Genes under positive selection in Escherichia coli

doi:10.1101/gr.6254707

. 2007 Sep;17(9):1336-43.

doi: 10.1101/gr.6254707. Epub 2007 Aug 3.

Genes under positive selection in Escherichia coli

Lise Petersen¹, Jonathan P Bollback, Matt Dimmic, Melissa Hubisz, Rasmus Nielsen

Affiliations

PMID: 17675366
PMCID: PMC1950902
DOI: 10.1101/gr.6254707

Genes under positive selection in Escherichia coli

Lise Petersen et al. Genome Res. 2007 Sep.

. 2007 Sep;17(9):1336-43.

doi: 10.1101/gr.6254707. Epub 2007 Aug 3.

Authors

Lise Petersen¹, Jonathan P Bollback, Matt Dimmic, Melissa Hubisz, Rasmus Nielsen

Affiliation

¹ Bioinformatics Centre, University of Copenhagen, Copenhagen DK-2200, Denmark. lpe@binf.ku.dk

PMID: 17675366
PMCID: PMC1950902
DOI: 10.1101/gr.6254707

Abstract

We used a comparative genomics approach to identify genes that are under positive selection in six strains of Escherichia coli and Shigella flexneri, including five strains that are human pathogens. We find that positive selection targets a wide range of different functions in the E. coli genome, including cell surface proteins such as beta barrel porins, presumably because of the involvement of these genes in evolutionary arms races with other bacteria, phages, and/or the host immune system. Structural mapping of positively selected sites on trans-membrane beta barrel porins reveals that the residues under positive selection occur almost exclusively in the extracellular region of the proteins that are enriched with sites known to be targets of phages, colicins, or the host immune system. More surprisingly, we also find a number of other categories of genes that show very strong evidence for positive selection, such as the enigmatic rhs elements and transposases. Based on structural evidence, we hypothesize that the selection acting on transposases is related to the genomic conflict between transposable elements and the host genome.

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Figures

**Figure 1.**
Three-dimensional structures of beta barrel porins FhuA, OmpF, OmpC, and LamB. Sites that show evidence of positive selection (P < 0.01) are depicted as orange spheres.

**Figure 2.**
Three-dimensional structure of outer membrane protein A (OmpA). Sites that show evidence of positive selection (P < 0.01) are depicted as orange spheres.

**Figure 3.**
Three-dimensional structure of PurR. Sites that show evidence of positive selection (P < 0.01) are depicted as orange spheres. DNA strand is shown as gray ball-and-stick.

See this image and copyright information in PMC

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References

1. Ajioka J., Hartl D.L., Hartl D.L. Population dynamics of transposable elements. In: Berg D., How M.M., How M.M., editors. Mobile DNA. American Society for Microbiology; Washington, DC: 1989. pp. 939–958.
1. Andersen C., Bachmeyer C., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Bachmeyer C., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Michel V., Newton S.M., Hofnung M., Charbit A., Newton S.M., Hofnung M., Charbit A., Hofnung M., Charbit A., Charbit A. In vivo and in vitro studies of major surface loop deletion mutants of the Escherichia coli K-12 maltoporin: Contribution to maltose and maltooligosaccharide transport and binding. Mol. Microbiol. 1999;32:851–867. - PubMed
1. Anisimova M., Nielsen R., Yang Z., Nielsen R., Yang Z., Yang Z. Effect of recombination on the accuracy of the likelihood method for detecting positive selection at amino acid sites. Genetics. 2003;164:1229–1236. - PMC - PubMed
1. Bos C., Lorenzen D., Braun V., Lorenzen D., Braun V., Braun V. Specific in vivo labeling of cell surface-exposed protein loops: Reactive cysteines in the predicted gating loop mark a ferrichrome binding site and a ligand-induced conformational change of the Escherichia coli FhuA protein. J. Bacteriol. 1998;180:605–613. - PMC - PubMed
1. Braun V., Patzer S.I., Hantke K., Patzer S.I., Hantke K., Hantke K. Ton-dependent colicins and microcins: Modular design and evolution. Biochimie. 2002;84:365–380. - PubMed

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[1] Ajioka J., Hartl D.L., Hartl D.L. Population dynamics of transposable elements. In: Berg D., How M.M., How M.M., editors. Mobile DNA. American Society for Microbiology; Washington, DC: 1989. pp. 939–958.

[2] Ajioka J., Hartl D.L., Hartl D.L. Population dynamics of transposable elements. In: Berg D., How M.M., How M.M., editors. Mobile DNA. American Society for Microbiology; Washington, DC: 1989. pp. 939–958.

[3] Andersen C., Bachmeyer C., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Bachmeyer C., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Michel V., Newton S.M., Hofnung M., Charbit A., Newton S.M., Hofnung M., Charbit A., Hofnung M., Charbit A., Charbit A. In vivo and in vitro studies of major surface loop deletion mutants of the Escherichia coli K-12 maltoporin: Contribution to maltose and maltooligosaccharide transport and binding. Mol. Microbiol. 1999;32:851–867. - PubMed

[4] Andersen C., Bachmeyer C., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Bachmeyer C., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Tauber H., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Benz R., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Wang J., Michel V., Newton S.M., Hofnung M., Charbit A., Michel V., Newton S.M., Hofnung M., Charbit A., Newton S.M., Hofnung M., Charbit A., Hofnung M., Charbit A., Charbit A. In vivo and in vitro studies of major surface loop deletion mutants of the Escherichia coli K-12 maltoporin: Contribution to maltose and maltooligosaccharide transport and binding. Mol. Microbiol. 1999;32:851–867. - PubMed

[5] Anisimova M., Nielsen R., Yang Z., Nielsen R., Yang Z., Yang Z. Effect of recombination on the accuracy of the likelihood method for detecting positive selection at amino acid sites. Genetics. 2003;164:1229–1236. - PMC - PubMed

[6] Anisimova M., Nielsen R., Yang Z., Nielsen R., Yang Z., Yang Z. Effect of recombination on the accuracy of the likelihood method for detecting positive selection at amino acid sites. Genetics. 2003;164:1229–1236. - PMC - PubMed

[7] Bos C., Lorenzen D., Braun V., Lorenzen D., Braun V., Braun V. Specific in vivo labeling of cell surface-exposed protein loops: Reactive cysteines in the predicted gating loop mark a ferrichrome binding site and a ligand-induced conformational change of the Escherichia coli FhuA protein. J. Bacteriol. 1998;180:605–613. - PMC - PubMed

[8] Bos C., Lorenzen D., Braun V., Lorenzen D., Braun V., Braun V. Specific in vivo labeling of cell surface-exposed protein loops: Reactive cysteines in the predicted gating loop mark a ferrichrome binding site and a ligand-induced conformational change of the Escherichia coli FhuA protein. J. Bacteriol. 1998;180:605–613. - PMC - PubMed

[9] Braun V., Patzer S.I., Hantke K., Patzer S.I., Hantke K., Hantke K. Ton-dependent colicins and microcins: Modular design and evolution. Biochimie. 2002;84:365–380. - PubMed

[10] Braun V., Patzer S.I., Hantke K., Patzer S.I., Hantke K., Hantke K. Ton-dependent colicins and microcins: Modular design and evolution. Biochimie. 2002;84:365–380. - PubMed

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Genes under positive selection in Escherichia coli

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Genes under positive selection in Escherichia coli

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