Sigma 54 levels and physiological control of the Pseudomonas putida Pu promoter.

Abstract

The cellular levels of the alternative sigma factor sigma(54) of Pseudomonas putida have been examined in a variety of growth stages and culture conditions with a single-chain Fv antibody tailored for detection of scarce proteins. The levels of sigma(54) were also monitored in P. putida strains with knockout mutations in ptsO or ptsN, known to be required for the C-source control of the sigma(54)-dependent Pu promoter of the TOL plasmid. Our results show that approximately 80 +/- 26 molecules of sigma(54) exist per cell. Unlike that in relatives of Pseudomonas (e.g., Caulobacter), where fluctuations of sigma(54) determine adaptation and differentiation when cells face starvation, sigma(54) in P. putida remains unexpectedly constant at different growth stages, in nitrogen starvation and C-source repression conditions, and in the ptsO and ptsN mutant strains analyzed. The number of sigma(54) molecules per cell in P. putida is barely above the predicted number of sigma(54)-dependent promoters. These figures impose a framework on the mechanism by which Pu (and other sigma(54)-dependent systems) may become amenable to physiological control.