1989
Carboxy-terminal SEKDEL sequences retard but do not retain two secretory proteins in the endoplasmic reticulum.
Zagouras P, Rose J. Carboxy-terminal SEKDEL sequences retard but do not retain two secretory proteins in the endoplasmic reticulum. Journal Of Cell Biology 1989, 109: 2633-2640. PMID: 2592401, PMCID: PMC2115906, DOI: 10.1083/jcb.109.6.2633.Peer-Reviewed Original ResearchConceptsEndoplasmic reticulumSEKDEL sequenceSecretory proteinsSequence Ser-GluAmino acidsMonkey COS cellsOligonucleotide-directed mutagenesisLast amino acidFirst amino acidProtein exitIndirect immunofluorescence microscopyAnimal cellsCOS cellsCOOH terminusAlpha subunitProtein structureGolgi apparatusLys-AspImmunofluorescence microscopyOligosaccharide processingProteinReticulumSEKDELSer-GluSpecific interactions
1988
Influence of new glycosylation sites on expression of the vesicular stomatitis virus G protein at the plasma membrane.
Machamer C, Rose J. Influence of new glycosylation sites on expression of the vesicular stomatitis virus G protein at the plasma membrane. Journal Of Biological Chemistry 1988, 263: 5948-5954. PMID: 2833523, DOI: 10.1016/s0021-9258(18)60658-1.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceBase SequenceBinding SitesBiological TransportCell LineCell MembraneCloning, MolecularDNA, RecombinantFluorescent Antibody TechniqueGlycosylationImmunosorbent TechniquesIodine RadioisotopesLactoperoxidaseMembrane GlycoproteinsMolecular Sequence DataMutationOligosaccharidesTransfectionTunicamycinVesicular stomatitis Indiana virusViral Envelope ProteinsViral Matrix ProteinsConceptsVesicular stomatitis virus G proteinVirus G proteinG proteinsConsensus sitesIntracellular transportWild-type G proteinWild-type proteinOligonucleotide-directed mutagenesisNew consensus sitePlasma membrane glycoproteinsMutant proteinsNew glycosylation siteNew sitesAsparagine-linked oligosaccharidesPlasma membraneGlycosylation sitesMembrane glycoproteinsInhibition of transportProteinPolypeptide backboneNormal sitesIndirect roleOligosaccharidesExpressionSites
1986
Amino-terminal mutation of the vesicular stomatitis virus glycoprotein does not affect its fusion activity
Woodgett C, Rose J. Amino-terminal mutation of the vesicular stomatitis virus glycoprotein does not affect its fusion activity. Journal Of Virology 1986, 59: 486-489. PMID: 3016308, PMCID: PMC253100, DOI: 10.1128/jvi.59.2.486-489.1986.Peer-Reviewed Original ResearchConceptsVesicular stomatitis virus glycoproteinAmino acid changesG proteinsFusion activityAmino terminusWild-type G proteinAcid changesAmino-terminal mutationsSingle amino acid changeMonkey fibroblast cell lineSame amino acid changeOligonucleotide-directed mutagenesisPH-dependent fusion activityVirus glycoproteinPH-dependent hemolytic activityMutant proteinsHemolytic activityFibroblast cell lineSynthetic peptidesProteinCell linesTerminusGlycoproteinPeptidesMutagenesis
1985
Structural requirements of a membrane-spanning domain for protein anchoring and cell surface transport
Adams G, Rose J. Structural requirements of a membrane-spanning domain for protein anchoring and cell surface transport. Cell 1985, 41: 1007-1015. PMID: 3924407, DOI: 10.1016/s0092-8674(85)80081-7.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBiological TransportCell LineCell MembraneEndoplasmic ReticulumFluorescent Antibody TechniqueGlycoside HydrolasesGolgi ApparatusMannosyl-Glycoprotein Endo-beta-N-AcetylglucosaminidaseMembrane GlycoproteinsMembrane ProteinsMutationPalmitic AcidPalmitic AcidsPlasmidsViral Envelope ProteinsViral ProteinsConceptsMembrane-spanning domainsCell surface transportTransmembrane domainG proteinsAmino acidsVesicular stomatitis virus glycoproteinOligonucleotide-directed mutagenesisHydrophobic amino acidsMembrane anchoringProtein anchoringIntracellular membranesTransmembrane configurationEndoplasmic reticulumCell surfaceProteinVirus glycoproteinDNASurface transportStructural requirementsDomainMutagenesisAcidReticulumAnchoringTransportIncorporation 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 glycoproteinIncorporation 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. DOI: 10.1128/mcb.5.6.1442-1448.1985.Peer-Reviewed Original ResearchMembrane 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