Structural alterations and conformational dynamics in Holliday junctions induced by binding of a site-specific recombinase.

Binding of a cleavage-incompetent mutant of the Flp recombinase induces a roughly square-planar geometry in synthetic immobile Holliday junctions. The branch points, which are rigidly fixed in these junctions in their free forms, tend to be more flexible in their protein-bound forms. Our results (1) suggest a plausible mechanism for the switching of the recombination complex from the Holliday-forming mode to the Holliday-resolving mode, (2) provide a rationale for previous observations that Flp resolves preformed immobile Holliday structures in the parental or in the recombinant mode in a relatively unbiased manner, and (3) accommodate two modes of DNA cleavage by Flp (transhorizontal or transdiagonal) in Holliday substrates.