Roles of CatR and cis,cis-muconate in activation of the catBC operon, which is involved in benzoate degradation in Pseudomonas putida

Abstract

In Pseudomonas putida, the catBC operon encodes enzymes involved in benzoate degradation. Previous studies have determined that these enzymes are induced when P. putida is grown in the presence of benzoate. Induction of the enzymes of the catBC operon requires an intermediate of benzoate degradation, cis,cis-muconate, and a regulatory protein, CatR. It has been determined that CatR binds to a 27-bp region of the catBC promoter in the presence or absence of inducer. We have called this the repression binding site. In this study, we used a gel shift assay to demonstrate that the inducer, cis,cis-muconate, increases the affinity of CatR for the catBC promoter region by 20-fold. Furthermore, in the absence of cis,cis-muconate, CatR forms two complexes in the gel shift assay. The inducer cis,cis-muconate confers specificity primarily for the formation of complex 2. DNase I footprinting showed that an additional 27 bp of the catBC promoter region is protected by CatR in the presence of cis,cis-muconate. We have named this second binding site the activation binding site. Methylation interference footprinting determined that in the presence or absence of inducer, five G nucleotides of the catBC promoter region were necessary for CatR interaction with the repression binding site, while a single G residue was important for CatR interaction with the activation binding site in the presence of cis,cis-muconate. Using polymerase chain reaction-generated constructs, we found that the binding of CatR to the repression binding site is independent of the activation binding site. However, binding of CatR to the activation binding site required an intact repression binding site.