1. Application of Nitrate, Ammonium, or Urea Changes the Concentrations of Ureides, Urea, Amino Acids and Other Metabolites in Xylem Sap and in the Organs of Soybean Plants ( Glycine max (L.) Merr.).
- Author
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Ono Y, Fukasawa M, Sueyoshi K, Ohtake N, Sato T, Tanabata S, Toyota R, Higuchi K, Saito A, and Ohyama T
- Subjects
- Allantoin metabolism, Amino Acids metabolism, Nitrogen Fixation drug effects, Plant Root Nodulation drug effects, Plant Roots drug effects, Plant Roots metabolism, Sugars metabolism, Urea metabolism, Xylem drug effects, Xylem metabolism, Ammonium Compounds pharmacology, Nitrates pharmacology, Glycine max drug effects, Glycine max metabolism, Urea pharmacology
- Abstract
Soybean ( Glycine max (L.) Merr.) plants form root nodules and fix atmospheric dinitrogen, while also utilizing the combined nitrogen absorbed from roots. In this study, nodulated soybean plants were supplied with 5 mM N nitrate, ammonium, or urea for 3 days, and the changes in metabolite concentrations in the xylem sap and each organ were analyzed. The ureide concentration in the xylem sap was the highest in the control plants that were supplied with an N-free nutrient solution, but nitrate and asparagine were the principal compounds in the xylem sap with nitrate treatment. The metabolite concentrations in both the xylem sap and each organ were similar between the ammonium and urea treatments. Considerable amounts of urea were present in the xylem sap and all the organs among all the treatments. Positive correlations were observed between the ureides and urea concentrations in the xylem sap as well as in the roots and leaves, although no correlations were observed between the urea and arginine concentrations, suggesting that urea may have originated from ureide degradation in soybean plants, possibly in the roots. This is the first finding of the possibility of ureide degradation to urea in the underground organs of soybean plants.
- Published
- 2021
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