Metabolic changes of the urea cycle in connection to polyamine metabolism are an important protection mechanism during ammonium stress, revealing a role for the urea cycle in plants.The ornithine-urea cycle (urea cycle) makes a significant contribution to the metabolic responses of lower photosynthetic eukaryotes to episodes of high nitrogen availability. In this study, we compared the role of the plant urea cycle and its relationships to polyamine metabolism in ammonium-fed and nitrate-fed Medicago truncatula plants. High ammonium resulted in the accumulation of ammonium and pathway intermediates, particularly glutamine, arginine, ornithine, and putrescine. Arginine decarboxylase activity was decreased in roots, suggesting that the ornithine decarboxylase-dependent production of putrescine was important in situations of ammonium stress. The activity of copper amine oxidase, which releases ammonium from putrescine, was significantly decreased in both shoots and roots. In addition, physiological concentrations of ammonium inhibited copper amine oxidase activity in in vitro assays, supporting the conclusion that high ammonium accumulation favors putrescine synthesis. Moreover, early supplementation of plants with putrescine avoided ammonium toxicity. The levels of transcripts encoding urea-cycle-related proteins were increased and transcripts involved in polyamine catabolism were decreased under high ammonium concentrations. We conclude that the urea cycle and associated polyamine metabolism function as important protective mechanisms limiting ammonium toxicity in M. truncatula. These findings demonstrate the relevance of the urea cycle to polyamine metabolism in higher plants.

Urra, M., Buezo, J., Royo, B., Cornejo, A., López-Gómez, P., Cerdán, D., et al. (2022). The importance of the urea cycle and its relationships to polyamine metabolism during ammonium stress in Medicago truncatula. JOURNAL OF EXPERIMENTAL BOTANY, 73(16) [10.1093/jxb/erac235].

The importance of the urea cycle and its relationships to polyamine metabolism during ammonium stress in Medicago truncatula

Tavladoraki, Paraskevi;
2022-01-01

Abstract

Metabolic changes of the urea cycle in connection to polyamine metabolism are an important protection mechanism during ammonium stress, revealing a role for the urea cycle in plants.The ornithine-urea cycle (urea cycle) makes a significant contribution to the metabolic responses of lower photosynthetic eukaryotes to episodes of high nitrogen availability. In this study, we compared the role of the plant urea cycle and its relationships to polyamine metabolism in ammonium-fed and nitrate-fed Medicago truncatula plants. High ammonium resulted in the accumulation of ammonium and pathway intermediates, particularly glutamine, arginine, ornithine, and putrescine. Arginine decarboxylase activity was decreased in roots, suggesting that the ornithine decarboxylase-dependent production of putrescine was important in situations of ammonium stress. The activity of copper amine oxidase, which releases ammonium from putrescine, was significantly decreased in both shoots and roots. In addition, physiological concentrations of ammonium inhibited copper amine oxidase activity in in vitro assays, supporting the conclusion that high ammonium accumulation favors putrescine synthesis. Moreover, early supplementation of plants with putrescine avoided ammonium toxicity. The levels of transcripts encoding urea-cycle-related proteins were increased and transcripts involved in polyamine catabolism were decreased under high ammonium concentrations. We conclude that the urea cycle and associated polyamine metabolism function as important protective mechanisms limiting ammonium toxicity in M. truncatula. These findings demonstrate the relevance of the urea cycle to polyamine metabolism in higher plants.
2022
Urra, M., Buezo, J., Royo, B., Cornejo, A., López-Gómez, P., Cerdán, D., et al. (2022). The importance of the urea cycle and its relationships to polyamine metabolism during ammonium stress in Medicago truncatula. JOURNAL OF EXPERIMENTAL BOTANY, 73(16) [10.1093/jxb/erac235].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/484447
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