Abstact

MutS2 recognizes branched DNA structures to regulate homologous recombination. MutS2 also has a role in ribosome recycling, where it resolves collided ribosomes. These functions require ATP-dependent conformational changes of MutS2. In the known nucleotide-free and ADP-bound MutS2 structures the dimeric clamp-like structure adopts open conformations. Here, we present the crystal structure of MutS2 with a bound ATP analog revealing a closed conformation of the clamp. Experiments with MutS2, where an unnatural photo-crosslinking capable amino acid was introduced into the clamp revealed that ATP-dependent closure also occurs in solution. Binding of MutS2 to a terminal-containing DNA was not affected by ATP, whereas that to a terminal-less DNA was reinforced. These findings suggest that clamp closure enables MutS2 to stay bound to recombination intermediates, which might regulate recombination. Furthermore, closure of the clamp provides insights into the mechanism of dissociation of collided ribosomes mediated by MutS2.