2016
RAG1 targeting in the genome is dominated by chromatin interactions mediated by the non-core regions of RAG1 and RAG2
Maman Y, Teng G, Seth R, Kleinstein SH, Schatz DG. RAG1 targeting in the genome is dominated by chromatin interactions mediated by the non-core regions of RAG1 and RAG2. Nucleic Acids Research 2016, 44: 9624-9637. PMID: 27436288, PMCID: PMC5175335, DOI: 10.1093/nar/gkw633.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBinding SitesChromatinChromatin ImmunoprecipitationGenomeGenomic InstabilityHigh-Throughput Nucleotide SequencingHistonesHomeodomain ProteinsHumansMiceNucleotide MotifsPromoter Regions, GeneticProtein BindingProtein Interaction Domains and MotifsRecombination, GeneticV(D)J RecombinationConceptsAntigen receptor lociNon-core regionsReceptor locusPlant homeodomain (PHD) fingerChIP-seq dataWide bindingChromatin interactionsAdditional chromatinLysine 4Off-target activityGenomic featuresHistone 3Novel roleRAG1LociChromatinGenomeRAG2Observed patternsDistinct modesBindingH3K4me3H3K27acEndonucleaseRelative contribution
2015
Histone reader BRWD1 targets and restricts recombination to the Igk locus
Mandal M, Hamel KM, Maienschein-Cline M, Tanaka A, Teng G, Tuteja JH, Bunker JJ, Bahroos N, Eppig JJ, Schatz DG, Clark MR. Histone reader BRWD1 targets and restricts recombination to the Igk locus. Nature Immunology 2015, 16: 1094-1103. PMID: 26301565, PMCID: PMC4575638, DOI: 10.1038/ni.3249.Peer-Reviewed Original Research
2013
Multiple Transcription Factor Binding Sites Predict AID Targeting in Non-Ig Genes
Duke JL, Liu M, Yaari G, Khalil AM, Tomayko MM, Shlomchik MJ, Schatz DG, Kleinstein SH. Multiple Transcription Factor Binding Sites Predict AID Targeting in Non-Ig Genes. The Journal Of Immunology 2013, 190: 3878-3888. PMID: 23514741, PMCID: PMC3689293, DOI: 10.4049/jimmunol.1202547.Peer-Reviewed Original ResearchConceptsTranscription Factor Binding SitesAID-induced lesionsNon-Ig genesGenome instabilityTranscription factorsAberrant targetingSequence dataCertain genesGenesAID targetingGerminal center B cellsSomatic mutationsLikely targetBinding sitesAID targetsTargetingClassification tree modelMistargetingB cellsLociMechanismTargetMutationsSitesHigher-Order Looping and Nuclear Organization of Tcra Facilitate Targeted RAG Cleavage and Regulated Rearrangement in Recombination Centers
Chaumeil J, Micsinai M, Ntziachristos P, Deriano L, Wang J, Ji Y, Nora EP, Rodesch MJ, Jeddeloh JA, Aifantis I, Kluger Y, Schatz DG, Skok JA. Higher-Order Looping and Nuclear Organization of Tcra Facilitate Targeted RAG Cleavage and Regulated Rearrangement in Recombination Centers. Cell Reports 2013, 3: 359-370. PMID: 23416051, PMCID: PMC3664546, DOI: 10.1016/j.celrep.2013.01.024.Peer-Reviewed Original ResearchMeSH KeywordsAllelesAnimalsAtaxia Telangiectasia Mutated ProteinsCell Cycle ProteinsCell NucleusDNA DamageDNA-Binding ProteinsGenetic LociGenomic InstabilityHistonesHomeodomain ProteinsMiceMice, Inbred C57BLMice, Inbred CBAMice, KnockoutProtein Serine-Threonine KinasesReceptors, Antigen, T-Cell, alpha-betaTumor Suppressor ProteinsV(D)J RecombinationConceptsAntigen receptor lociRegulated rearrangementsGenome stabilityNuclear organizationRAG cleavageRAG recombinaseNuclear accessibilityRAG bindingCellular transformationΑ locusRecombination eventsReceptor locusDiverse arrayCell receptorLociLoop formationTight controlRegulationCleavageFocal bindingGenetic anomaliesBindingKey determinantRearrangementTranscription
