Project description:The causal agent of several plant diseases

Project description:Acidovorax citrulli causes bacterial fruit blotch (BFB) disease in cucurbit crops including watermelon and melon. This bacterium can enter the viable but nonculturable (VBNC) state following exposure to copper sulfate. Moreover, copper-induced VBNC A. citrulli cells could be resuscitated by EDTA. In this study, isobaric tag for relative and absolute quantification (iTRAQ) was used to compare protein profiles of VBNC cells, resuscitated cells at different stages and log-phase cells of the A. citrulli model strain AAC00-1.

Project description:Paracidovorax citrulli Transcriptome or Gene expression

Project description:Acidovorax citrulli overview

Project description:Genome sequencing of Acidovorax citrulli

Project description:Paracidovorax citrulli Raw sequence reads

Project description:Paracidovorax citrulli Transcriptome or Gene expression

Project description:Causal agent of septoria speckled leaf blotch of barley

Project description:ClpA is a widely conserved protease in bacteria that plays a key role in virulence. To investigate its specific mechanism of action in the pathogenicity of Paracidovorax citrulli (formerly Acidovorax citrulli), we constructed a ClpA deletion mutant, ΔClpA. The ΔClpA mutant of P. citrulli displayed reduced virulence on melon seedlings, and reduced motility, swarming ability, and antioxidant capacity. On the other hand, the ClpA deletion of P. citrulli mutant reduced the resistance to elevated temperature and enhanced biofilm formation ability. Using qRT-PCR, we observed that ClpA negatively regulates the expression of the virulence-related genes virB, pilR, pilA, and fliM, while positively regulating hrpG, hrcQ, and trbC. Bacterial double hybrid and Glutathione-S-transferase pulldown (GST-pulldown) results showed that ClpA interacts directly with RepA, and negatively regulates the expression of RepA. After deletion of the RepA gene, the pathogenicity of P. citrulli was lost, biofilm formation ability was enhanced, and the expression of hrpG, pilR, and trbC was positively regulated. These results indicate that ClpA plays a key role in the regulation of several virulence traits of P. citrulli, paving the way for future studies to better elucidate the virulence mechanisms of this bacterial plant pathogen.

Project description:Phytophthora meadii, the causal agent of fruit rot disease in arecanut