2016
Collaboration of RAG2 with RAG1-like proteins during the evolution of V(D)J recombination
Carmona LM, Fugmann SD, Schatz DG. Collaboration of RAG2 with RAG1-like proteins during the evolution of V(D)J recombination. Genes & Development 2016, 30: 909-917. PMID: 27056670, PMCID: PMC4840297, DOI: 10.1101/gad.278432.116.Peer-Reviewed Original ResearchConceptsRecombination-activating gene 1Transib transposaseAbsence of RAG2RAG1/RAG2Antigen receptor genesJawed vertebratesRAG2 proteinsTransposable elementsRAG1 proteinRegulatory featuresDNA substratesGene 1RAG2Receptor geneRecombination activityProteinRecombinationTransposaseAdaptive immunityVertebratesTransposonGenesEvolutionLow levelsOrigin
2015
Recruitment of RAG1 and RAG2 to Chromatinized DNA during V(D)J Recombination
Shetty K, Schatz DG. Recruitment of RAG1 and RAG2 to Chromatinized DNA during V(D)J Recombination. Molecular And Cellular Biology 2015, 35: 3701-3713. PMID: 26303526, PMCID: PMC4589606, DOI: 10.1128/mcb.00219-15.Peer-Reviewed Original ResearchConceptsConserved heptamerRAG2 proteinsChromatin immunoprecipitationNonamer elementsRecombination substratesSignal sequenceNonamer sequencesMutant formsCryptic RSSsRAG1DNA cleavageGene segmentsChromatinCell linesRAG2ProteinRecruitmentRecombinationSequenceMajor roleMutagenesisImmunoprecipitationRepeatsRSSsRAGChapter One Regulation and Evolution of the RAG Recombinase
Teng G, Schatz DG. Chapter One Regulation and Evolution of the RAG Recombinase. Advances In Immunology 2015, 128: 1-39. PMID: 26477364, DOI: 10.1016/bs.ai.2015.07.002.Peer-Reviewed Original ResearchConceptsRAG activityOverall genome integrityDNA breakageSpecific DNA motifsAntigen receptor lociDNA repair pathwaysChapter One RegulationAntigen receptor genesEarly lymphocyte developmentCell cycle statusGenome integrityChromatin structureRAG recombinaseRAG2 proteinsDNA motifsSpatial regulationWidespread bindingRepair pathwaysDNA cleavage activityRecombination eventsShuffling reactionEnzymatic potentialRAG endonucleaseReceptor locusLymphocyte development
2012
A Dual Interaction between the DNA Damage Response Protein MDC1 and the RAG1 Subunit of the V(D)J Recombinase*
Coster G, Gold A, Chen D, Schatz DG, Goldberg M. A Dual Interaction between the DNA Damage Response Protein MDC1 and the RAG1 Subunit of the V(D)J Recombinase*. Journal Of Biological Chemistry 2012, 287: 36488-36498. PMID: 22942284, PMCID: PMC3476314, DOI: 10.1074/jbc.m112.402487.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAmino Acid MotifsBRCA1 ProteinCell Cycle ProteinsCell Line, TumorHistonesHomeodomain ProteinsHumansModels, BiologicalNuclear ProteinsPeptide MappingPhosphorylationProtein Structure, TertiaryRepetitive Sequences, Amino AcidTrans-ActivatorsVDJ RecombinasesConceptsDNA double-strand breaksDNA damage responseTandem BRCA1 C-terminal (BRCT) domainsC-terminusSpecific DNA double-strand breaksBRCA1 C-terminal domainC-terminal domainThreonine-rich repeatsDouble-strand breaksRAG1 subunitRAG recombinaseRAG2 proteinsDDR proteinsDamage responseRegulatory signalsBinding interfaceBreak siteHistone H2AXRAG activityRich repeatsNon-core regionsMDC1RAG1PhosphorylationSubsequent signal amplification
2011
V(D)J Recombination: Mechanisms of Initiation
Schatz DG, Swanson PC. V(D)J Recombination: Mechanisms of Initiation. Annual Review Of Genetics 2011, 45: 167-202. PMID: 21854230, DOI: 10.1146/annurev-genet-110410-132552.Peer-Reviewed Original ResearchConceptsProtein-DNA complexesUbiquitin ligase activityHistone recognitionDomain organizationRAG proteinsRAG2 proteinsLigase activityT-cell receptor genesRecombination signalsDNA breaksHeptamer sequenceLymphocyte developmentDNA breakageDNA cleavageGene segmentsFunctional significanceProper repairReceptor geneRAG1ProteinRecombinationMechanism of initiationComplexesRecent advancesGenesRecombination centres and the orchestration of V(D)J recombination
