Main conclusion <p><b>The </b><Emphasis Type="BoldItalic">eu3-a</Emphasis><b> mutant exhibited greater tolerance to salt stress but increased sensitivity to copper stress, with distinct impacts on nitrogen metabolism, photosynthesis, and antioxidant responses.</b></p> Abstract <p>The <i>eu3-a</i> soybean mutant is urease-null, lacking all urease activity responsible for catalyzing the hydrolysis of urea into ammonia and carbon dioxide. In this study, the urease-null <i>eu3-a</i> soybean mutant was used to assess the saline and copper stresses on nitrogen metabolism. Seeds of <i>eu3-a/eu3-</i>a and the corresponding dominant homozygous <i>Eu3</i> precursor line were collectively referred to as near-isogenic lines (NILs). Experiments were conducted under hydroponic conditions using plants at the reproductive stage (R1–R2) and subjected to either salinity stress (NaCl: 0, 50, and 100&#xa0;mM) or copper stress (CuCl<sub>2</sub>: 0, 10, and 50&#xa0;µM) over a 5-day treatment period. The following parameters were assessed in leaf tissue: photosynthetic performance, antioxidant enzyme activity, levels of nitrogenous compounds, and the expression of genes encoding key enzymes in the arginine-derived metabolic network. Overall, salinity imposed more severe physiological disruptions than copper in both lines, as evidenced by an approximately 88% reduction in photosynthetic performance under 100&#xa0;mM of salt. Both stresses impaired nitrogen metabolism, increasing ammonia levels and reducing nitrate concentration. Interestingly, <i>eu3-a</i> plants demonstrated enhanced tolerance to salt stress relative to <i>Eu3</i> plants, but this trend was not observed under copper stress. Future work should address nitrogen-related enzymatic activities associated with urease metabolism and elucidate the non-enzymatic antioxidant mechanisms contributing to stress tolerance in <i>eu3-a</i> soybean plants under salt and copper stress.</p>

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Urease-null soybean (eu3-a) under salt and copper stress: nitrogen metabolism, antioxidant defense, and arginine pathway genes

  • Sarah Caroline R. de Souza,
  • Neidiquele M. Silveira,
  • Vanessa R. Tofanello,
  • Joe Carmine Polacco,
  • Paulo Mazzafera

摘要

Main conclusion

The eu3-a mutant exhibited greater tolerance to salt stress but increased sensitivity to copper stress, with distinct impacts on nitrogen metabolism, photosynthesis, and antioxidant responses.

Abstract

The eu3-a soybean mutant is urease-null, lacking all urease activity responsible for catalyzing the hydrolysis of urea into ammonia and carbon dioxide. In this study, the urease-null eu3-a soybean mutant was used to assess the saline and copper stresses on nitrogen metabolism. Seeds of eu3-a/eu3-a and the corresponding dominant homozygous Eu3 precursor line were collectively referred to as near-isogenic lines (NILs). Experiments were conducted under hydroponic conditions using plants at the reproductive stage (R1–R2) and subjected to either salinity stress (NaCl: 0, 50, and 100 mM) or copper stress (CuCl2: 0, 10, and 50 µM) over a 5-day treatment period. The following parameters were assessed in leaf tissue: photosynthetic performance, antioxidant enzyme activity, levels of nitrogenous compounds, and the expression of genes encoding key enzymes in the arginine-derived metabolic network. Overall, salinity imposed more severe physiological disruptions than copper in both lines, as evidenced by an approximately 88% reduction in photosynthetic performance under 100 mM of salt. Both stresses impaired nitrogen metabolism, increasing ammonia levels and reducing nitrate concentration. Interestingly, eu3-a plants demonstrated enhanced tolerance to salt stress relative to Eu3 plants, but this trend was not observed under copper stress. Future work should address nitrogen-related enzymatic activities associated with urease metabolism and elucidate the non-enzymatic antioxidant mechanisms contributing to stress tolerance in eu3-a soybean plants under salt and copper stress.