2017
New insights into the evolutionary origins of the recombination‐activating gene proteins and V(D)J recombination
Carmona LM, Schatz DG. New insights into the evolutionary origins of the recombination‐activating gene proteins and V(D)J recombination. The FEBS Journal 2017, 284: 1590-1605. PMID: 27973733, PMCID: PMC5459667, DOI: 10.1111/febs.13990.Peer-Reviewed Original ResearchConceptsTransposable elementsEvolutionary originRAG proteinsAbsence of RAG2Independent evolutionary originsBasal chordate amphioxusRecombination-activating gene (RAG) proteinsFamily of transposasesAntigen receptor genesRAG transposonChordate amphioxusJawed vertebratesSequence similarityEvolutionary relativesProteins RAG1RAG genesGene proteinRAG1Gene segmentsDiverse arrayMechanistic linkProteinRAG2Adaptive immune systemDNA cleavage reaction
2015
Mapping and Quantitation of the Interaction between the Recombination Activating Gene Proteins RAG1 and RAG2* ♦
Zhang YH, Shetty K, Surleac MD, Petrescu AJ, Schatz DG. Mapping and Quantitation of the Interaction between the Recombination Activating Gene Proteins RAG1 and RAG2* ♦. Journal Of Biological Chemistry 2015, 290: 11802-11817. PMID: 25745109, PMCID: PMC4424321, DOI: 10.1074/jbc.m115.638627.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsCatalytic DomainDNA-Binding ProteinsGene Expression RegulationGenome, HumanHEK293 CellsHomeodomain ProteinsHumansInterferometryMaleMiceMice, Inbred C57BLMolecular Sequence DataMutationNuclear ProteinsProtein BindingProtein Interaction MappingProtein Structure, SecondaryThymus GlandV(D)J RecombinationVDJ RecombinasesConceptsRegion of RAG1Α-helixZinc finger regionResidues N-terminalActive siteAcidic amino acidsPulldown assaysAccessory factorsHermes transposaseProteins RAG1Finger regionRAG activityQuantitative Western blottingC-terminusRAG endonucleaseN-terminalCatalytic functionRAG1Amino acidsDNA cleavageRAG2Nuclear concentrationRecombination activityCatalytic centerBiolayer interferometry
1999
A dimer of the lymphoid protein RAG1 recognizes the recombination signal sequence and the complex stably incorporates the high mobility group protein HMG2
Rodgers K, Villey I, Ptaszek L, Corbett E, Schatz D, Coleman J. A dimer of the lymphoid protein RAG1 recognizes the recombination signal sequence and the complex stably incorporates the high mobility group protein HMG2. Nucleic Acids Research 1999, 27: 2938-2946. PMID: 10390537, PMCID: PMC148510, DOI: 10.1093/nar/27.14.2938.Peer-Reviewed Original ResearchConceptsRecombination signal sequencesSignal sequenceCore RAG1RAG1/RAG2 complexAbsence of RAG2Lymphoid-specific proteinsElectrophoretic mobility shift assaysSingle recombination signal sequencesMobility shift assaysRAG1 proteinProteins RAG1DNA sequencesMinimal speciesShift assaysOligomeric complexesHeptamer sequenceCompetition assaysRAG1Escherichia coliOligomeric formsRAG2Cleavage activityHMG2ProteinJ region
1997
RAG1 and RAG2 Form a Stable Postcleavage Synaptic Complex with DNA Containing Signal Ends in V(D)J Recombination
Agrawal A, Schatz D. RAG1 and RAG2 Form a Stable Postcleavage Synaptic Complex with DNA Containing Signal Ends in V(D)J Recombination. Cell 1997, 89: 43-53. PMID: 9094713, DOI: 10.1016/s0092-8674(00)80181-6.Peer-Reviewed Original ResearchConceptsSignal endsRecombination signalsDNA-dependent protein kinaseProtein-DNA complexesSynaptic complexHMG-2 proteinStable complexesDNA adjacentProtein kinaseProteins RAG1Immunoprecipitation experimentsMobility shiftNuclease sensitivityHMG-1Cleavage systemRAG1RAG2RecombinationComplexesVivo observationsKinaseProteinImportant stepCleavage