In this investigation, it has been demonstrated for the first tim

In this investigation, it has been demonstrated for the first time that Gp66, a member of this novel family, is a 2′, 3′ cyclic phosphodiesterase. The gene is expressed during phage infection and the net result is negative regulation of bacteriophage as well as bacterial growth. “
“Xanthomonas campestris pv. campestris (Xcc) is the causal agent of black rot disease in cruciferous plants. The synthesis of known virulence factors in this organism, such as extracellular enzymes and biofilm, is strictly regulated in

response to environmental stimuli. Two-component signal transduction systems sense environmental signals and alter bacterial behavior by regulating gene expression. Here, we identified a response regulator, VemR, that regulates Xcc pathogenesis. Selleckchem Ceritinib The vemR gene encodes an atypical response regulator that only contains a receiver domain. Deletion of vemR resulted in decreased selleck antibody inhibitor virulence, exopolysaccharide production and motility of Xcc. The vemR gene is located in an operon flanked by genes fleQ and rpoN2. Genetic analysis indicated that deletion of fleQ does not affect motility significantly. However, a double mutant ΔvemR/ΔfleQ reversed the phenotype of ΔvemR, indicating that fleQ is epistatic to vemR in the

regulation of virulence and adaptation. The phytopathogen Xanthomonas campestris pv. campestris (Xcc) is the causative agent of crucifer black rot disease, which causes severe losses in agricultural yields worldwide (Swings & Civerolo, 1993). Xcc generally invades Glutamate dehydrogenase and multiplies in cruciferous plant vascular tissues, resulting in the characteristic ‘black rot’ symptoms of blackened veins (Alvarez, 2000). The ability of Xcc to infect plants successfully depends on certain factors including extracellular enzymes, exopolysaccharides and biofilm production (Tang et al., 1991; Wilson et al., 1998; Slater et al., 2000; Dow et al., 2003; Ryan et al., 2006). Two-component signal transduction systems (TCSTSs) have been shown to respond to a wide range

of stimuli, triggering various physiological changes (Qian et al., 2008). Inactivation of some TCSTSs results in a significant reduction in bacterial virulence. For example, eight TCSTSs in Streptococcus pneumoniae are required for virulence in a mouse respiratory tract model (Throup et al., 2000). Similarly, three putative response regulators (RRs) of Listeria monocytogenes are required for virulence and growth in the host environment (Kallipolitis & Ingmer, 2001). Four TCSTSs, RpfC/RpfG (Tang et al., 1991), HrpG (Wengelnik et al., 1996), RavS/RavR (He et al., 2009) and XCC3107 (Qian et al., 2008), involved in Xcc virulence have been identified to date. RpfC and RpfG modulate the synthesis of extracellular enzymes, exopolysaccharides and biofilm (Tang et al., 1991; Slater et al., 2000; Dow et al., 2003). HrpG encodes a putative RR (Wengelnik et al.

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