Control of mucoidy in Pseudomonas aeruginosa: transcriptional regulation of algR and identification of the second regulatory gene, algQ.

A new alginate regulatory gene, algQ, was identified in a chromosomal region which, when tandemly amplified, induces mucoidy in Pseudomonas aeruginosa. The algQ gene was found closely linked to the previously identified algR gene. Both algQ and algR were required for transcription of the key alginate biosynthetic gene, algD. In addition, expression of the algR gene was studied. The algR promoter was mapped by S1 nuclease and reverse transcription and found to be activated in mucoid cells. However, even in nonmucoid cells, transcription of algR was detectable at an approximately 50-fold-lower level, as opposed to the algD promoter, which was silent in the nonmucoid background. Transcription of both promoters was studied by using algR- and algD-specific oligonucleotides and total cellular RNA from fresh cystic fibrosis isolates of mucoid P. aeruginosa and their nonmucoid revertants. Identical patterns of activity were found in all strains: in mucoid cells, both algR and algD were activated. This finding indicated that common mechanisms were involved in the regulation of alginate gene expression. However, when the algR gene was cloned behind the tac promoter on a broad-host-range-controlled expression vector, induction of transcription with isopropropyl-beta-D-thiogalactopyranoside (IPTG) caused the appearance of a nonmucoid phenotype in previously mucoid cells. This effect was transient, since removal of the inducer (IPTG) made cells mucoid again. Since the algR gene product is homologous to transcriptional regulators from a class of environmentally responsive systems (known to have a second, sensory component), the algQ gene could be a candidate for the sensory component of the alginate system.