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
1988
Evidence that developmentally regulated control of gene expression by a parvoviral allotropic determinant is particle mediated
Gardiner E, Tattersall P. Evidence that developmentally regulated control of gene expression by a parvoviral allotropic determinant is particle mediated. Journal Of Virology 1988, 62: 1713-1722. PMID: 3357208, PMCID: PMC253210, DOI: 10.1128/jvi.62.5.1713-1722.1988.Peer-Reviewed Original ResearchConceptsProgeny virusIncoming viral capsidInfectious molecular cloneViral transcriptionInfectious centersAllotropic determinantHost cell susceptibilityImmunosuppressive strainAutonomous parvovirus minute virusMolecular cloneCell susceptibilityViral RNASame low levelVirusParvovirus minute virusCell linesRescue of virusPhenotype characteristicViral DNAIntracellular factorsDifferent infectivitySimilar numberFibroblastsMinute virusMouse cell lines
1986
The NS-1 polypeptide of the autonomous parvovirus MVM is a nuclear phosphoprotein
Cotmore S, Tattersall P. The NS-1 polypeptide of the autonomous parvovirus MVM is a nuclear phosphoprotein. Virus Research 1986, 4: 243-250. PMID: 3739422, DOI: 10.1016/0168-1702(86)90003-1.Peer-Reviewed Original ResearchConceptsParvovirus MVMNS-1 proteinVitro translation productsMessenger RNA speciesNS-1 polypeptideSame primary sequencePeptide map analysisNon-structural proteinsRNA speciesNuclear phosphoproteinReplication complexTranslation productsKb transcriptPrimary sequenceVivo productNS-1SpeciesProteinPredominant formPhosphoproteinMVMTranscriptsPolypeptideNucleusMap analysis
1983
The autonomous parvovirus MVM encodes two nonstructural proteins in addition to its capsid polypeptides
Cotmore S, Sturzenbecker L, Tattersall P. The autonomous parvovirus MVM encodes two nonstructural proteins in addition to its capsid polypeptides. Virology 1983, 129: 333-343. PMID: 6623929, DOI: 10.1016/0042-6822(83)90172-1.Peer-Reviewed Original ResearchConceptsParvovirus MVMCapsid polypeptidesNS-1 proteinOpen reading frameNS-1 polypeptidePeptide map analysisMajor intronTranscription unitMVM genomeVitro translationApparent molecular weightReading frameNonstructural proteinsPolypeptideProteinVP-1NS-1VP-2GenomeIntronsComigratesMolecular weightTranscriptsMVMMap analysis
1979
About 30% of minute virus of mice RNA is spliced out following polyadenylation
TAL J, RON D, TATTERSALL P, BRATOSIN S, ALONI Y. About 30% of minute virus of mice RNA is spliced out following polyadenylation. Nature 1979, 279: 649-651. PMID: 450113, DOI: 10.1038/279649a0.Peer-Reviewed Original ResearchConceptsEukaryotic messenger RNAsStudy of transcriptionBlocks of sequenceStudy of RNAMinute virusComplementary strand synthesisDNA chromosomesMouse RNARNA splicingRNA speciesSplicing patternsVitro translationProtein speciesNon-contiguous regionsMRNA speciesAbundant speciesViral strandIcosahedral virionsAnimal virusesGenomic DNATranscription processStrand synthesisDNA moleculesRNASequence arrangement