2012
Identification of Core DNA Elements That Target Somatic Hypermutation
Kohler KM, McDonald JJ, Duke JL, Arakawa H, Tan S, Kleinstein SH, Buerstedde JM, Schatz DG. Identification of Core DNA Elements That Target Somatic Hypermutation. The Journal Of Immunology 2012, 189: 5314-5326. PMID: 23087403, PMCID: PMC3664039, DOI: 10.4049/jimmunol.1202082.Peer-Reviewed Original ResearchMeSH Keywords3' Flanking RegionAnimalsB-LymphocytesCells, CulturedChickensChromatin ImmunoprecipitationCytidine DeaminaseDNAEnhancer Elements, GeneticGenes, ImmunoglobulinGenetic LociImmunoassayImmunoglobulin Variable RegionMutationPhosphorylationRNA Polymerase IISerineSomatic Hypermutation, ImmunoglobulinTranscription, GeneticConceptsActivation-induced deaminaseDNA elementsSomatic hypermutationChicken DT40 B cellsIg lociChromatin immunoprecipitation experimentsDT40 B cellsRNA polymerase IISystematic deletion analysisL chain lociNon-Ig genesCore DNA elementSerine 5Epigenetic marksPolymerase IITranscriptional elongationMutational machineryDeletion analysisReporter cassetteImmunoprecipitation experimentsDeoxycytosine residuesIg genesDNA damageChain locusLociLocalized epigenetic changes induced by DH recombination restricts recombinase to DJH junctions
Subrahmanyam R, Du H, Ivanova I, Chakraborty T, Ji Y, Zhang Y, Alt FW, Schatz DG, Sen R. Localized epigenetic changes induced by DH recombination restricts recombinase to DJH junctions. Nature Immunology 2012, 13: 1205-1212. PMID: 23104096, PMCID: PMC3685187, DOI: 10.1038/ni.2447.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsB-LymphocytesCell LineChromatinEpigenesis, GeneticGene Rearrangement, B-Lymphocyte, Heavy ChainGenes, Immunoglobulin Heavy ChainHistonesImmunoglobulin Heavy ChainsImmunoglobulin Joining RegionImmunoglobulin Variable RegionMicePrecursor Cells, B-LymphoidRecombinasesRecombination, Genetic
2007
Activation-induced Cytidine Deaminase-mediated Sequence Diversification Is Transiently Targeted to Newly Integrated DNA Substrates*
Yang SY, Fugmann SD, Gramlich HS, Schatz DG. Activation-induced Cytidine Deaminase-mediated Sequence Diversification Is Transiently Targeted to Newly Integrated DNA Substrates*. Journal Of Biological Chemistry 2007, 282: 25308-25313. PMID: 17613522, DOI: 10.1074/jbc.m704231200.Peer-Reviewed Original ResearchConceptsActivation-induced cytidine deaminaseChicken B cell line DT40B cell line DT40Cytidine deaminaseNon-Ig lociNon-Ig genesSequence diversificationDNA substratesTranscription cassetteMutation targetsCassetteMolecular characteristicsMolecular featuresDeaminaseDT40TranscriptionGenesLociDNADiversificationMutabilityTargetingIgTargetTargeting of AID‐Mediated Sequence Diversification by cis‐Acting Determinants
Yang SY, Schatz DG. Targeting of AID‐Mediated Sequence Diversification by cis‐Acting Determinants. Advances In Immunology 2007, 94: 109-125. PMID: 17560273, DOI: 10.1016/s0065-2776(06)94004-8.Peer-Reviewed Original ResearchConceptsActivation-induced cytidine deaminaseSequence diversificationFeatures of chromatinTranscriptional control elementsCis-acting determinantsClass switch recombinationGene conversionDiversification processMolecular mechanismsIg lociSwitch recombinationIg genesAntibody diversityImmunoglobulin genesCytidine deaminaseSomatic hypermutationControl elementsTranscriptionGenesDiversificationRecombinationChromatinLociDiversityPermissive
