V(D)J recombination: a functional definition of the joining signals.
Two conserved DNA sequences serve as joining signals in the assembly of immunoglobulins and T-cell receptors from V-, (D)-, and J-coding segments during lymphoid differentiation. We have examined V(D)J recombination as a function of joining signal sequence. Plasmid substrates with mutations in one or both of the heptamer-spacer-nonamer sequences were tested for recombination in a pre-B-cell line active in V(D)J recombination. No signal variant recombines more efficiently than the consensus forms of the joining signals. We find the heptamer sequence to be the most important; specifically, the three bases closest to the recombination crossover site are critical. The nonamer is not as rigidly defined, and it is not important to maintain the five consecutive As that distinguish the consensus nonamer sequence. Both types of signals display very similar sequence requirements and have in common an intolerance for changes in spacer length greater than 1 bp. Although the two signal types share sequence motifs, we find no evidence of a role in recombination for homology between the signals, suggesting that they serve primarily as protein recognition and binding sites.
Double-strand signal sequence breaks in V(D)J recombination are blunt, 5'-phosphorylated, RAG-dependent, and cell cycle regulated.
Immunoglobulin and T-cell receptor genes are assembled during lymphocyte development by a novel, highly regulated series of gene rearrangement reactions known as V(D)J recombination. All rearranging loci are flanked by conserved heptamer-nonamer recombination signal sequences. Gene rearrangement results in the imprecise fusion of coding sequences and the precise fusion of signal sequences. DNA molecules with double-stranded breaks near signal sequences have been detected in cells undergoing V(D)J recombination of the TCR delta locus. We have devised a ligation-mediated PCR assay that detects broken-ended molecules in purified genomic DNA. Using this assay we found that DNA breaks occurring precisely at the signal sequence-coding sequence junction are a general feature of V(D)J recombination, appearing in association with each type of rearranging immunoglobulin gene segment. We show that a significant fraction of these broken ends are blunt and 5'-phosphorylated. In addition, detection of these broken-ended signal sequences is dependent on the activity of RAG-1 and RAG-2, and is restricted to the G0/G1 phase of the cell cycle. The pattern of broken-ended molecules detected in cells at various stages of development reflects the activity of the V(D)J recombinase at different loci during B- and T-cell development.
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