aeruginosa PAOU than in PAO1 during stationary phase (from 16 h of growth, a typical growth curve is shown on Figure 2B). To ascertain that the results were not biased by the reporter https://www.selleckchem.com/products/azd5582.html gene and/or vector, we
assayed rhlG mRNA levels by quantitative click here reverse transcription-PCR (qRT-PCR) in plasmid-free PAOU and PAO1 strains at 20 h of growth. The rhlG mRNAs were 3-fold less abundant in PAOU than in the wildtype strain PAO1 (Additional file 1: Figure S1, Expression levels of rhlG gene). These results confirmed the involvement of AlgU in rhlG transcription, in agreement with the sequence of the novel promoter identified by our 5′-RACE PCR experiment. Figure 2 Transcriptional activity of prrhlG . Promoter activity was followed by measuring the luminescence from P. aeruginosa PAO1 wildtype (squares) and mutant strains, harbouring pAB134, which contains the prrhlG::luxCDABE transcriptional fusion.
Activity was compared between the wildtype PAO1 strain and PAOU (algU mutant, triangles) (A); PAO1 and PAO6358 (rpoN mutant, diamonds) (B), and PAO1 and PDO100 (rhlI mutant) strain complemented with C4-HSL (open circles) or not (blacks circles) (C). Activity is expressed in Relative Units of Luminescence per 0.5 second find more in function of time growth. Gain for luminescence detection was automatically set for each experiment. Results are representative of 2 complete experiments and of several additional experiments with fewer time points, standard deviations were < 6% for all values. Curve without symbol in panel B: growth curve of PAO1. We did not identify
the transcription start site at position −65 (Figure 1) resulting from a σ54-dependent promoter [4]. To rule out the involvement of σ54 in our strain and conditions, we used the prrhlG::luxCDABE fusion in P. aeruginosa PAO6358, which was constructed from PAO1 by deleting a large part of the rpoN gene encoding σ54 [24]. The luminescence was 1.7 to 7 fold lower in P. aeruginosa PAO6358 than in PAO1 from 8 to 30 h of growth (Figure 2B), indicating that σ54 plays indeed an important role in rhlG transcription. This was furthermore confirmed by qRT-PCR, which showed that rhlG mRNAs were 5-fold less abundant in PAO6358 than in PAO1 at 20 h of growth in PPGAS (Additional file 1: Figure S1). Altogether, three promoters, each dependent Anacetrapib on a distinct sigma factor (σ70, AlgU and σ54), are thus involved in rhlG transcription. The quorum sensing signal molecule C4-HSL inhibits rhlGtranscription Since the putative “lux box” found in the rhlG promoter region (Figure 1) was proposed to be the binding site of the quorum sensing regulator RhlR [9], we examined the prrhlG activity in P. aeruginosa PDO100 strain in which the rhlI gene is inactivated [25]. This gene encodes the RhlI enzyme responsible for the synthesis of C4-HSL which activates RhlR. The prrhlG::luxCDABE fusion led to luminescence values about 1.6-fold higher in P.