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Yersinia pestis kills Caenorhabditis elegans by a biofilm-independent process that involves novel virulence factors.


ABSTRACT: It is known that Yersinia pestis kills Caenorhabditis elegans by a biofilm-dependent mechanism that is similar to the mechanism used by the pathogen to block food intake in the flea vector. Using Y. pestis KIM 5, which lacks the genes that are required for biofilm formation, we show that Y. pestis can kill C. elegans by a biofilm-independent mechanism that correlates with the accumulation of the pathogen in the intestine. We used this novel Y. pestis-C. elegans pathogenesis system to show that previously known and unknown virulence-related genes are required for full virulence in C. elegans. Six Y. pestis mutants with insertions in genes that are not related to virulence before were isolated using C. elegans. One of the six mutants carried an insertion in a novel virulence gene and showed significantly reduced virulence in a mouse model of Y. pestis pathogenesis. Our results indicate that the Y. pestis-C. elegans pathogenesis system that is described here can be used to identify and study previously uncharacterized Y. pestis gene products required for virulence in mammalian systems.

SUBMITTER: Styer KL 

PROVIDER: S-EPMC1369189 | biostudies-literature | 2005 Oct

REPOSITORIES: biostudies-literature

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Yersinia pestis kills Caenorhabditis elegans by a biofilm-independent process that involves novel virulence factors.

Styer Katie L KL   Hopkins Gregory W GW   Bartra Sara Schesser SS   Plano Gregory V GV   Frothingham Richard R   Aballay Alejandro A  

EMBO reports 20051001 10


It is known that Yersinia pestis kills Caenorhabditis elegans by a biofilm-dependent mechanism that is similar to the mechanism used by the pathogen to block food intake in the flea vector. Using Y. pestis KIM 5, which lacks the genes that are required for biofilm formation, we show that Y. pestis can kill C. elegans by a biofilm-independent mechanism that correlates with the accumulation of the pathogen in the intestine. We used this novel Y. pestis-C. elegans pathogenesis system to show that p  ...[more]

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