2000
Genetically and epidemiologically related “non‐syncytium‐inducing” isolates of HIV‐1 display heterogeneous growth patterns in macrophages
Jesus M, Anders C, Miller G, Sleasman J, Goodenow M, Andiman W. Genetically and epidemiologically related “non‐syncytium‐inducing” isolates of HIV‐1 display heterogeneous growth patterns in macrophages. Journal Of Medical Virology 2000, 61: 171-180. PMID: 10797371, DOI: 10.1002/(sici)1096-9071(200006)61:2<171::aid-jmv1>3.0.co;2-x.Peer-Reviewed Original ResearchMeSH KeywordsAdultAmino Acid SequenceAntigens, ViralCD4 AntigensCell LineCells, CulturedChild, PreschoolFemaleGiant CellsHIV Core Protein p24HIV InfectionsHIV-1HumansInfantLeukocytes, MononuclearMacrophagesMolecular Sequence DataPhenotypeProspective StudiesProtein Structure, TertiaryReceptors, ChemokineTransfectionTropismU937 CellsViral ProteinsVirus ReplicationConceptsNSI virusesDisease stageSurrogate markerPediatric human immunodeficiency virus type 1 (HIV-1) infectionHuman immunodeficiency virus type 1 (HIV-1) infectionVirus type 1 infectionCell linesCo-receptor preferenceM-tropic virusesType 1 infectionT-cell tropicDual tropicInducing (NSI) virusesNSI isolatesAsymptomatic childrenMacrophage-tropicClinical progressionSymptomatic childrenV3 loopNSI phenotypeHIV-1Lymphotropic virusCategory A1Heterogeneous growth patternsGenetic featuresDihydrofolate Reductase from Kaposi's Sarcoma-Associated Herpesvirus
Cinquina C, Grogan E, Sun R, Lin S, Beardsley G, Miller G. Dihydrofolate Reductase from Kaposi's Sarcoma-Associated Herpesvirus. Virology 2000, 268: 201-217. PMID: 10683342, DOI: 10.1006/viro.1999.0165.Peer-Reviewed Original ResearchConceptsKaposi's sarcoma-associated herpesvirusSarcoma-associated herpesvirusDihydrofolate reductaseEarly lytic cycle genesNucleotide metabolism genesDHFR activityHuman DHFRViral enzymesPrimary effusion lymphomaLytic cycle genesKSHV lytic cycleMethionine biosynthesisCycle genesHuman dihydrofolate reductaseCultured B-cell linesMetabolism genesPEL cell linesOwn enzymesB cell linesAmino acidsPEL cellsChemical inductionLytic cycleE. coliInfected cells
1999
Role of the Epstein-Barr Virus Rta Protein in Activation of Distinct Classes of Viral Lytic Cycle Genes
Ragoczy T, Miller G. Role of the Epstein-Barr Virus Rta Protein in Activation of Distinct Classes of Viral Lytic Cycle Genes. Journal Of Virology 1999, 73: 9858-9866. PMID: 10559298, PMCID: PMC113035, DOI: 10.1128/jvi.73.12.9858-9866.1999.Peer-Reviewed Original ResearchConceptsLytic cycle genesRaji cellsEpstein–Barr virus Rta proteinEpstein-Barr virus (EBV) lytic cycleViral targetsLytic cycleVirus lytic cycleLymphoma cell line RajiBurkitt's lymphoma cell line RajiBZLF1 expressionB cell linesCell line RajiBRLF1 geneImmediate early genesInhibitory effectCycle genesViral lytic cycle genesEBVRta proteinViral genesBLRF2CellsExpressionTransactivation functionLate genes
1995
Transmissible Retrovirus in Epstein-Burr Virus-Producer B95-8 Cells
Sun R, Grogan E, Shedd D, Bykovsky A, Kushnaryov V, Grossberg S, Miller G. Transmissible Retrovirus in Epstein-Burr Virus-Producer B95-8 Cells. Virology 1995, 209: 374-383. PMID: 7778272, DOI: 10.1006/viro.1995.1269.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsB-LymphocytesBase SequenceBetaretrovirusCallithrixCell LineCloning, MolecularDNA PrimersDNA, ComplementaryGene LibraryGene Products, gagGenes, gagHerpesvirus 4, HumanHumansMicroscopy, ElectronMolecular Sequence DataPolymerase Chain ReactionRepetitive Sequences, Nucleic AcidSaimiriT-LymphocytesVirus ReplicationConceptsEpstein-Barr virusB95-8 cellsAbsence of EBVCell linesB95-8 isolateB95-8 strainMarmoset cell linesHuman lymphoid cell linesT cell linesLymphoid cell linesType D retrovirusHuman BLymphocyte immortalizationInfectious virusViral replicationHuman isolatesGag regionBiologic propertiesTransmissible retrovirusUltrastructural appearanceD retrovirusesAmino acid changesVirusSMRVGag sequences
