Abstract

The nitrogen metabolism of soybean (Glycine max L.) nodules and roots was studied in plants subjected to two different concentrations (50 and 200 μM) of CdCl₂. Nitrogenase activity was decreased in nodules treated with 200 μM Cd²⁺. In 50 μM Cd²⁺-treated plants, NH₄⁺ content showed similar values to controls in nodules, but increased by 55% in roots. However, after treatment with 200 μM Cd²⁺, NH₄⁺ levels increased in both tissues. Glutamate (Glu) and protein contents remained unaltered in nodules treated with 50 μM Cd²⁺, while at the higher Cd²⁺ concentration both were decreased. Nevertheless, polyamine content was increased at the two Cd²⁺ concentrations. In roots, Glu, polyamine and protein levels were significantly diminished at 50 and 200 μM CdCl₂. For nitrogen-assimilation enzymes, glutamate dehydrogenase activity was moderately increased in nodules and roots following the lower Cd²⁺ treatment, though at the higher Cd²⁺ concentration root enzyme activity returned to control levels. An impressive increase in enzyme activity was found in nodules. In roots, the glutamine synthetase / glutamate synthase pathway was decreased at the two Cd²⁺ concentrations, though in nodules it was diminished only at 200 μM Cd²⁺. No changes in protease activity were found in the two tissues treated with 50μMCd²⁺. However, at 200 μM Cd²⁺, nodule and root protease activities decreased and increased, respectively. These results suggest that, in general, treatment with Cd²⁺ affects nitrogen assimilation and metabolism to a greater extent in soybean roots than in nodules.