Evolutionary genetics of the proline permease gene (putP) and the control region of the proline utilization operon in populations of Salmonella and Escherichia coli.

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J Bacteriol. 1992 November; 174(21): 6886-6895

research-article

Evolutionary genetics of the proline permease gene (putP) and the control region of the proline utilization operon in populations of Salmonella and Escherichia coli.

K Nelson and R K Selander

Institute of Molecular Evolutionary Genetics, Mueller Laboratory, Pennsylvania State University, University Park 16802.

ABSTRACT

Virtually complete sequences (1,467 bp) of the proline permeasegene (putP) and complete sequences (416 to 422 bp) of the controlregion of the proline utilization operon were determined for16 strains of Salmonella, representing all eight subspecies,and 13 strains of Escherichia coli recovered from natural populations.Strains of Salmonella and E. coli differed, on average, at 16.3%of putP nucleotide sites and 17.5% of control region sites;the average difference between strains was much larger for Salmonellastrains (4.6% of putP sites and 3.4% of control region sites)than for E. coli (2.4 and 0.9%, respectively). There was nodifference in the distribution of polymorphic amino acid positionsbetween the membrane-spanning and loop regions of the permeasemolecule, and rates of synonymous nucleotide substitution werevirtually the same for the two domains. Statistical analysisyielded evidence of three probable cases of intragenic recombination,including the acquisition of a large segment of putP by strainsof Salmonella subspecies VII from an unidentified source, theexchange of a 21-bp segment between two strains of E. coli,and the acquisition by one strain of E. coli of a cluster of14 unique polymorphic control region sites from an unknown donor.An evolutionary tree for the putP and control region sequenceswas generally concordant with a tree for the gapA gene and atree based on multilocus enzyme electrophoresis, thus providingevidence that for neither gene nor for enzyme genes in generalhas recombination occurred at rates sufficiently high or overregions sufficiently large to completely obscure phylogeneticrelationships dependent on mutational divergence. It is suggestedthat the recombination rate varies among genes in relation tofunctional type, being highest for genes encoding cell surfaceand other proteins for which there is an adaptive advantagein structural diversity.

J Bacteriol. 1992 November; 174(21): 6886-6895

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