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Abstract
RAG-1 and RAG-2 initiate V(D)J recombination by introducing DNA breaks at recombination signal sequences flanking a pair of antigen receptor gene segments. Occasionally, the RAG proteins mediate two other alternative DNA rearrangements in vivo: the rejoining of signal and coding ends and the transposition of signal ends into unrelated DNA. In contrast, truncated, catalytically active "core" RAG proteins readily catalyze these reactions in vitro, suggesting that full-length RAG proteins directly or indirectly suppress these undesired reactions in vivo. To discriminate between direct and indirect suppression models, full-length RAG proteins were purified and characterized in vitro. From mammalian cells, full-length RAG-1 is readily purified with core RAG-2 but not full-length RAG-2 and vice versa. Despite differences in DNA binding activity, recombinase containing either core or full-length RAG-1 or RAG-2 possess comparable cleavage, rejoining, and end-processing activity, as well as similar usage preferences for canonical versus cryptic recombination signals. However, recombinase containing full-length RAG-2, but not full-length RAG-1, exhibits dramatically reduced transposition activity in vitro. These data suggest RAG-mediated transposition and rejoining are differentially regulated by the full-length RAG proteins in vivo (the former directly by RAG-2 and the latter indirectly through other factors) and argue that noncore portions of the RAG proteins have little or no direct influence over V(D)J recombinase site specificity.
Highlights
The variable exons of antigen receptor genes are assembled by the site-specific rearrangement of component variable (V),1 diversity (D), and joining (J) gene coding segments by V(D)J recombination
We were interested in determining whether full-length RAG-1 and RAG-2 are more amenable to purification when expressed as maltose-binding protein (MBP) fusion proteins
Based on our previous experience indicating that core MBP-RAG-1/2 proteins are recovered in higher yield and with greater activity when the two proteins are coexpressed, rather than individually expressed, in mammalian cells, and evidence suggesting that RAG-1 and RAG-2 form a complex in the absence of DNA [41,42,43,44], we speculated that coexpression of core MBP-RAG-1 with full-length MBP-RAG-2 might promote the solubility of full-length MBP-RAG-2 via RAG-1-RAG-2 interactions and vice versa
Summary
V, variable; D, diversity; J, joining; RSSs, recombination signal sequences; NHEJ, nonhomologous endjoining; OSJs, open-shut joints; HJ, hybrid joints; MBP, maltose-binding protein; PEI, polyethyleneimine; GFP, green fluorescent protein; EMSA, electrophoretic mobility shift assays; P, palindromic; SEC, signal end complexes. Consistent with this hypothesis, full-length RAGs support significantly less HJ formation than core RAGs in V(D)J recombination assays performed in NHEJ-deficient cells [26], and accumulate signal ends to 10fold lower levels than their core counterparts without affecting the level of coding ends produced [27]. Taken together, these results provide evidence that full-length RAG post-cleavage complexes are rapidly disassembled in vivo, thereby imposing a limited window of opportunity for HJ formation and transposition to occur [27]. These data suggest RAG-mediated transposition and rejoining are differentially regulated by the full-length RAG proteins in vivo (the former directly by RAG-2, the latter indirectly through other factors), and argue that non-core portions of the RAG proteins have little or no direct influence over V(D)J recombinase site specificity
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