Gene replacement with linear DNA fragments in wild-type Escherichia coli: enhancement by Chi sites.

During conjugation and transduction of Escherichia coli even numbers of recombinational exchanges are required for replacement of a gene on the circular chromosome. We studied gene replacement using a related method of gene transfer (transformation with 6.5-kb linear DNA fragments) as an experimental model for conjugation and transduction. Two properly situated Chi sites, 5' GCTGGTGG 3', stimulated gene replacement approximately 50-fold, more than the sum of the stimulation by the individual Chi sites. Gene replacement was dependent on RecA and RecB functions. Similar results were obtained with an alternative experimental model in which linear DNA fragments were generated from phage lambda by intracellular EcoRI restriction following infection. Dual Chi site-stimulation of these RecA-, RecB-dependent recombination events thus did not depend upon the mode of delivery of the linear DNA into the cells. A single DNA fragment with two Chi sites was sufficient for gene replacement. These results support a one Chi-one exchange hypothesis ("long chunk" gene replacement), stemming from studies with purified RecBCD enzyme, and argue against models in which Chi converts RecBCD enzyme to a state capable of promoting multiple exchanges on one DNA molecule. These results also provide a method for gene targeting in wild-type E. coli and suggest a method for gene targeting in other organisms.