| Literature DB >> 15640799 |
Pär Larsson1, Petra C F Oyston, Patrick Chain, May C Chu, Melanie Duffield, Hans-Henrik Fuxelius, Emilio Garcia, Greger Hälltorp, Daniel Johansson, Karen E Isherwood, Peter D Karp, Eva Larsson, Ying Liu, Stephen Michell, Joann Prior, Richard Prior, Stephanie Malfatti, Anders Sjöstedt, Kerstin Svensson, Nick Thompson, Lisa Vergez, Jonathan K Wagg, Brendan W Wren, Luther E Lindler, Siv G E Andersson, Mats Forsman, Richard W Titball.
Abstract
Francisella tularensis is one of the most infectious human pathogens known. In the past, both the former Soviet Union and the US had programs to develop weapons containing the bacterium. We report the complete genome sequence of a highly virulent isolate of F. tularensis (1,892,819 bp). The sequence uncovers previously uncharacterized genes encoding type IV pili, a surface polysaccharide and iron-acquisition systems. Several virulence-associated genes were located in a putative pathogenicity island, which was duplicated in the genome. More than 10% of the putative coding sequences contained insertion-deletion or substitution mutations and seemed to be deteriorating. The genome is rich in IS elements, including IS630 Tc-1 mariner family transposons, which are not expected in a prokaryote. We used a computational method for predicting metabolic pathways and found an unexpectedly high proportion of disrupted pathways, explaining the fastidious nutritional requirements of the bacterium. The loss of biosynthetic pathways indicates that F. tularensis is an obligate host-dependent bacterium in its natural life cycle. Our results have implications for our understanding of how highly virulent human pathogens evolve and will expedite strategies to combat them.Entities:
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Year: 2005 PMID: 15640799 DOI: 10.1038/ng1499
Source DB: PubMed Journal: Nat Genet ISSN: 1061-4036 Impact factor: 38.330