2005
Histone Modifications Associated with Somatic Hypermutation
Odegard VH, Kim ST, Anderson SM, Shlomchik MJ, Schatz DG. Histone Modifications Associated with Somatic Hypermutation. Immunity 2005, 23: 101-110. PMID: 16039583, DOI: 10.1016/j.immuni.2005.05.007.Peer-Reviewed Original ResearchMeSH KeywordsAcetylationAnimalsB-LymphocytesChromatinChromatin ImmunoprecipitationCpG IslandsDNA DamageDNA MethylationHistonesImmunoglobulin Class SwitchingImmunoglobulin lambda-ChainsImmunoglobulin Light ChainsMethylationMiceMice, TransgenicPhosphorylationProtein Serine-Threonine KinasesSomatic Hypermutation, ImmunoglobulinConceptsClass switch recombinationSomatic hypermutationDistinct DNA damage responsesPhosphorylation of H2BHistone modification patternsDNA damage responseChromatin modificationsHistone modificationsKinase Mst1Histone H2BDamage responseHistone acetylationAcetylated H3Modification patternsPhosphorylated formIg lociSwitch recombinationImmunoglobulin lociH2BGammaH2AXLociHypermutationRecombinationHistonesH2AX
2004
B cell–specific loss of histone 3 lysine 9 methylation in the VH locus depends on Pax5
Johnson K, Pflugh DL, Yu D, Hesslein DG, Lin KI, Bothwell AL, Thomas-Tikhonenko A, Schatz DG, Calame K. B cell–specific loss of histone 3 lysine 9 methylation in the VH locus depends on Pax5. Nature Immunology 2004, 5: 853-861. PMID: 15258579, PMCID: PMC1635547, DOI: 10.1038/ni1099.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceB-LymphocytesCell LineageCells, CulturedDNA-Binding ProteinsFlow CytometryGene Rearrangement, B-LymphocyteHematopoietic Stem CellsHistonesImmunoglobulin Heavy ChainsImmunoglobulin Variable RegionLysineMethylationMiceModels, ImmunologicalMolecular Sequence DataPAX5 Transcription FactorPrecipitin TestsReverse Transcriptase Polymerase Chain ReactionTranscription FactorsConceptsH3-K9 methylationDJH recombinationVH locusHistone 3 lysine 9 methylationLysine 9 methylationFunction of Pax5Non-B lineage cellsB cell-specific lossB cell commitmentHistone exchangeInactive chromatinLysine 9Histone H3Transcription factorsCell commitmentCell-specific lossInhibitory modificationMethylationLineage cellsLociPAX5B cellsHeavy chain rearrangementRecombinationChain rearrangementPartial reconstitution of V(D)J rearrangement and lymphocyte development in RAG-deficient mice expressing inducible, tetracycline-regulated RAG transgenes
Shockett PE, Zhou S, Hong X, Schatz DG. Partial reconstitution of V(D)J rearrangement and lymphocyte development in RAG-deficient mice expressing inducible, tetracycline-regulated RAG transgenes. Molecular Immunology 2004, 40: 813-829. PMID: 14687938, DOI: 10.1016/j.molimm.2003.09.009.Peer-Reviewed Original ResearchConceptsPeripheral lymphoid organsIGK locusInducible gene expressionLymph nodesCell reconstitutionLymphoid organsTransgenic miceTRB locusTRD locusT-cell reconstitutionB-cell reconstitutionMammalian cellsRAG-deficient miceSignal endsTra locusRecombination signalsInducible activationGene expressionTCR beta chainFunctional expressionLymphocyte developmentLociRAG2 mRNALymphocyte reconstitutionTransgene
1999
Characterization of TCR gene rearrangements during adult murine T cell development.
