPlasma membraneChimeric proteinType G proteinsG cDNAVirus spike glycoproteinPalmitate additionFluorescence recoveryArtificial bilayers
1985
Incorporation of a charged amino acid into the membrane-spanning domain blocks cell surface transport but not membrane anchoring of a viral glycoprotein.
Adams G, Rose J. Incorporation of a charged amino acid into the membrane-spanning domain blocks cell surface transport but not membrane anchoring of a viral glycoprotein. Molecular And Cellular Biology 1985, 5: 1442-1448. PMID: 2993864, PMCID: PMC366875, DOI: 10.1128/mcb.5.6.1442.Peer-Reviewed Original ResearchConceptsMembrane anchoringG proteinsAmino acidsCell surfaceIsoleucine residueMembrane-spanning domainsCell surface transportVesicular stomatitis virus glycoproteinOligonucleotide-directed mutagenesisAmino acid sequenceUncharged amino acidsDetectable protein levelsHydrophobic amino acidsAnimal cellsCDNA clonesIntracellular membranesAcid sequencePunctate patternGolgi regionProteinContinuous stretchVesicular patternProtein levelsViral glycoproteinsVirus glycoprotein