M.S Kim scite author profile

Summary To initiate V(D)J recombination for generating the adaptive immune response of vertebrates, RAG1/2 recombinase cleaves DNA at a pair of recombination signal sequences, the 12- and 23-RSS. We have determined crystal and cryoEM structures of RAG1/2 with DNA in the pre-reaction and hairpin-forming complexes up to 2.75Å resolution. Both protein and DNA exhibit structural plasticity and undergo dramatic conformational changes. Coding-flank DNAs rotate, shift and deform extensively for nicking and hairpin formation. Two intertwined RAG1 subunits crisscross four times between the asymmetric pair of severely bent 12/23-RSS DNAs. Location-sensitive bending of 60° and 150° in 12- and 23-RSS spacers, respectively, must occur for RAG1/2 to capture the nonamers and pair the heptamers for symmetric double-strand breakage. DNA pairing is thus sequence-context dependent and structure specific, which partly explains the “beyond 12/23” restriction. Finally, catalysis in crystallo reveals the process of DNA hairpin formation and its stabilization by interleaved base stacking.

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Temperature and orientation dependence of the deformation and fracture in Ni75Al20Ti5 single crystals

Kim

Hanada

Watanabe

et al. 1989

Acta Metallurgica

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M.S Kim

Cracking the DNA Code for V(D)J Recombination

Temperature and orientation dependence of the deformation and fracture in Ni75Al20Ti5 single crystals

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