2014
The RAG Recombinase Dictates Functional Heterogeneity and Cellular Fitness in Natural Killer Cells
Karo JM, Schatz DG, Sun JC. The RAG Recombinase Dictates Functional Heterogeneity and Cellular Fitness in Natural Killer Cells. Cell 2014, 159: 94-107. PMID: 25259923, PMCID: PMC4371485, DOI: 10.1016/j.cell.2014.08.026.Peer-Reviewed Original ResearchConceptsRecombination-activating geneDNA damage response mediatorsInnate lymphoid cellsNatural killer cellsAntigen receptor genesCellular fitnessJawed vertebratesRAG recombinaseCellular stressInnate lymphocytesNovel functionDNA breaksKiller cellsEndonuclease activityUnexpected roleCleavage eventsAdaptive immune cellsReceptor geneReduced expressionGenesFunctional heterogeneityCellsImmune cellsResponse mediatorsFitness
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