Evidence for the murine IgH mu locus acting as a hot spot for intrachromosomal homologous recombination.

Homologous recombination accomplishes the exchange of genetic information between two similar or identical DNA duplexes. It can occur either by gene conversion, a process of unidirectional genetic exchange, or by reciprocal crossing over. Homologous recombination is well known for its role in generating genetic diversity in meiosis and, in mitosis, as a DNA repair mechanism. In the immune system, the evidence suggests a role for homologous recombination in Ig gene evolution and in the diversification of Ab function. Previously, we reported the occurrence of homologous recombination between repeated, donor and recipient alleles of the Ig H chain mu gene C (Cmu) region residing at the Ig mu locus in mouse hybridoma cells. In this study, we constructed mouse hybridoma cell lines bearing Cmu region heteroalleles to learn more about the intrachromosomal homologous recombination process. A high frequency of homologous recombination (gene conversion) was observed for markers spanning the entire recipient Cmu region, suggesting that recombination might initiate at random sites within the Cmu region. The Cmu region heteroalleles were equally proficient as either conversion donors or recipients. Remarkably, when the same Cmu heteroalleles were tested for recombination in ectopic genomic positions, the mean frequency of gene conversion was reduced by at least 65-fold. These results are consistent with the murine IgH mu locus behaving as a hot spot for intrachromosomal homologous recombination.