Livák F, Tourigny M, Schatz D, Petrie H. Characterization of TCR gene rearrangements during adult murine T cell development. The Journal Of Immunology 1999, 162: 2575-80. PMID: 10072498, DOI: 10.4049/jimmunol.162.5.2575.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsGene Rearrangement, beta-Chain T-Cell Antigen ReceptorGene Rearrangement, delta-Chain T-Cell Antigen ReceptorGene Rearrangement, gamma-Chain T-Cell Antigen ReceptorGene Rearrangement, T-LymphocyteHyaluronan ReceptorsMiceMice, Inbred C57BLPolymerase Chain ReactionReceptors, Interleukin-2T-LymphocytesConceptsTCRbeta locusTCRdelta locusGammadelta T cell lineagesMurine T cell developmentTCR gene rearrangementsT lineage cellsGene rearrangementsT cell developmentLineage decisionsLocus recombinationLineage commitmentProductive rearrangementsIrreversible commitmentCell lineagesDelta geneMolecular evidenceCell developmentTCRbeta rearrangementsDevelopmental stagesT-cell lineageTCR complexLociLineage cellsLineagesGenes
1998
Alternative splicing of rearranged T cell receptor δ sequences to the constant region of the α locus
Livák F, Schatz D. Alternative splicing of rearranged T cell receptor δ sequences to the constant region of the α locus. Proceedings Of The National Academy Of Sciences Of The United States Of America 1998, 95: 5694-5699. PMID: 9576946, PMCID: PMC20441, DOI: 10.1073/pnas.95.10.5694.Peer-Reviewed Original ResearchConceptsCalpha geneTCRalpha/delta locusT cell receptor alpha/delta locusDelta locusAlpha/delta locusProtein coding capacityTranscriptional controlAlternative splicingSplicing variationsDistinct functional capacitiesAlternative transcriptsDelta proteinΑ locusChimeric proteinConstant genesAlpha proteinGene-deficient miceCoding capacityGenesThymocyte developmentAlphabeta thymocytesNovel insightsTCRbeta chainLociDistinct diversity
1992
The recombination activating genes, RAG 1 and RAG 2, are on chromosome 11p in humans and chromosome 2p in mice
Oettinger M, Stanger B, Schatz D, Glaser T, Call K, Housman D, Baltimore D. The recombination activating genes, RAG 1 and RAG 2, are on chromosome 11p in humans and chromosome 2p in mice. Immunogenetics 1992, 35: 97-101. PMID: 1735560, DOI: 10.1007/bf00189518.Peer-Reviewed Original ResearchConceptsRAG locusChromosome 11pRAG-2RAG-1Human chromosome 11pGenes RAG-1Hybrid cell linesJoining (V(D)J) recombinationChromosomal localizationChromosomal locationAdjacent genesCell hybridsHuman recombinationSouthern analysisChromosome 11Human diseasesGenesChromosome 2pLociCell linesRetardation syndromeRecombinationDeletionHybridsLocalization
1989
The V(D)J recombination activating gene, RAG-1
Schatz D, Oettinger M, Baltimore D. The V(D)J recombination activating gene, RAG-1. Cell 1989, 59: 1035-1048. PMID: 2598259, DOI: 10.1016/0092-8674(89)90760-5.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceBiological EvolutionCell LineCloning, MolecularDNA NucleotidyltransferasesGene Expression RegulationGene LibraryGene Rearrangement, T-LymphocyteGenes, ImmunoglobulinGenomic LibraryHumansMiceMolecular Sequence DataNucleic Acid HybridizationOligonucleotide ProbesReceptors, Antigen, T-CellRecombination, GeneticSequence Homology, Nucleic AcidT-LymphocytesTransfectionVDJ Recombinases