The genome sequence of the entomopathogenic bacterium Photorhabdus luminescens

Éric Duchaud; Christophe Rusniok; Lionel Frangeul; Carmen Buchrieser; Alain Givaudan; Séad Taourit; Stéphanie Bocs; Caroline Boursaux‐Eude; Michaël Chandler; Jean‐François Charles; Elie Dassa; Richard T. DeRose; Sylviane Derzelle; Georges Freyssinet; Sophie Gaudriault; Claudine Médigue; Anne Lanois; Kerrie Powell; Patricia Siguier; Rachel Vincent; Vincent P. M. Wingate; Mohamed Zouine; Philippe Glaser; Noël Boemare; Antoine Danchin; Frank Kunst

doi:10.1038/nbt886

The genome sequence of the entomopathogenic bacterium Photorhabdus luminescens

Éric Duchaud(Institut Pasteur), Christophe Rusniok(Institut Pasteur), Lionel Frangeul(Institut Pasteur), Carmen Buchrieser(Institut Pasteur), Alain Givaudan(Institut Agro Montpelier), Séad Taourit(Institut Pasteur), Stéphanie Bocs(Genoscope), Caroline Boursaux‐Eude(Genopole (France)), Michaël Chandler(Laboratoire de Microbiologie et Génétique Moléculaires), Jean‐François Charles(Institut Pasteur), Elie Dassa(Institut Pasteur), Richard T. DeRose(Bayer (France)), Sylviane Derzelle(Institut Pasteur), Georges Freyssinet(Bayer (France)), Sophie Gaudriault(Université de Montpellier), Claudine Médigue(Centre National de la Recherche Scientifique), Anne Lanois(Institut Agro Montpellier), Kerrie Powell(Bayer (Germany)), Patricia Siguier(Laboratoire de Microbiologie et Génétique Moléculaires), Rachel Vincent(Institut Agro Montpelier), Vincent P. M. Wingate(Bayer (Germany)), Mohamed Zouine(Institut Pasteur), Philippe Glaser(Institut Pasteur), Noël Boemare(Université de Montpellier), Antoine Danchin(Institut Pasteur), Frank Kunst(Institut Pasteur)

Nature Biotechnology

October 5, 2003

10.1038/nbt886

Cited by 598Open Access

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Abstract

Photorhabdus luminescens is a symbiont of nematodes and a broad-spectrum insect pathogen. The complete genome sequence of strain TT01 is 5,688,987 base pairs (bp) long and contains 4,839 predicted protein-coding genes. Strikingly, it encodes a large number of adhesins, toxins, hemolysins, proteases and lipases, and contains a wide array of antibiotic synthesizing genes. These proteins are likely to play a role in the elimination of competitors, host colonization, invasion and bioconversion of the insect cadaver, making P. luminescens a promising model for the study of symbiosis and host-pathogen interactions. Comparison with the genomes of related bacteria reveals the acquisition of virulence factors by extensive horizontal transfer and provides clues about the evolution of an insect pathogen. Moreover, newly identified insecticidal proteins may be effective alternatives for the control of insect pests.

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