Abstract
Increased activity alleles (rscS1 and rscS2) of the symbiosis regulator RscS induced both syp transcription and biofilm formation in Vibrio fischeri. Neither allele encodes a protein variant; instead they carry mutations near the putative ribosome-binding site and, in the case of rscS1, an additional silent mutation at codon Leu25. In this study, we found that endogenous levels of RscS are very low under the culture conditions examined and that the increased activity alleles dramatically increased the levels of protein. Of the two mutations present in rscS1, the Leu25 mutation, which replaces a rare with a more common Leu codon, appeared to make the greater contribution to increased activity. Our results suggest that RscS levels are maintained at low levels in the cell by the presence of a weak promoter, possible inefficient ribosome binding and the presence of rare codons in the 5' end of the gene. Restriction of RscS levels may be important to prevent spurious signalling by this sensor kinase in the absence of a squid host.