1990
Alternate splicing in a parvoviral nonstructural gene links a common amino-terminal sequence to downstream domains which confer radically different localization and turnover characteristics
Cotmore S, Tattersall P. Alternate splicing in a parvoviral nonstructural gene links a common amino-terminal sequence to downstream domains which confer radically different localization and turnover characteristics. Virology 1990, 177: 477-487. PMID: 2142555, DOI: 10.1016/0042-6822(90)90512-p.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsAphidicolinBase SequenceCapsidCell DivisionChromosome MappingDiterpenesFluorescent Antibody TechniqueGenes, ViralL CellsMiceMinute virus of miceMolecular Sequence DataMolecular WeightParvoviridaeRNA SplicingRNA, ViralSequence Homology, Nucleic AcidViral Core ProteinsViral Nonstructural ProteinsViral Structural ProteinsConceptsCommon amino-terminal domainAmino-terminal domainNS-1 moleculesCommon amino-terminal sequenceNS-1 polypeptideAmino-terminal sequenceSodium dodecyl sulfate gel electrophoresisNS-1Dodecyl sulfate gel electrophoresisUnphosphorylated formInternal exonsAlternate splicingGene productsSulfate gel electrophoresisA9 cellsNonstructural genesSpliced formsPhosphorylated formDownstream domainContiguous sequencesNonstructural proteinsSpecies migratePeptide-specific antibodiesMinute virusTurnover characteristicsSusceptibility of human cells to killing by the parvoviruses H-1 and minute virus of mice correlates with viral transcription
Cornelis J, Chen Y, Spruyt N, Duponchel N, Cotmore S, Tattersall P, Rommelaere J. Susceptibility of human cells to killing by the parvoviruses H-1 and minute virus of mice correlates with viral transcription. Journal Of Virology 1990, 64: 2537-2544. PMID: 2139892, PMCID: PMC249429, DOI: 10.1128/jvi.64.6.2537-2544.1990.Peer-Reviewed Original ResearchConceptsViral mRNAsHuman cellsLevel of transcriptionMinute virusMajor viral transcriptViral DNA amplificationNonstructural polypeptidesGene productsOncogenic transformationGene expressionIntracellular localizationNonstructural proteinsViral transcriptionViral transcriptsTranscriptionViral genomeParvovirus HCell susceptibilityHuman fibroblastsVirus uptakeEpithelial cellsDNA amplificationResistant derivativesKeratinocyte lineDifferential susceptibility
1984
Formation of a host range mutant of the lymphotropic strain of minute virus of mice during persistent infection in mouse L cells
Ron D, Tattersall P, Tal J. Formation of a host range mutant of the lymphotropic strain of minute virus of mice during persistent infection in mouse L cells. Journal Of Virology 1984, 52: 63-69. PMID: 6090711, PMCID: PMC254489, DOI: 10.1128/jvi.52.1.63-69.1984.Peer-Reviewed Original ResearchConceptsLymphotropic strainPersistent infectionL cellsMinute virusT lymphocyte cell lineAltered host rangeCarrier stateHigh titersMiceCarrier culturesViral host rangeVirusCell linesSingle plaqueInfectionMassive cell lysisRestriction enzyme analysisMouse L cellsCellsViral genomeCell lysisHost range mutantsDaysEnzyme analysisEarly stages
1972
Replication of the Parvovirus MVM I. Dependence of Virus Multiplication and Plaque Formation on Cell Growth
Tattersall P. Replication of the Parvovirus MVM I. Dependence of Virus Multiplication and Plaque Formation on Cell Growth. Journal Of Virology 1972, 10: 586-590. PMID: 4673484, PMCID: PMC356507, DOI: 10.1128/jvi.10.4.586-590.1972.Peer-Reviewed Original Research