Concerted strand exchange and formation of Holliday structures by E. coli RecA protein

Abstract

RecA protein makes stable joint molecules from fully duplex DNA and molecules that are partially single-stranded; the latter may be either duplex molecules with an internal gap in one strand or molecules with single-stranded ends. Stable joint molecules form only when the end of at least one strand is in a homologous region. When RecA protein pairs linear duplex molecules and tailed molecules that share the same sequence end to end, the joints, which are located away from the single-stranded tails in most instances, have the electron microscopic appearance associated with the Holliday structure resulting from the reciprocal exchange of strands. The reaction leading to reciprocal strand exchange involves the concerted displacement of a strand from the end of the duplex molecule. These observations support the view that RecA protein makes stable joint molecules only by transferring strands and not by the side-by-side pairing of duplex regions.