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Genome sequence of enterohaemorrhagic Escherichia coli O157:H7

Author

Listed:
  • Nicole T. Perna

    (Genome Center of Wisconsin,
    Department of Animal Health and Biomedical Sciences)

  • Guy Plunkett

    (Laboratory of Genetics)

  • Valerie Burland

    (Laboratory of Genetics)

  • Bob Mau

    (Laboratory of Genetics)

  • Jeremy D. Glasner

    (Laboratory of Genetics)

  • Debra J. Rose

    (Laboratory of Genetics)

  • George F. Mayhew

    (Laboratory of Genetics)

  • Peter S. Evans

    (Laboratory of Genetics)

  • Jason Gregor

    (Laboratory of Genetics)

  • Heather A. Kirkpatrick

    (Laboratory of Genetics)

  • György Pósfai

    (Institute of Biochemistry, Biological Research Center)

  • Jeremiah Hackett

    (Laboratory of Genetics)

  • Sara Klink

    (Laboratory of Genetics)

  • Adam Boutin

    (Laboratory of Genetics)

  • Ying Shao

    (Laboratory of Genetics)

  • Leslie Miller

    (Laboratory of Genetics)

  • Erik J. Grotbeck

    (Laboratory of Genetics)

  • N. Wayne Davis

    (Laboratory of Genetics)

  • Alex Lim

    (Department of Chemistry)

  • Eileen T. Dimalanta

    (Department of Chemistry)

  • Konstantinos D. Potamousis

    (Laboratory of Genetics
    Department of Chemistry)

  • Jennifer Apodaca

    (Laboratory of Genetics
    Department of Chemistry)

  • Thomas S. Anantharaman

    (Department of Biostatistics)

  • Jieyi Lin

    (Cereon Genomics, LLC)

  • Galex Yen

    (Genome Center of Wisconsin,)

  • David C. Schwartz

    (Genome Center of Wisconsin,
    Laboratory of Genetics
    Department of Chemistry)

  • Rodney A. Welch

    (University of Wisconsin)

  • Frederick R. Blattner

    (Genome Center of Wisconsin,
    Laboratory of Genetics)

Abstract

The bacterium Escherichia coli O157:H7 is a worldwide threat to public health and has been implicated in many outbreaks of haemorrhagic colitis, some of which included fatalities caused by haemolytic uraemic syndrome1,2. Close to 75,000 cases of O157:H7 infection are now estimated to occur annually in the United States3. The severity of disease, the lack of effective treatment and the potential for large-scale outbreaks from contaminated food supplies have propelled intensive research on the pathogenesis and detection of E. coli O157:H7 (ref. 4). Here we have sequenced the genome of E. coli O157:H7 to identify candidate genes responsible for pathogenesis, to develop better methods of strain detection and to advance our understanding of the evolution of E. coli, through comparison with the genome of the non-pathogenic laboratory strain E. coli K-12 (ref. 5). We find that lateral gene transfer is far more extensive than previously anticipated. In fact, 1,387 new genes encoded in strain-specific clusters of diverse sizes were found in O157:H7. These include candidate virulence factors, alternative metabolic capacities, several prophages and other new functions—all of which could be targets for surveillance.

Suggested Citation

  • Nicole T. Perna & Guy Plunkett & Valerie Burland & Bob Mau & Jeremy D. Glasner & Debra J. Rose & George F. Mayhew & Peter S. Evans & Jason Gregor & Heather A. Kirkpatrick & György Pósfai & Jeremiah Ha, 2001. "Genome sequence of enterohaemorrhagic Escherichia coli O157:H7," Nature, Nature, vol. 409(6819), pages 529-533, January.
  • Handle: RePEc:nat:nature:v:409:y:2001:i:6819:d:10.1038_35054089
    DOI: 10.1038/35054089
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    Cited by:

    1. Mónica V. Cunha & Teresa Albuquerque & Patrícia Themudo & Carlos Fonseca & Victor Bandeira & Luís M. Rosalino, 2020. "The Gut Microbiota of the Egyptian Mongoose as an Early Warning Indicator of Ecosystem Health in Portugal," IJERPH, MDPI, vol. 17(9), pages 1-17, April.
    2. Curtis Cottam & Rhys T. White & Lauren C. Beck & Christopher J. Stewart & Scott A. Beatson & Elisabeth C. Lowe & Rhys Grinter & James P. R. Connolly, 2024. "Metabolism of l-arabinose converges with virulence regulation to promote enteric pathogen fitness," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    3. Atri Ta & Rafael Ricci-Azevedo & Swathy O. Vasudevan & Skylar S. Wright & Puja Kumari & Morena S. Havira & Meera Surendran Nair & Vijay A. Rathinam & Sivapriya Kailasan Vanaja, 2023. "A bacterial autotransporter impairs innate immune responses by targeting the transcription factor TFE3," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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