A putative porin gene of Burkholderia sp. NK8 involved in chemotaxis toward β-ketoadipate

Complete Genome Sequence of Caballeronia sp. Strain NK8 (MAFF311271), a Chlorobenzoate-Degrading Bacterium

Caballeronia sp. strain NK8 grows on 3-chlorobenzoate and shows chemotaxis toward 3-chlorobenzoate and its degradation products, such as chlorocatechols. Complete genome sequencing revealed a 9.2-Mb genome consisting of three chromosomes and four plasmids. The genes for degradation of 3-chlorobenzoate and chlorocatechols were located on plasmids pNK81 and pNK84, respectively.

Transcriptome differences between Cupriavidus necator NH9 grown with 3-chlorobenzoate and that grown with benzoate

RNA-seq analysis of Cupriavidus necator NH9, a 3-chlorobenzoate degradative bacterium, cultured with 3-chlorobenzaote and benzoate, revealed strong induction of genes encoding enzymes in degradation pathways of the respective compound, including the genes to convert 3-chlorobenzaote and benzoate to chlorocatechol and catechol, respectively, and the genes of chlorocatechol ortho-cleavage pathway for conversion to central metabolites. The genes encoding transporters, components of the stress response, flagellar proteins, and chemotaxis proteins showed altered expression patterns between 3-chlorobenzoate and benzoate. Gene Ontology enrichment analysis revealed that chemotaxis-related terms were significantly upregulated by benzoate compared with 3-chlorobenzoate. Consistent with this, in semisolid agar plate assays, NH9 cells showed stronger chemotaxis to benzoate than to 3-chlorobenzoate. These results, combined with the absence of genes related to uptake/chemotaxis for 3-chlorobenzoate located closely to the degradation genes of 3-chlorobenzoate, suggested that NH9 has not fully adapted to the utilization of chlorinated benzoate, unlike benzoate, in nature.