Involement of supertwisted DNA in integrative recombination of bacteriophage lambda.

Negatively supertwisted closed circular DNA is the primary substrate for integrative recombination of phage λ DNA in vitro. Closed circular λ DNA without supertwists must be converted to the supertwisted form by the action of Escherichia coli DNA gyrase before efficient recombination can occur. When negatively supertwisted substrate is provided, E. coli DNA gyrase and its cofactors are dispensable components of recombination reaction mixtures. In the absence of DNA gyrase activity, circular DNA considerably less negatively twisted than naturally occurring supercoils is an effective substrate, but positively supertwisted DNA appears to be an ineffective substrate.The predominant products of integrative recombination in vitro are covalently closed circles. The closure of the recombined sites appears to occur without appreciable DNA synthesis and without the action of E. coli DNA ligase. No detectable difference can be observed between the degree of supertwisting of product DNA and that of unrecombined DNA. These facts suggest that the resealing of broken DNA strands is an integral part of the recombination reaction mechanism and is closely coupled with the breakage and realignment steps of recombination.