2013
Distinct host cell fates for human malignant melanoma targeted by oncolytic rodent parvoviruses
Vollmers EM, Tattersall P. Distinct host cell fates for human malignant melanoma targeted by oncolytic rodent parvoviruses. Virology 2013, 446: 37-48. PMID: 24074565, PMCID: PMC3811133, DOI: 10.1016/j.virol.2013.07.013.Peer-Reviewed Original ResearchConceptsPrimary human melanoma cellsPatient-derived melanoma cell linesCurrent therapeutic regimensHuman malignant melanomaRodent parvovirusesHuman melanoma cellsLow response rateMelanoma cell linesOncolytic parvovirusTherapeutic regimensMetastatic melanomaMalignant melanomaResponse rateVirion uptakeViral protein synthesisHost cell fateChimeric virusesMelanoma cellsComplete lysisCell linesMelanomaViral transcriptionParvovirusProgeny virionsLow multiplicityParvoviral Left-End Hairpin Ears Are Essential during Infection for Establishing a Functional Intranuclear Transcription Template and for Efficient Progeny Genome Encapsidation
Li L, Cotmore SF, Tattersall P. Parvoviral Left-End Hairpin Ears Are Essential during Infection for Establishing a Functional Intranuclear Transcription Template and for Efficient Progeny Genome Encapsidation. Journal Of Virology 2013, 87: 10501-10514. PMID: 23903839, PMCID: PMC3807388, DOI: 10.1128/jvi.01393-13.Peer-Reviewed Original ResearchConceptsDNA replicationA9 cellsC-terminal transactivation domainCapsid gene expressionProtein expressionWild-type virionsProgeny virion productionP38 promoterTransactivation domainTranscription complexInfectious plasmid cloneGenome encapsidationGenome packagingAbsence of progenyGene expressionPlasmid clonesTranscription templateMutant virionsNonstructural proteinsReplacement vectorViral transcriptionViral transcriptsSuch complementationVirion stabilityDuplex DNA
2011
The parvoviral capsid controls an intracellular phase of infection essential for efficient killing of stepwise-transformed human fibroblasts
Paglino J, Tattersall P. The parvoviral capsid controls an intracellular phase of infection essential for efficient killing of stepwise-transformed human fibroblasts. Virology 2011, 416: 32-41. PMID: 21600623, PMCID: PMC3112476, DOI: 10.1016/j.virol.2011.04.015.Peer-Reviewed Original Research
2000
Autonomous Parvoviruses as Gene Transfer Vehicles
Palmer G, Tattersall P. Autonomous Parvoviruses as Gene Transfer Vehicles. Contributions To Microbiology 2000, 4: 178-202. PMID: 10941578, DOI: 10.1159/000060337.Peer-Reviewed Original Research
1999
Two New Members of the Emerging KDWK Family of Combinatorial Transcription Modulators Bind as a Heterodimer to Flexibly Spaced PuCGPy Half-Sites
Christensen J, Cotmore S, Tattersall P. Two New Members of the Emerging KDWK Family of Combinatorial Transcription Modulators Bind as a Heterodimer to Flexibly Spaced PuCGPy Half-Sites. Molecular And Cellular Biology 1999, 19: 7741-7750. PMID: 10523663, PMCID: PMC84824, DOI: 10.1128/mcb.19.11.7741.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid MotifsAmino Acid SequenceBinding SitesCloning, MolecularDimerizationDNA-Binding ProteinsDNA, ComplementaryGC Rich SequenceHeLa CellsHumansMolecular Sequence DataMultigene FamilyNuclear ProteinsParvovirusPromoter Regions, GeneticProtein BindingReceptors, TransferrinRecombinant ProteinsReplication OriginSequence Homology, Amino AcidTranscription FactorsTyrosine TransaminaseConceptsParvovirus initiation factorPromoter activation assaysParvovirus DNA replicationE-box motifAmino acid identityTransferrin receptor promoterResponse element-binding proteinCyclic AMP response element binding proteinElement-binding proteinHeLa factorsAMP response element binding proteinTranscriptional modulatorDNA replicationHuman cDNAAcid identityInitiation factorsRegulatory elementsDEAF-1Recombinant baculovirusHalf sitesPromoter regionComplex bindsReceptor promoterHost cellsComplex consistingcis Requirements for the Efficient Production of Recombinant DNA Vectors Based on Autonomous Parvoviruses
Kestler J, Neeb B, Struyf S, Van Damme J, Cotmore S, D'Abramo A, Tattersall P, Rommelaere J, Dinsart C, Cornelis J. cis Requirements for the Efficient Production of Recombinant DNA Vectors Based on Autonomous Parvoviruses. Human Gene Therapy 1999, 10: 1619-1632. PMID: 10428207, DOI: 10.1089/10430349950017626.Peer-Reviewed Original ResearchConceptsViral vectorsViral vector productionRecombinant viral vectorsRecombinant DNA vectorsVector productionRecombinant parvovirusesDNA vectorsRecombinant particlesVirus vectorsOverall sizeRecombinant vectorSmall transgenesEfficient productionHelper plasmidForeign DNAEfficient packagingPlasmid DNAParvovirus MVMpRecombinant clonesAutonomous parvovirusesViral terminiInfectious unitsVP sequencesDNA lengthVector
1997
A novel cellular site-specific DNA-binding protein cooperates with the viral NS1 polypeptide to initiate parvovirus DNA replication
Christensen J, Cotmore S, Tattersall P. A novel cellular site-specific DNA-binding protein cooperates with the viral NS1 polypeptide to initiate parvovirus DNA replication. Journal Of Virology 1997, 71: 1405-1416. PMID: 8995666, PMCID: PMC191197, DOI: 10.1128/jvi.71.2.1405-1416.1997.Peer-Reviewed Original ResearchConceptsReplication protein AProliferating-cell nuclear antigenOrigin replicationDNA replicationSite-specific DNA-binding proteinRecombinant replication protein AUV cross-linking analysisParvovirus DNA replicationDNA-binding proteinsSequence-specific DNACross-linking analysisSimian virus 40 replicationParvovirus initiation factorCellular proteinsInitiation factorsTranscription factorsEndonuclease functionMinimal originGel shiftMVM replicationNS1 polypeptideSpecific nickingS100 extractsSite regionDNA proceeds