1990
Differences in the extent of activation of Epstein-Barr virus replicative gene expression among four nonproducer cell lines stably transformed by OriP/BZLF1 plasmids
Gradoville L, Grogan E, Taylor N, Miller G. Differences in the extent of activation of Epstein-Barr virus replicative gene expression among four nonproducer cell lines stably transformed by OriP/BZLF1 plasmids. Virology 1990, 178: 345-354. PMID: 2171186, DOI: 10.1016/0042-6822(90)90331-k.Peer-Reviewed Original ResearchConceptsCell linesEffects of mutationsStable cell linesExtent of activationProtein functionCellular genesGene productsExtrachromosomal plasmidsGene expressionNonproducer cell linesExpression vectorEarly antigenEarly genesGenesLymphoid cell linesCellular subclonesEBV early genesReplicative gene expressionX50-7 cellsZEBRA proteinPlasmidZebraBZLF1 gene productLatent EBVEBV genes
1988
Polymorphisms of the region of the Epstein-Barr virus genome which disrupts latency
Jenson H, Miller G. Polymorphisms of the region of the Epstein-Barr virus genome which disrupts latency. Virology 1988, 165: 549-564. PMID: 2841800, DOI: 10.1016/0042-6822(88)90599-5.Peer-Reviewed Original Research
1985
Constitutive expression of Epstein-Barr virus-encoded RNAs and nuclear antigen during latency and after induction of Epstein-Barr virus replication
Weigel R, Fischer D, Heston L, Miller G. Constitutive expression of Epstein-Barr virus-encoded RNAs and nuclear antigen during latency and after induction of Epstein-Barr virus replication. Journal Of Virology 1985, 53: 254-259. PMID: 2981344, PMCID: PMC255024, DOI: 10.1128/jvi.53.1.254-259.1985.Peer-Reviewed Original ResearchConceptsEpstein-Barr virus-encoded RNAVirus-encoded RNAEpstein-Barr virus replicationNuclear antigenEpstein-Barr virusLatent gene productsEpstein-Barr virus gene productsHR-1 cellsVirus gene productsViral variantsVirus replicationAntigen mRNAAbsence of inductionViral DNAAntigenInductionMethod of inductionPhorbol esterViral polypeptidesViral transcriptsGene productsCytoplasmic abundanceExpressionConstitutive expressionConstitutive levels
1984
Epstein-Barr virus with heterogeneous DNA disrupts latency
Miller G, Rabson M, Heston L. Epstein-Barr virus with heterogeneous DNA disrupts latency. Journal Of Virology 1984, 50: 174-182. PMID: 6321789, PMCID: PMC255597, DOI: 10.1128/jvi.50.1.174-182.1984.Peer-Reviewed Original ResearchMeSH KeywordsAntigens, ViralBase SequenceCell LineDNA, ViralGenes, ViralHerpesvirus 4, HumanHumansLymphocytesLymphomaVirus ActivationVirus ReplicationConceptsEpstein-Barr virusLatent Epstein-Barr virusEarly antigenRaji cellsViral synthesisX50-7 cellsHet DNABurkitt lymphoma linesActivated virusEBV DNANeonatal lymphocytesEBV replicationEBV sequencesX50-7Restriction endonuclease polymorphismAntigenLymphoma linesVirusRare variantsDefective virusLower ratesSuperinfectionCell spreadBiological effectsCellsRegions of the EBV genome involved in latency and lymphocyte immortalization.
Miller G. Regions of the EBV genome involved in latency and lymphocyte immortalization. Medical Virology 1984, 30: 107-28. PMID: 6087408.Peer-Reviewed Original ResearchAnimalsAntigens, ViralB-LymphocytesCell NucleusCell Transformation, ViralChildChild, PreschoolChromosome DeletionDNA, ViralEpstein-Barr Virus Nuclear AntigensFemaleGenes, ViralHerpesvirus 4, HumanHumansLymphomaMaleRepetitive Sequences, Nucleic AcidRNA, ViralTranscription, GeneticTumor Virus InfectionsVirionVirus Replication
1983
Identification of a rare Epstein-Barr virus variant that enhances early antigen expression in Raji cells.
