2016
Discovery of an Active RAG Transposon Illuminates the Origins of V(D)J Recombination
Huang S, Tao X, Yuan S, Zhang Y, Li P, Beilinson HA, Zhang Y, Yu W, Pontarotti P, Escriva H, Le Petillon Y, Liu X, Chen S, Schatz DG, Xu A. Discovery of an Active RAG Transposon Illuminates the Origins of V(D)J Recombination. Cell 2016, 166: 102-114. PMID: 27293192, PMCID: PMC5017859, DOI: 10.1016/j.cell.2016.05.032.Peer-Reviewed Original ResearchConceptsRAG transposonAntigen receptor gene assemblyBasal extant chordateDNA transposon familiesVertebrate adaptive immunityRecombination signal sequencesExtant chordatesTarget site duplicationsTransposable elementsDNA recombinationSignal sequenceTransposon excisionGene assemblyProtoRAGTransposon familySite duplicationsCrucial eventTransposonRecombinationAdaptive immunityChordatesTIRLanceletsRAG1/2Germline
2006
Mobilization of RAG-Generated Signal Ends by Transposition and Insertion In Vivo
Chatterji M, Tsai CL, Schatz DG. Mobilization of RAG-Generated Signal Ends by Transposition and Insertion In Vivo. Molecular And Cellular Biology 2006, 26: 1558-1568. PMID: 16449665, PMCID: PMC1367191, DOI: 10.1128/mcb.26.4.1558-1568.2006.Peer-Reviewed Original ResearchConceptsRAG proteinsVertebrate cellsTransposition eventsEnd fragmentsFull-length RAG2Embryonic kidney cell lineHuman embryonic kidney cell lineTarget site duplicationsGenome instabilityHuman genomeSignal endsKidney cell lineGenomic instabilityTranslocation eventsSite duplicationsChromosomal translocationsDNA cleavageComplex rearrangementsChromosome deletionsEssential roleProteinCell linesEpisomesDeletionAssays