A two-component regulatory system modulates twitching motility in Dichelobacter nodosus
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Lovitt, Carrie
Han, Xiaoyan
Parker, Dane
Turnbull, Lynne
Whitchurch, Cynthia B.
Rood, Julian I.
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Abstract
Dichelobacter nodosus is the essential causative agent of footrot in sheep and type IV fimbriae-mediated twitching motility has been shown to be essential for virulence. We have identified a two-component signal transduction system (TwmSR) that shows similarity to chemosensory systems from other bacteria. Insertional inactivation of the gene encoding the response regulator, TwmR, led to a twitching motility defect, with the mutant having a reduced rate of twitching motility when compared to the wild-type and a mutant complemented with the wild-type twmR gene. The reduced rate of twitching motility was not a consequence of a reduced growth rate or decreased production of surface located fimbriae, but video microscopy indicated that it appeared to result from an overall loss of twitching directionality. These results suggest that a chemotactic response to environmental factors may play an important role in the D. nodosus-mediated disease process.
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Veterinary Microbiology
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179
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1-Feb
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Microbiology not elsewhere classified
Microbiology
Veterinary Sciences