Mihai Ciubotaru scite author profile

The products of recombination activating genes (RAG) 1 and 2 mediate the assembly of antigen receptor genes during lymphocyte development in a process known as V(D)J recombination. Lack of structural information for the RAG proteins has hindered mechanistic studies of this reaction. We report here the crystal structure of an essential DNA-binding domain of the RAG1 catalytic core bound to its nonamer DNA recognition motif. The RAG1 nonamer-binding domain (NBD) forms a tightly interwoven dimer that binds and synapses two nonamer elements, with each NBD making contact with both DNA molecules. Biochemical and biophysical experiments confirm that the two nonamers are in close proximity in the RAG1/2-DNA synaptic complex and demonstrate the functional importance of the protein-DNA contacts revealed in the structure. These findings reveal a previously unsuspected function for the NBD in DNA synapsis and have implications for the regulation of DNA binding and cleavage by RAG1/2.

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RAG and HMGB1 create a large bend in the 23RSS in the V(D)J recombination synaptic complexes

Ciubotaru

Trexler

Spiridon

et al. 2013

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During V(D)J recombination, recombination activating gene proteins RAG1 and RAG2 generate DNA double strand breaks within a paired complex (PC) containing two complementary recombination signal sequences (RSSs), the 12RSS and 23RSS, which differ in the length of the spacer separating heptamer and nonamer elements. Despite the central role of the PC in V(D)J recombination, little is understood about its structure. Here, we use fluorescence resonance energy transfer to investigate the architecture of the 23RSS in the PC. Energy transfer was detected in 23RSS substrates in which the donor and acceptor fluorophores flanked the entire RSS, and was optimal under conditions that yield a cleavage-competent PC. The data are most easily explained by a dramatic bend in the 23RSS that reduces the distance between these flanking regions from >160 Å in the linear substrate to <80 Å in the PC. Analysis of multiple fluorescent substrates together with molecular dynamics modeling yielded a model in which the 23RSS adopts a U shape in the PC, with the spacer located centrally within the bend. We propose that this large bend facilitates simultaneous recognition of the heptamer and nonamer, is critical for proper positioning of the active site and contributes to the 12/23 rule.

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Mihai Ciubotaru

Structure of the RAG1 nonamer binding domain with DNA reveals a dimer that mediates DNA synapsis

RAG and HMGB1 create a large bend in the 23RSS in the V(D)J recombination synaptic complexes

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