Transcriptional effects of the signal transduction protein P II ( glnB gene product) on NtcA-dependent genes in Synechococcus sp. PCC 7942

Abstract

P II proteins signal the cellular nitrogen status in numerous bacteria, and in cyanobacteria P II is subjected to serine phosphorylation when the cells experience a high C to N balance. In the unicellular cyanobacterium Synechococcus sp. PCC 7942, the P II protein ( glnB gene product) is known to mediate the ammonium-dependent inhibition of nitrate and nitrite uptake. The analysis of gene expression through RNA/DNA hybridization indicated that a P II-null mutant was also impaired in the induction of NtcA-dependent, nitrogen assimilation genes amt1 (ammonium permease), glnA (glutamine synthetase) and nir (nitrite reductase), as well as of the N-control gene ntcA, mainly under nitrogen deprivation. This gene expression phenotype of the glnB mutant could be complemented by wild-type P II protein or by modified P II proteins that cannot be phosphorylated and mimic either the phosphorylated (GlnB S49D and GlnB S49E) or unphosphorylated (GlnB S49A) form of P II. However, strains carrying the GlnB S49D and GlnB S49E mutant proteins exhibited higher levels of expression of nitrogen-regulated genes than the strains carrying the wild-type P II or the GlnB S49A protein.