QscR Acts as an Intermediate in gacA-Dependent Regulation of PCA Biosynthesis in Pseudomonas sp. M-18

Abstract

The qscR gene, encoding a quorum sensing regulator, was cloned and the qscR-null mutant strain M-18Q derived from Pseudomonas sp. M-18 was constructed to study the effect of the qscR gene on biosynthesis of phenazine-1-carboxylic acid (PCA) and pyoluteorin (Plt) in strain M-18. Results showed that the PCA produced in the mutant increased four- to six-fold, while the synthesis of Plt was barely influenced in comparison with the wild type. The results were confirmed by complementation with the qscR gene in trans in strain M-18Q. The negative effect of the qscR gene on PCA production was further confirmed by analysis of beta-galactosidase activities from the translational phzA'-lacZ' fusion. Furthermore, by introducing a qscR-lacZ transcriptional fusion vector to strains M-18, M-18Q, and M-18G, a gacA inactivation mutant in strain M-18, respectively, it was found that beta-galactosidase activity in both strain M-18G and strain M-18Q was decreased to half that in the wild type. This suggested that QscR might be involved in autoinducing its own gene expression and act as an intermediate in GacA-dependent gene regulation as well. The result was further demonstrated by the overexpression of the gacA gene in strain M-18Q.