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Optical mapping and 454 sequencing of Escherichia coli O157 : H7 isolates linked to the US 2006 spinach-associated outbreak

Division of Molecular Biology, Office of Applied Research and Safety Assessment, Center for Food Safety and Applied Nutrition, US Food and Drug Administration, Laurel, MD 20708, USA

Correspondence
Thomas A. Cebula
thomas.cebula{at}FDA.HHS.gov

Optical maps for five representative clinical, food-borne and bovine-derived isolates from the 2006 Escherichia coli O157 : H7 outbreak linked to fresh spinach in the United States showed a common set of 14 distinct chromosomal markers that define the outbreak strain. Partial 454 DNA sequencing was used to characterize the optically mapped chromosomal markers. The markers included insertions, deletions, substitutions and a simple single nucleotide polymorphism creating a BamHI site. The Shiga toxin gene profile of the spinach-associated outbreak isolates (stx1^– stx2⁺ stx2c⁺) correlated with prophage insertions different from those in the prototypical EDL933 and Sakai reference strains (stx1⁺ stx2⁺ stx2c^–). The prophage occupying the yehV chromosomal position in the spinach-associated outbreak isolates was similar to the stx1⁺ EDL933 cryptic prophage V, but it lacked the stx1 gene. In EDL933, the stx2 genes are within prophage BP933-W at the wrbA chromosomal locus; this locus was unoccupied in the spinach outbreak isolates. Instead, the stx2 genes were found within a chimeric BP933-W-like prophage with a different integrase, inserted at the argW locus in the outbreak isolates. An extra set of Shiga toxin genes, stx2c, was found in the outbreak isolates within a prophage integrated at the sbcB locus. The optical maps of two additional clinical isolates from the outbreak showed a single, different prophage variation in each, suggesting that changes occurred in the source strain during the course of this widespread, multi-state outbreak.

Four supplementary figures are available with the online version of this paper.