Arginine and nitrogen mobilization in cyanobacteria

Abstract

Cyanobacteria have evolved mechanisms to adapt to environmental stress and nutrient availability, including accumulation of storage compounds in inclusions and granules. As arginine is a key building block of cyanophycin, a dynamic nitrogen reservoir in many cyanobacteria, arginine metabolism plays a key role in cyanobacterial nitrogen storage and remobilization. Recently, an arginine dihydrolase AgrE/ArgZ was identified as a major arginine-degrading enzyme in nondiazotrophic Synechocystis, which catalyzes the conversion of arginine into ornithine and ammonia. The N-terminal domain of AgrE/ArgZ is responsible for arginine dihydrolase activity. Burnat et al. (2019) identified the arginine catabolic pathway in diazotrophic Anabaena, which starts with the reaction catalyzed by AgrE/ArgZ. Moreover, this study identified the C-terminal domain of AgrE/ArgZ as an ornithine cyclodeaminase that catalyze the conversion of ornithine to proline. The results demonstrated that arginine is catabolized to generate glutamate by the concerted action of AgrE/ArgZ and bifunctional proline oxidase PutA in the vegetative cells of Anabaena. These findings expand our knowledge on nitrogen mobilization and redistribution in Anabaena under nitrogen-fixation conditions. AgrE/ArgZ is widely present in many diazotrophic cyanobacteria and may be important for their contribution to marine nitrogen fixation. AgrE/ArgZ may have potential applications in metabolic engineering and biotechnology.