Genome sequence of the ubiquitous hydrocarbon-degrading marine bacterium Alcanivorax borkumensis

Susanne Schneiker(Bielefeld University), Vítor A. P. Martins dos Santos(German Center for Infection Research), Daniela Bartels(Bielefeld University), Thomas Bekel(Bielefeld University), Martina Brecht(Bielefeld University), Jens Buhrmester(Bielefeld University), Tatyana N. Chernikova(Technische Universität Braunschweig), Renata Denaro(Institute for Coastal Marine Environment), Manuel Ferrer(German Center for Infection Research), Christoph Gertler(Technische Universität Braunschweig), Alexander Goesmann(Bielefeld University), Olga V. Golyshina(Technische Universität Braunschweig), Filip Kaminski(German Center for Infection Research), Amit N. Khachane(German Center for Infection Research), Siegmund Lang(Technische Universität Braunschweig), Burkhard Linke(Bielefeld University), Alice C. McHardy(Helmholtz-Zentrum Dresden-Rossendorf), Folker Meyer(Bielefeld University), Taras Y. Nechitaylo(German Center for Infection Research), Alfred Pühler(Bielefeld University), Daniela Regenhardt(IBM Research - Thomas J. Watson Research Center), Oliver Rupp(Bielefeld University), Julia Sabirova(German Center for Infection Research), Werner Selbitschka(Bielefeld University), Michail M. Yakimov(Institute for Coastal Marine Environment), Kenneth N. Timmis(German Center for Infection Research), Frank-Jörg Vorhölter(Bielefeld University), Stefan Weidner(Bielefeld University), Olaf Kaiser(Bielefeld University), Peter N. Golyshin(German Center for Infection Research)
Nature Biotechnology
July 30, 2006
10.1038/nbt1232
Cited by 480Open Access
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Abstract

Alcanivorax borkumensis is a cosmopolitan marine bacterium that uses oil hydrocarbons as its exclusive source of carbon and energy. Although barely detectable in unpolluted environments, A. borkumensis becomes the dominant microbe in oil-polluted waters. A. borkumensis SK2 has a streamlined genome with a paucity of mobile genetic elements and energy generation-related genes, but with a plethora of genes accounting for its wide hydrocarbon substrate range and efficient oil-degradation capabilities. The genome further specifies systems for scavenging of nutrients, particularly organic and inorganic nitrogen and oligo-elements, biofilm formation at the oil-water interface, biosurfactant production and niche-specific stress responses. The unique combination of these features provides A. borkumensis SK2 with a competitive edge in oil-polluted environments. This genome sequence provides the basis for the future design of strategies to mitigate the ecological damage caused by oil spills.

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