Path of DNA within the Mu transpososome. Transposase interactions bridging two Mu ends and the enhancer trap five DNA supercoils

Abstract

The phage Mu transpososome is assembled by interactions of transposase subunits with the left (L) and right (R) ends of Mu and an enhancer (E) located in between. A metastable three-site complex LER progresses into a more stable type 0 complex in which a tetrameric transposase is poised for DNA cleavage. "Difference topology" has revealed five trapped negative supercoils within type 0, three contributed by crossings of E with L and R, and two by crossings of L with R. This is the most complex DNA arrangement seen to date within a recombination synapse. Contrary to the prevailing notion, the enhancer appears not to be released immediately following type 0 assembly. Difference topology provides a simple method for determining the ordered sequestration of DNA segments within nucleoprotein assemblies.