Schatz DG, Ji Y. Recombination centres and the orchestration of V(D)J recombination. Nature Reviews Immunology 2011, 11: 251-263. PMID: 21394103, DOI: 10.1038/nri2941.Peer-Reviewed Original ResearchConceptsAntigen receptor genesRecombination signal sequencesSignal sequenceHigher-order chromatin architectureHistone H3 lysine 4Receptor geneAntigen receptor gene segmentsInactive nuclear compartmentsPlant homeodomain (PHD) fingerH3 lysine 4Antigen receptor lociReceptor gene segmentsEctopic recruitmentChromatin architectureChromatin structureLysine 4Active chromatinGenome instabilityHistone modificationsRAG2 proteinsThousands of sitesNuclear compartmentRecombination eventsTranscriptional activityGenomic DNA
2010
Promoters, enhancers, and transcription target RAG1 binding during V(D)J recombination
Ji Y, Little AJ, Banerjee JK, Hao B, Oltz EM, Krangel MS, Schatz DG. Promoters, enhancers, and transcription target RAG1 binding during V(D)J recombination. Journal Of Experimental Medicine 2010, 207: 2809-2816. PMID: 21115692, PMCID: PMC3005232, DOI: 10.1084/jem.20101136.Peer-Reviewed Original ResearchMeSH KeywordsAcetylationAnimalsBinding, CompetitiveChromatin ImmunoprecipitationDNAEnhancer Elements, GeneticFemaleGene RearrangementGenes, ImmunoglobulinGenotypeHistonesHMGB1 ProteinHomeodomain ProteinsMaleMiceMice, Inbred C57BLMice, KnockoutPromoter Regions, GeneticProtein BindingReceptors, Antigen, T-Cell, alpha-betaRecombination, GeneticTranscription, GeneticVDJ Recombinases
2004
Synapsis of Recombination Signal Sequences Located in cis and DNA Underwinding in V(D)J Recombination
Ciubotaru M, Schatz DG. Synapsis of Recombination Signal Sequences Located in cis and DNA Underwinding in V(D)J Recombination. Molecular And Cellular Biology 2004, 24: 8727-8744. PMID: 15367690, PMCID: PMC516766, DOI: 10.1128/mcb.24.19.8727-8744.2004.Peer-Reviewed Original ResearchConceptsRecombination signal sequencesDNA substratesSignal sequenceDNA distortionHigh mobility group proteinsProtein conformational changesSame DNA moleculeDouble-strand DNA cleavageRAG proteinsRAG2 proteinsDNA underwindingGroup proteinsSite of cleavagePreferred substrateConformational changesDNA moleculesDNA cleavageProteinRelaxed substrateUnderwindingRecombinationCleavageSequenceSuch substratesHMG1Antigen receptor genes and the evolution of a recombinase
Schatz DG. Antigen receptor genes and the evolution of a recombinase. Seminars In Immunology 2004, 16: 245-256. PMID: 15522623, DOI: 10.1016/j.smim.2004.08.004.Peer-Reviewed Original ResearchConceptsAntigen receptor genesReceptor geneDNA repair factorsSite-specific recombination reactionRAG transposonVertebrate genomesJawed vertebratesEvolutionary implicationsRAG2 proteinsTransposable elementsRepair factorsGenesAdaptive immune systemHorizontal transmissionRAG1VertebratesGenomeImmune systemTransposonGermlineRecombinaseRAG2ProteinRecombination reactionRecombination
2003
Regulation of RAG1/RAG2‐mediated transposition by GTP and the C‐terminal region of RAG2
Tsai C, Schatz DG. Regulation of RAG1/RAG2‐mediated transposition by GTP and the C‐terminal region of RAG2. The EMBO Journal 2003, 22: 1922-1930. PMID: 12682024, PMCID: PMC154477, DOI: 10.1093/emboj/cdg185.Peer-Reviewed Original ResearchConceptsFull-length RAG2RAG2 proteinsRegulatory mechanismsC-terminal regionRAG proteinsHybrid joint formationDNA recognitionDNA transpositionCleavage functionChromosomal translocationsGTPUnknown mechanismRAG2ProteinTarget DNAPhysiological concentrationsRegulationJoint formationRAGRAG1MechanismTranslocationDNAGuanineTransposition
2002
RAG1-DNA Binding in V(D)J Recombination SPECIFICITY AND DNA-INDUCED CONFORMATIONAL CHANGES REVEALED BY FLUORESCENCE AND CD SPECTROSCOPY*
