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Massive gene decay in the leprosy bacillus

Author

Listed:
  • S. T. Cole

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • K. Eiglmeier

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • J. Parkhill

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. D. James

    (Sanger Centre, Wellcome Trust Genome Campus)

  • N. R. Thomson

    (Sanger Centre, Wellcome Trust Genome Campus)

  • P. R. Wheeler

    (Veterinary Laboratories Agency, Weybridge, Surrey)

  • N. Honoré

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • T. Garnier

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • C. Churcher

    (Sanger Centre, Wellcome Trust Genome Campus)

  • D. Harris

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Mungall

    (Sanger Centre, Wellcome Trust Genome Campus)

  • D. Basham

    (Sanger Centre, Wellcome Trust Genome Campus)

  • D. Brown

    (Sanger Centre, Wellcome Trust Genome Campus)

  • T. Chillingworth

    (Sanger Centre, Wellcome Trust Genome Campus)

  • R. Connor

    (Sanger Centre, Wellcome Trust Genome Campus)

  • R. M. Davies

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Devlin

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Duthoy

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • T. Feltwell

    (Sanger Centre, Wellcome Trust Genome Campus)

  • A. Fraser

    (Sanger Centre, Wellcome Trust Genome Campus)

  • N. Hamlin

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Holroyd

    (Sanger Centre, Wellcome Trust Genome Campus)

  • T. Hornsby

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Jagels

    (Sanger Centre, Wellcome Trust Genome Campus)

  • C. Lacroix

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • J. Maclean

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Moule

    (Sanger Centre, Wellcome Trust Genome Campus)

  • L. Murphy

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Oliver

    (Sanger Centre, Wellcome Trust Genome Campus)

  • M. A. Quail

    (Sanger Centre, Wellcome Trust Genome Campus)

  • M.-A. Rajandream

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. M. Rutherford

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Rutter

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Seeger

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Simon

    (Unité de Génétique Moléculaire Bactérienne, Institut Pasteur)

  • M. Simmonds

    (Sanger Centre, Wellcome Trust Genome Campus)

  • J. Skelton

    (Sanger Centre, Wellcome Trust Genome Campus)

  • R. Squares

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Squares

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Stevens

    (Sanger Centre, Wellcome Trust Genome Campus)

  • K. Taylor

    (Sanger Centre, Wellcome Trust Genome Campus)

  • S. Whitehead

    (Sanger Centre, Wellcome Trust Genome Campus)

  • J. R. Woodward

    (Sanger Centre, Wellcome Trust Genome Campus)

  • B. G. Barrell

    (Sanger Centre, Wellcome Trust Genome Campus)

Abstract

Leprosy, a chronic human neurological disease, results from infection with the obligate intracellular pathogen Mycobacterium leprae, a close relative of the tubercle bacillus. Mycobacterium leprae has the longest doubling time of all known bacteria and has thwarted every effort at culture in the laboratory. Comparing the 3.27-megabase (Mb) genome sequence of an armadillo-derived Indian isolate of the leprosy bacillus with that of Mycobacterium tuberculosis (4.41 Mb) provides clear explanations for these properties and reveals an extreme case of reductive evolution. Less than half of the genome contains functional genes but pseudogenes, with intact counterparts in M. tuberculosis, abound. Genome downsizing and the current mosaic arrangement appear to have resulted from extensive recombination events between dispersed repetitive sequences. Gene deletion and decay have eliminated many important metabolic activities including siderophore production, part of the oxidative and most of the microaerophilic and anaerobic respiratory chains, and numerous catabolic systems and their regulatory circuits.

Suggested Citation

  • S. T. Cole & K. Eiglmeier & J. Parkhill & K. D. James & N. R. Thomson & P. R. Wheeler & N. Honoré & T. Garnier & C. Churcher & D. Harris & K. Mungall & D. Basham & D. Brown & T. Chillingworth & R. Con, 2001. "Massive gene decay in the leprosy bacillus," Nature, Nature, vol. 409(6823), pages 1007-1011, February.
    • Handle: RePEc:nat:nature:v:409:y:2001:i:6823:d:10.1038_35059006
    DOI: 10.1038/35059006
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