Transgenic rice overexpressing the Brassica juncea gamma-glutamylcysteine synthetase gene enhances tolerance to abiotic stress and improves grain yield under paddy field conditions

Glutathione (GSH), a low-molecular-weight tripeptide molecule that plays an important role in cell function and metabolism as an antioxidant, is synthesized by gamma-glutamylcysteine synthetase and glutathione synthetase. To investigate the functional role of GSH in the adaptation of plants to abiotic stresses, we developed Brassica juncea L. ECS (BrECS)-expressing transgenic rice plants (BrECS1 and BrECS2) under the regulation of a stress-inducible Rab21 promoter. BrECS1 and BrECS2 transgenic rice plants with BrECS overexpression tolerated high salinity by maintaining a cellular glutathione (GSH)/glutathione disulfide redox buffer, which prevented unnecessary membrane oxidation. BrECS1 and BrECS2 rice plants also showed lower ion leakage and higher chlorophyll-fluorescence than wild-type (WT) rice plants in the presence of methyl viologen (MV) and salt, resulting in enhanced tolerance to abiotic stresses. During germination, BrECS overexpression increased growth and development, resulting in an increased germination rate in the presence of salt conditions, but not under salt-free normal conditions. Furthermore, BrECS1 and BrECS2 rice plants displayed a moderate increase in biomass and rice grain yield under general paddy field conditions when compared to WT rice plants under general paddy field conditions. Therefore, our results suggest that BrECS-overexpression was critical for cellular defense from reactive oxygen species attacks produced by salt and MV, promotion of germination, and metabolic processes involved in natural environmental stress tolerance, thereby enhancing growth development and rice grain yield.