V(D)J Recombination is the mechanism responsible for generating diversity in the repertoire of antigen receptors of T and B cells. This recombination process proceeds in two steps: site-specific cleavage mediated lymphocyte-specific recombinase known as Recombination Activating Genes 1 and 2 complex (RAG) at the junction of coding gene segments and their flanking recombination signal sequence (RSS) and then followed by rejoining of the double strand broken DNA by the non-homologous end joining (NHEJ) complex. Mutations and truncations of the RAG-recombinase have been found associated with genomic instability and chromosomal translocation. It has been hypothesized that these RAG mutants may have abnormality in their interactions with recombination intermediates, ultimately causing premature release of the ends for aberrant joining. Additionally, these mutations have an increase in targeting non-B type DNA instead of legitimate recombination substrates that contain RSSs. To directly test these hypotheses, we have developed a fluorescence-based detection system to monitor in real time the recombination cleavage reaction from the pre-cleavage to the post-cleavage stages and to compare RAG-DNA interactions between wild type and mutant RAG1/2 during this process. Our study provides important insight into the ability of the C-terminus of RAG to regulate RAG recombinase activity.
- Role of RAG2 C-terminal region in enforcing appropriate recombination cleavage directed at legitimate DNA targets
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Collections this item is in