J. Bacteriol., 07 1996, 3840-3845, Vol 178, No. 13
Copyright © 1996, American Society for Microbiology

Plasmid recombination by the RecBCD pathway of Escherichia coli

MM Zaman and TC Boles
Graduate Department of Biochemistry, Brandeis University, Waltham, Massachusetts 02254, USA.

Previously, we demonstrated that exonuclease I-deficient strains of Escherichia coli accumulate high-molecular-weight linear plasmid concatemers when transformed with plasmids carrying the chi sequence (5'- GCTGGTGG-3') (M. M. Zaman and T. C. Boles, J. Bacteriol. 176:5093- 5100, 1994). Since high-molecular weight linear DNA is believed to be the natural substrate for RecBCD-mediated recombination during conjugation (A. J. Clark and K. B. Low, p. 155-215, in K. B. Low, ed., The Recombination of Genetic Material, 1988), we analyzed the recombination frequencies of chi+ and chi0 plasmids in sbcB strains. Here, we report that chi sites stimulate plasmid recombination frequency by 16-fold in sbcB strains. Chi-stimulated plasmid recombination is dependent on RecBCD but is independent of RecF pathway genes. The distribution of recombination products suggests that high- molecular-weight linear plasmid DNA is a substrate for RecBCD-mediated recombination. Surprisingly, our data also suggest that chi+ plasmids also recombine by the RecBCD pathway in rec+ sbcB+ cells.

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