The active-site interactions involved in the catalysis of DNA site-specific recombination by the serine recombinases are still incompletely understood. Recent crystal structures of synaptic γδ resolvase–DNA intermediates and biochemical analysis of Tn3 resolvase mutants have provided new insights into the structure of the resolvase active site, and how interactions of the catalytic residues with the DNA substrate might promote the phosphoryl transfer reactions.

Keywords:
active-site chemistry, catalytic residue, phosphoryl transfer, serine recombinase, site-specific recombination, Tn3 resolvase
© The Authors Journal compilation © 2010 Biochemical Society
2010
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