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Microbiology 152 (2006), 685-693; DOI  10.1099/mic.0.28503-0
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Microbiology 152 (2006), 685-693; DOI  10.1099/mic.0.28503-0
© 2006 Society for General Microbiology

Genetic and phenotypic characterization of Listeria monocytogenes lineage III

Angela Roberts, Kendra Nightingale, Greg Jeffers{dagger}, Esther Fortes, Jose Marcelino Kongo{ddagger} and Martin Wiedmann

Department of Food Science, 412 Stocking Hall, Cornell University, Ithaca, NY 14853, USA

Correspondence
Angela Roberts
ajr29{at}cornell.edu

Listeria monocytogenes has been previously grouped into three evolutionary groups, termed lineages I, II and III. While lineages I and II are commonly isolated from various sources, lineage III isolates are rare and have several atypical and unique phenotypic characteristics. Relative to their prevalence in other sources, lineage III strains are overrepresented among isolates from food-production animals, and underrepresented among isolates from human clinical cases and foods. This work describes an extensive genotypic and phenotypic characterization of 46 lineage III isolates. Phylogenetic analyses of partial sigB and actA sequences showed that lineage III represents three distinct subgroups, which were termed IIIA, IIIB and IIIC. Each of these lineage III subgroups is characterized by differentiating genotypic and phenotypic characteristics. Unlike typical L. monocytogenes, all subgroup IIIB and IIIC isolates lack the ability to ferment rhamnose. While all IIIC and most IIIB isolates carry the putative virulence gene lmaA, the majority of subgroup IIIA isolates lack this gene. All three lineage III subgroups contain isolates from human clinical cases as well as isolates that are cytopathogenic in a cell culture plaque assay, indicating that lineage III isolates have the potential to cause human disease. The identification of specific genotypic and phenotypic characteristics among the three lineage III subgroups suggests that these subgroups may occupy different ecological niches and, therefore, may be transmitted by different pathways.

{dagger}Present address: Gorton's, 128 Rogers St, Gloucester, MA 01930, USA.

{ddagger}Present address: Department of Biology, Centro de Investigação de Recursos Naturais, University of Azores, Portugal.




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