SummaryExpression of bacterial genes is often regulated by complex mechanisms, some of which involve host cues. Analysis of the Xanthomonas campestris pv. campestris (Xcc) genome sequence revealed the presence of an xccR/pip locus. The upstream gene xccR is a luxR homologue, while pip codes for a proline iminopeptidase. A lux box-like element, named luxXc box, locates in the pip promoter region. In this work, we show that disruption of either xccR or pip resulted in significantly attenuated virulence of Xcc. Under medium culture conditions, the pip expression was significantly enhanced by overexpression of XccR and the luxXc box is necessary for this enhancement. We further show that expression of a pip promoter-gusA fusion either inserted in the bacterial chromosome or resided in a plasmid was markedly induced when the bacteria grew in planta. Disruption of either xccR or the luxXc box abolished the in planta induction, while disruption of pip enhanced the induction. Taken together, these data demonstrate that pip is indispensable for Xcc virulence and suggest a model for Xcc-host interaction in which the pathogen senses some host factor(s) to activate XccR that subsequently interacts with the luxXc box to induce the expression of pip for facilitating Xcc infection.
Borrelia burgdorferi, the causative agent of Lyme disease, is transmitted to humans by bite of Ixodes scapularis ticks. The mechanisms by which the bacterium is transmitted from vector to host are poorly understood. In this study, we show that the F(ab)2 fragments of BBE31, a B.burgdorferi outer-surface lipoprotein, interfere with the migration of the spirochete from tick gut into the hemolymph during tick feeding. The decreased hemolymph infection results in lower salivary glands infection, and consequently attenuates mouse infection by tick-transmitted B. burgdorferi. Using a yeast surface display approach, a tick gut protein named TRE31 was identified to interact with BBE31. Silencing tre31 also decreased the B. burgdorferi burden in the tick hemolymph. Delineating the specific spirochete and arthropod ligands required for B. burgdorferi movement in the tick may lead to new strategies to interrupt the life cycle of the Lyme disease agent.
The protein spots identified were found to be involved in glycolysis, the tricarboxylic acid cycle, and the biosynthesis of ethylene. Several of the identified proteins may play important roles in banana ripening.
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