Nitrogenase activity and ureide levels in a supernodulating soybean mutant: Effects of inoculum dose and nitrate treatment

Abstract

The effects of nitrate on nitrogenase (EC 1.18.2.1) activity of soybean (Glycine max [L.] Merr) cv. Bragg and its supernodulating mutant derivative, nts382, were compared. A short‐term nitrate treatment was used to allow effects on nitrogenase activity to be studied in the absence of effects on nodule growth and a low inoculum dose, which prevented supernodulation of nts382, was employed to test for any interaction between supernodulation and the magnitude of the effect of nitrate on nitrogenase activity. At the usual inoculum dose, nitrogenase activity, per g nocule, of nts382 was lower than that of Bragg and was proportionally less affected by nitrate. Decreasing the inoculum dose increased nitrogenase activity of nts382 and also the proportional decline in response to nitrate. The decline in the ureide conentration in xylem exudate in response to nitrate was proportionally similar to the decline in nitrogenase activity per plant. However, although nitrogenase activity per plant of nts382 was several‐fold less than that of Bragg, the ureide flux rate (ureide concentration x xylem sap exudation rate), was not different. At the usual inodulum dose, the ureide content of the nocules, stems plus petioles and leaves of nts382 was greater than that of Bragg. Decreasing the inoculum dose reduced the ureide content of the nodules of nts382 but not of Bragg. Ureide degradative capacity of the leaves was the same for Bragg and nts382. Low activities of 5‐phosphoribosyl pyrophosphate amidotransferase (EC 2.4.2.14) and glutamine synthetase (EC 6.3.1.2) in the nodules reflected the low nitrogenase activity of nts382.