Rabson M, Heston L, Miller G. Identification of a rare Epstein-Barr virus variant that enhances early antigen expression in Raji cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 1983, 80: 2762-2766. PMID: 6302703, PMCID: PMC393908, DOI: 10.1073/pnas.80.9.2762.Peer-Reviewed Original Research
1982
New Epstein–Barr virus variants from cellular subclones of P3J-HR-1 Burkitt lymphoma
Heston L, Rabson M, Brown N, Miller G. New Epstein–Barr virus variants from cellular subclones of P3J-HR-1 Burkitt lymphoma. Nature 1982, 295: 160-163. PMID: 6276755, DOI: 10.1038/295160a0.Peer-Reviewed Original Research
1981
Epstein-Barr Viral DNA: Infectivity for Human Placental Cells
Miller G, Grogan E, Heston L, Robinson J, Smith D. Epstein-Barr Viral DNA: Infectivity for Human Placental Cells. Science 1981, 212: 452-455. PMID: 6259735, DOI: 10.1126/science.6259735.Peer-Reviewed Original ResearchMeSH KeywordsAntigens, ViralB-LymphocytesCapsidCell Transformation, ViralDNA, ViralHerpesvirus 4, HumanHumansPlacentaTransfectionVirus Replication
1979
SITE OF EPSTEIN-BARR VIRUS REPLICATION IN THE OROPHARYNX
Morgan DG, Miller G, Niederman J, Smith HW, Dowaliby JM. SITE OF EPSTEIN-BARR VIRUS REPLICATION IN THE OROPHARYNX. The Lancet 1979, 314: 1154-1157. PMID: 91888, DOI: 10.1016/s0140-6736(79)92384-5.Peer-Reviewed Original ResearchConceptsInfectious Epstein-Barr virusEpstein-Barr virus replicationAcute infectious mononucleosisEpstein-Barr virusInfectious mononucleosisPatient's virusThroat washingsViral antigensEBV productionTonsillar lymphocytesInfectious virusVirus replicationParotid secretionPatientsCell-free formSalivary glandsOropharynxVirusSecretionCell-free materialSalivaMononucleosisCellsTonsillectomyLymphocytes
1978
Radiobiological Inactivation of Epstein-Barr Virus
Henderson E, Heston L, Grogan E, Miller G. Radiobiological Inactivation of Epstein-Barr Virus. Journal Of Virology 1978, 25: 51-59. PMID: 202757, PMCID: PMC353900, DOI: 10.1128/jvi.25.1.51-59.1978.Peer-Reviewed Original ResearchConceptsEpstein-Barr virusEarly antigen inductionAntigen inductionStrain of EBVAbility of EBVHerpes simplex virus type 1B95-8 virusSimplex virus type 1Herpes simplex virusVirus type 1X-irradiationCell DNA synthesisHost cell DNA synthesisLymphoid cell linesEBV genomeB95-8EBV transformationSimplex virusPlaque formationType 1Nuclear antigenMechanisms of repairPrimary lymphocytesCell clonesDose of irradiation
1975
Differences between laboratory strains of Epstein-Barr virus based on immortalization, abortive infection and interference.
Miller G, Robinson J, Heston L, Lipman M. Differences between laboratory strains of Epstein-Barr virus based on immortalization, abortive infection and interference. IARC Scientific Publications 1975, 395-408. PMID: 190145.Peer-Reviewed Original ResearchConceptsEpstein-Barr virusEarly antigenH virusInitiation of immortalizationAntibody-negative human serumPretreatment of lymphocytesNon-producer cell linesCell linesHuman umbilical cordHuman serumInfectious mononucleosisCarrier cell linesB95-8Umbilical cordBurkitt's lymphomaLymphocyte immortalizationDNA synthesisLaboratory strainsStimulation of DNAHuman lymphocytesLymphocytesBiological behaviorPrimary culturesAbortive infectionAntigen
1974
Differences Between Laboratory Strains of Epstein-Barr Virus Based on Immortalization, Abortive Infection, and Interference
Miller G, Robinson J, Heston L, Lipman M. Differences Between Laboratory Strains of Epstein-Barr Virus Based on Immortalization, Abortive Infection, and Interference. Proceedings Of The National Academy Of Sciences Of The United States Of America 1974, 71: 4006-4010. PMID: 4372601, PMCID: PMC434316, DOI: 10.1073/pnas.71.10.4006.Peer-Reviewed Original ResearchConceptsEB virusEarly antigenH virusInitiation of immortalizationAntibody-negative human serumEpstein-Barr virusPretreatment of lymphocytesCell linesHuman umbilical cordDNA synthesisHuman serumInfectious mononucleosisCarrier cell linesBiologic behaviorB95-8Umbilical cordBurkitt's lymphomaLymphocyte immortalizationNonproducer cell linesHuman lymphocytesLaboratory strainsLymphocytesBiologic activityPrimary culturesAbortive infection