Cloning and characterisation of the Azospirillum brasilense glnD gene and analysis of a glnD mutant

Abstract

Nitrogen regulation in bacteria involves the capacity to sense the availability of fixed nitrogen and to translate a signal indicating nitrogen deficiency or nitrogen excess into a cellular response. One of the key enzymes in this complex regulation process, the uridylyltransferase/uridylyl-removing (UTase) enzyme, encoded by the glnD gene, was characterised in the diazotroph Azospirillum brasilense, which promotes plant growth. The glnD gene product is responsible for the uridylylation of both P_II-like nitrogen regulatory proteins, P_II and P_Z, depending on the nitrogen status of the cell. The nitrogen-regulated activity of the main ammonium-assimilating enzyme, glutamine synthetase, is not altered in a glnD-Tn5-B30 insertion mutant. UTase influences processes that are regulated by the NtrB-NtrC two-component histidine protein kinase system, such as ammonium uptake and nitrate assimilation. Moreover, the glnD gene product is indispensable for the activation of nitrogen fixation. Transcription of glnD is up-regulated under nitrogen-fixing conditions. This regulation is only partially dependent on the global nitrogen regulation (Ntr) system.