Ciubotaru M, Ptaszek LM, Baker GA, Baker SN, Bright FV, Schatz DG. RAG1-DNA Binding in V(D)J Recombination SPECIFICITY AND DNA-INDUCED CONFORMATIONAL CHANGES REVEALED BY FLUORESCENCE AND CD SPECTROSCOPY*. Journal Of Biological Chemistry 2002, 278: 5584-5596. PMID: 12488446, DOI: 10.1074/jbc.m209758200.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceBinding SitesCircular DichroismCloning, MolecularDNADNA NucleotidyltransferasesDNA-Binding ProteinsEscherichia coliGenes, RAG-1Homeodomain ProteinsKineticsMiceOligodeoxyribonucleotidesProtein ConformationRecombinant ProteinsRecombination, GeneticSubstrate SpecificityTransfectionTransposasesVDJ RecombinasesConceptsRecombination signal sequencesConformational changesSynaptic complex formationAbsence of DNAAssembly of immunoglobulinMajor conformational changesIntrinsic protein fluorophoresProtein intrinsic fluorescenceSolvent-exposed environmentRAG2 proteinsRAG1/2 complexSingle DNA moleculesRAG1 proteinSignal sequenceAcrylamide quenching studiesT-cell receptor genesStrep-tagRecombination specificityDNA moleculesProtein fluorophoresRAG1Receptor geneProteinIntrinsic fluorescenceCircular dichroism
2001
Identification of Basic Residues in RAG2 Critical for DNA Binding by the RAG1-RAG2 Complex
Fugmann S, Schatz D. Identification of Basic Residues in RAG2 Critical for DNA Binding by the RAG1-RAG2 Complex. Molecular Cell 2001, 8: 899-910. PMID: 11684024, DOI: 10.1016/s1097-2765(01)00352-5.Peer-Reviewed Original ResearchConceptsDNA bindingRAG2 proteinsCognate DNA target sequenceDNA target sequencesResidue mutantsMolecular roleBasic residuesDNA cleavageTarget sequenceRAG1Biochemical analysisRAG2BindingCentral roleProteinRecombinationResiduesDirect involvementEssential componentComplexesMutantsCleavage reactionIdentificationRoleSequence
2000
The RAG Proteins and V(D)J Recombination: Complexes, Ends, and Transposition
Fugmann S, Lee A, Shockett P, Villey I, Schatz D. The RAG Proteins and V(D)J Recombination: Complexes, Ends, and Transposition. Annual Review Of Immunology 2000, 18: 495-527. PMID: 10837067, DOI: 10.1146/annurev.immunol.18.1.495.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsIdentification of Two Catalytic Residues in RAG1 that Define a Single Active Site within the RAG1/RAG2 Protein Complex
Fugmann S, Villey I, Ptaszek L, Schatz D. Identification of Two Catalytic Residues in RAG1 that Define a Single Active Site within the RAG1/RAG2 Protein Complex. Molecular Cell 2000, 5: 97-107. PMID: 10678172, DOI: 10.1016/s1097-2765(00)80406-2.Peer-Reviewed Original ResearchConceptsActive siteDivalent metal ionsSingle active siteMetal ionsTransfer reactionsActive site regionProtein complexesBond breakageCatalysisCatalytic functionRegion of RAG1Strand transfer reactionSecondary structure prediction algorithmsAspartic acid residuesCatalytic residuesRAG2 proteinsComplexesStructure prediction algorithmsPossible structural similaritySite regionAcid residuesRetroviral integrasesRAG1Structural similarityIons
1999
Transposition mediated by RAG1 and RAG2 and the evolution of the adaptive immune system
Schatz D. Transposition mediated by RAG1 and RAG2 and the evolution of the adaptive immune system. Immunologic Research 1999, 19: 169-182. PMID: 10493171, DOI: 10.1007/bf02786485.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsTransposable elementsAncestral receptor geneAdaptive immune systemReceptor gene segmentsReceptor geneAntigen receptor genesRAG proteinsRAG2 proteinsChromosomal DNAFunctional transposaseMillion yearsGene segmentsRAG1Dramatic supportImmune systemGenesRecent findingsUnusual structureProteinVertebratesTransposaseRAG2DNAEvolutionRecombinationDetection of RAG Protein-V(D)J Recombination Signal Interactions Near the Site of DNA Cleavage by UV Cross-Linking
