Molecular Evolution of the Escherichia coli Chromosome. VI. Two Regions of High Effective Recombination

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Molecular Evolution of the Escherichia coli Chromosome. VI. Two Regions of High Effective Recombination

Roger Milkman^a, Erich Jaeger^a, and Ryan D. McBride^a
^a Department of Biological Sciences, The University of Iowa, Iowa City, Iowa 52242-1324

Corresponding author: Roger Milkman, Falmouth, MA 02540-1626., rmilkman{at}mbl.edu (E-mail)

Communicating editor: S. YOKOYAMA

Two 6- to 8-min regions, centered respectively near 45 min (O-antigenregion) and 99 min (restriction-modification region) on theEscherichia coli chromosome, display unusually high variabilityamong 11 otherwise very similar strains. This variation, revealedby restriction fragment length polymorphism (RFLP) and nucleotidesequence comparisons, appears to be due to a great local increasein the retention frequency of recombinant replacements. We infera two-step mechanism. The first step is the acquisition of asmall stretch of DNA from a phylogenetically distant source.The second is the successful retransmission of the importedDNA, together with flanking native DNA, to other strains ofE. coli. Each cell containing the newly transferred DNA hasa very high selective advantage until it reaches a high frequencyand (in the O-antigen case) is recognized by the new host'simmune system. A high selective advantage increases the probabilityof retention greatly; the effective recombination rate is theproduct of the basic recombination rate and the probabilityof retention. Nearby nucleotide sequences clockwise from theO-antigen (rfb) region are correlated with specific O antigens,confirming local hitchhiking. Comparable selection involvingimported restriction endonuclease genes is proposed for theregion near 99 min.

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