Phosphoprotein PII from Cyanobacteria

Abstract

The signal transduction protein P_II from Escherichia coli is modified by uridylylation, whereas its counterpart from the cyanobacterium Synechococcus PCC 7942 is phosphorylated at a seryl residue. To elucidate functional conservations between these proteins, we compared the Synechococcus P_II protein with the known properties of the E. coli P_II protein. Similar to the E. coli protein, Synechococcus P_II binds the metabolites 2‐oxoglutarate and ATP in a mutually dependent manner. The synergism of ligand binding was analyzed in detail. The ATP‐binding site of Synechococcus P_II could be labelled with 5′‐p‐fluorosulfonylbenzoyladenosine. By heterologous expression of the cyanobacterial glnB gene in E. coli we showed that Synechococcus P_II can be modified by the E. coli P_II uridylyltransferase. The presence of Synechococcus P_II prevents signal transduction of E. coli P_II to NtrB, presumably by non‐functional competition. We therefore propose that the primary function of Synechococcus P_II is to sense 2‐oxoglutarate, the carbon skeleton required for nitrogen assimilation.