Eastman Q, Villey I, Schatz D. Detection of RAG Protein-V(D)J Recombination Signal Interactions Near the Site of DNA Cleavage by UV Cross-Linking. Molecular And Cellular Biology 1999, 19: 3788-3797. PMID: 10207102, PMCID: PMC84213, DOI: 10.1128/mcb.19.5.3788.Peer-Reviewed Original ResearchConceptsRecombination signal sequencesRAG proteinsRAG2 proteinsDNA cleavageHeptamer elementSite of cleavageActive site organizationRAG1-RAG2RAG1 proteinSignal sequenceDouble-strand cleavageSite-specific interactionsSame nucleotideRecognition surfaceProteinRAG1UV CrossSignal interactionsSite organizationCleavageSequenceComplexesSitesClose proximityNucleotides
1997
A Basic Motif in the N-Terminal Region of RAG1 Enhances V(D)J Recombination Activity
McMahan C, Difilippantonio M, Rao N, Spanopoulou E, Schatz D. A Basic Motif in the N-Terminal Region of RAG1 Enhances V(D)J Recombination Activity. Molecular And Cellular Biology 1997, 17: 4544-4552. PMID: 9234712, PMCID: PMC232308, DOI: 10.1128/mcb.17.8.4544.Peer-Reviewed Original ResearchConceptsBasic amino acid motifN-terminal regionSite-specific DNA recognitionRecombination activityCell-specific componentsComponent gene segmentsExtrachromosomal recombination substratesAmino acid motifsAmino acids 216Site-specific recombination reactionAntigen receptor genesEvolutionary conservationNuclear transportRAG2 proteinsRAG1 proteinRecombination functionsRecombination substratesDeletion analysisDNA recognitionEnzymatic machineryAcid motifFurther mutagenesisSRP-1N-terminusRAG1Definition of a large region of RAG1 that is important for coimmunoprecipitation of RAG2.
McMahan CJ, Sadofsky MJ, Schatz DG. Definition of a large region of RAG1 that is important for coimmunoprecipitation of RAG2. The Journal Of Immunology 1997, 158: 2202-10. PMID: 9036966, DOI: 10.4049/jimmunol.158.5.2202.Peer-Reviewed Original Research
1996
Neoteny in Lymphocytes: Rag1 and Rag2 Expression in Germinal Center B Cells
Han S, Zheng B, Schatz D, Spanopoulou E, Kelsoe G. Neoteny in Lymphocytes: Rag1 and Rag2 Expression in Germinal Center B Cells. Science 1996, 274: 2094-2097. PMID: 8953043, DOI: 10.1126/science.274.5295.2094.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsB-LymphocytesDNA NucleotidyltransferasesDNA-Binding ProteinsFemaleGene ExpressionGene RearrangementGenes, ImmunoglobulinGenes, RAG-1Germinal CenterHomeodomain ProteinsImmunizationImmunoglobulin Class SwitchingLymphocyte ActivationMiceMice, Inbred C57BLPolymerase Chain ReactionProtein BiosynthesisProteinsVDJ RecombinasesConceptsGerminal center B cellsAntigen receptor genesT cell antigen receptor genesRAG2 proteinsB cellsRAG2 geneRAG genesRAG2 expressionFunctional immunoglobulinPeyer's patch germinal centersMessenger RNAGenesRAG1Receptor geneActivated B cellsNormal adult animalsLymphocyte populationsImmature lymphocytesGerminal centersBone marrowMurine splenicAntibody repertoireCellsAdult animalsExpressionRAG1 Mediates Signal Sequence Recognition and Recruitment of RAG2 in V(D)J Recombination
Difilippantonio M, McMahan C, Eastman Q, Spanopoulou E, Schatz D. RAG1 Mediates Signal Sequence Recognition and Recruitment of RAG2 in V(D)J Recombination. Cell 1996, 87: 253-262. PMID: 8861909, DOI: 10.1016/s0092-8674(00)81343-4.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceCell LineDNA NucleotidyltransferasesDNA-Binding ProteinsGenes, ImmunoglobulinHomeodomain ProteinsHumansMacromolecular SubstancesMolecular Sequence DataNuclear ProteinsProtein BindingProteinsRecombinant ProteinsRecombination, GeneticSalmonellaSequence AlignmentStructure-Activity RelationshipTranscriptional ActivationTransfectionConceptsDNA bindingAbsence of RAG2Signal sequence recognitionRegion of RAG1RAG2 proteinsBacterial invertasesSequence similarityRecombination signalsSpecific binding interactionsRAG1Sequence recognitionDNA cleavageRAG2Binding interactionsProteinBindingRecombinationRecent studiesSignal recognitionInvertaseHeptamerRecruitmentCleavageLocalizationVivo