Exploring the multifaceted role of pehR in Ralstonia solanacearum pathogenesis: enzyme activity, motility, and biofilm formation

PehR is a transcriptional regulator among the various response regulators found in Ralstonia solanacearum, a bacterium that causes lethal wilt disease in over 450 plant species worldwide, including economically important crops such as tomato, chilli, and brinjal. PehR regulates the production of polygalacturonase, an extracellular enzyme that degrades plant cell walls, playing a significant role in bacterial wilt. Despite its significance, the precise function and regulatory mechanism of PehR in R. solanacearum are yet to be thoroughly investigated. The goal of this research is to better understand the role of PehR in R. solanacearum pathogenicity by identifying the genes and pathways that it regulates. By disrupting the pehR gene, we created the ΔpehR mutant of R. solanacearum F1C1, a strain isolated from Tezpur, Assam, India. Transcriptomic analysis revealed 667 differentially expressed genes (DEGs) in the ΔpehR mutant, with 320 upregulated and 347 downregulated compared to the wild-type F1C1 strain. GO and KEGG analyses indicated the downregulation of genes related to flagellum-dependent cell motility, membrane function, and amino acid degradation pathways in the ΔpehR mutant. EPS estimation, biochemical assays for biofilm production, motility, and enzymatic assays for cellulase and pectinase production were all used in the further characterization process. The ΔpehR mutant showed lower virulence in tomato seedlings compared to the wild-type F1C1 strain. The findings suggest that PehR could be a promising target for bacterial wilt disease control, as well as provide critical information for ensuring crop production safety around the world.