Site-Specific Recombination Links the Evolution of P2-like Coliphages and Pathogenic Enterobacteria

doi:10.1093/molbev/msg223

MBE Advance Access originally published online on August 29, 2003

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Mol. Biol. Evol. 21(1):1-13. 2004
DOI: 10.1093/molbev/msg223
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Site-Specific Recombination Links the Evolution of P2-like Coliphages and Pathogenic Enterobacteria

Anders S. Nilsson, Joakim L. Karlsson and Elisabeth Haggård-Ljungquist

Department of Genetics, University of Stockholm, Stockholm, Sweden

E-mail: anders.nilsson{at}genetics.su.se.

The genome of the tailed temperate coliphage P2 (Myoviridae)contains some genes that probably are horizontally transferredadditions to the genome. One of these genes, the Z/fun gene,was recently found intact in the genome of Neisseria meningitidis.We have investigated the presence of P2-like phages, and thegenetic variation at the position corresponding to the phageP2 Z/fun locus, in the Escherichia coli reference collection(ECOR). P2-like phages are common in E. coli since they arepresent in about 30% of the ECOR strains. Hybridizations andPCR amplifications indicate that the overall variation amongthese phages is small. Amplification of the region correspondingto the phage P2 Z/fun locus in 11 prophages revealed that thisis a multivariable locus. Sequencing of the region resultedin 10 completely different sequences but with a similar highAT-content as the Z/fun gene. All sequences contained at leastone open reading frame with good transcription and translationsignals. All sequences were also surrounded by a highly similar,previously undiscovered, inverted repeat (IR). We also foundthis IR in genetically unstable regions in pathogenic enterobacteria.This demonstrates that P2-like phages are important factorsin the evolution of bacteria, not only because they carry adiversity of lysogenic conversion genes but also because theycan act as vectors for single genes. The genes found betweenthe IRs have unknown functions, and only a few clearly similargenes have been found in other bacteria.

Key Words: bacteriophage P2 • enterobacteria • site-specific recombination • lysogenic conversion • virulence factors

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