Featured Publications
Structural basis for the activation and suppression of transposition during evolution of the RAG recombinase
Zhang Y, Corbett E, Wu S, Schatz DG. Structural basis for the activation and suppression of transposition during evolution of the RAG recombinase. The EMBO Journal 2020, 39: embj2020105857. PMID: 32945578, PMCID: PMC7604617, DOI: 10.15252/embj.2020105857.Peer-Reviewed Original ResearchConceptsTarget site DNASite DNARAG1/RAG2 recombinaseSuppression of transpositionCryo-electron microscopyStrand transfer complexAntigen receptor genesDomesticated transposaseTarget DNARAG recombinaseEvolutionary adaptationPaste transpositionStructural basisTransposition activityMechanistic principlesFunctional assaysTransposon endDNAReceptor geneBase unstackingDomesticationTransposaseRecombinaseAdaptive immunityFinal stepInsights into RAG Evolution from the Identification of “Missing Link” Family A RAGL Transposons
Martin E, Le Targa L, Tsakou-Ngouafo L, Fan T, Lin C, Xiao J, Huang Z, Yuan S, Xu A, Su Y, Petrescu A, Pontarotti P, Schatz D. Insights into RAG Evolution from the Identification of “Missing Link” Family A RAGL Transposons. Molecular Biology And Evolution 2023, 40: msad232. PMID: 37850912, PMCID: PMC10629977, DOI: 10.1093/molbev/msad232.Peer-Reviewed Original ResearchConceptsJawed vertebratesTransposon familyRAG1-RAG2 recombinaseRecombination signal sequencesHemichordate Ptychodera flavaMolecular domesticationSignal sequenceP. flavaDNA bindingPtychodera flavaSequence featuresTransposition activityVertebratesTransposonCritical enzymeHinge regionGenomeDomesticationFlavaProteinPivotal stepAdaptive immunityCritical intermediateRAGRAGLTransposon molecular domestication and the evolution of the RAG recombinase
Zhang Y, Cheng TC, Huang G, Lu Q, Surleac MD, Mandell JD, Pontarotti P, Petrescu AJ, Xu A, Xiong Y, Schatz DG. Transposon molecular domestication and the evolution of the RAG recombinase. Nature 2019, 569: 79-84. PMID: 30971819, PMCID: PMC6494689, DOI: 10.1038/s41586-019-1093-7.Peer-Reviewed Original ResearchConceptsRAG1-RAG2 recombinaseMolecular domesticationRAG recombinaseCryo-electron microscopy structureTwo-tiered mechanismAmino acid residuesJawed vertebratesMicroscopy structureEvolutionary adaptationDNA substratesTransposition activityAcid residuesDomesticationDNA cleavageAcidic regionDiverse repertoireAdaptive immune systemRecombinaseTransposonCell receptorTransposasePivotal eventRecombinationCleavageVertebrates
2004
New concepts in the regulation of an ancient reaction: transposition by RAG1/RAG2
Chatterji M, Tsai C, Schatz DG. New concepts in the regulation of an ancient reaction: transposition by RAG1/RAG2. Immunological Reviews 2004, 200: 261-271. PMID: 15242411, DOI: 10.1111/j.0105-2896.2004.00167.x.Peer-Reviewed Original ResearchConceptsRAG proteinsRecombination-activating gene 1Transposition activityAntigen receptor lociDNA double-stand breaksRAG1/RAG2Lymphoid-specific factorsDouble-stand breaksEndonuclease activityGene 1Chromosomal translocationsVariety of mechanismsProteinSpecific sitesRAG2Ancient reactionRecombinationRecent studiesGenome