Sucrose non-fermenting-1-related protein kinase-1(SnRK1)regulates carbon and nitrogen metabolism in plants.However,its roles and their underlying mechanisms in tolerance to abiotic stresses are little known.The presen...Sucrose non-fermenting-1-related protein kinase-1(SnRK1)regulates carbon and nitrogen metabolism in plants.However,its roles and their underlying mechanisms in tolerance to abiotic stresses are little known.The present study indicated that the IbSnRK1 gene was strongly induced by Na Cl,polyethylene glycol(PEG)6000,hydrogen peroxide(H2O2),cold(4°C),and abscisic acid(ABA).Its overexpression significantly increased salt,drought,and cold tolerance in transgenic sweet potato plants.ABA,proline,and K+contents were significantly increased,whereas malondialdehyde(MDA),Na+and H2O2 contents and O2-production rate were significantly decreased in the transgenic plants under salt,drought,and cold stresses.Overexpression of the gene up-regulated genes involved in ABA biosynthesis,stress response,and stomatal closure;increased enzyme activities in the reactive oxygen species(ROS)scavenging system;and controlled stomatal closure under salt,drought,and cold stresses.These results show that the IbSnRK1 gene confers salt,drought,and cold tolerance in sweet potato by activating the ROS scavenging system and controlling stomatal closure via the ABA signaling pathway.展开更多
Nitrogen is an important nutrient for plant development. Nitrogen and carbon metabolisms are tightly linked to physiological functions in plants. In this study, we found that the IbSnRK1 gene was induced by Ca(NO3)2...Nitrogen is an important nutrient for plant development. Nitrogen and carbon metabolisms are tightly linked to physiological functions in plants. In this study, we found that the IbSnRK1 gene was induced by Ca(NO3)2. Its overexpression enhanced nitrogen uptake and carbon assimilation in transgenic sweetpotato. After Ca(^15NO3)2 treatment, the -(15)N atom excess, -(15)N and total N content and nitrogen uptake efficiency(NUE) were significantly increased in the roots, stems, and leaves of transgenic plants compared with wild type(WT) and empty vector control(VC). After Ca(NO3)2 treatment, the increased nitrate N content, nitrate reductase(NR) activity, free amino acid content, and soluble protein content were found in the roots or leaves of transgenic plants. The photosynthesis and carbon assimilation were enhanced. These results suggest that the IbSnRK1 gene play a important role in nitrogen uptake and carbon assimilation of sweetpotato. This gene has the potential to be used for improving the yield and quality of sweetpotato.展开更多
基金supported by the National Key Research and Development Program of China(2019YFD1001303 and 2019YFD1001300)China Agriculture Research System(CARS-10,Sweetpotato)。
文摘Sucrose non-fermenting-1-related protein kinase-1(SnRK1)regulates carbon and nitrogen metabolism in plants.However,its roles and their underlying mechanisms in tolerance to abiotic stresses are little known.The present study indicated that the IbSnRK1 gene was strongly induced by Na Cl,polyethylene glycol(PEG)6000,hydrogen peroxide(H2O2),cold(4°C),and abscisic acid(ABA).Its overexpression significantly increased salt,drought,and cold tolerance in transgenic sweet potato plants.ABA,proline,and K+contents were significantly increased,whereas malondialdehyde(MDA),Na+and H2O2 contents and O2-production rate were significantly decreased in the transgenic plants under salt,drought,and cold stresses.Overexpression of the gene up-regulated genes involved in ABA biosynthesis,stress response,and stomatal closure;increased enzyme activities in the reactive oxygen species(ROS)scavenging system;and controlled stomatal closure under salt,drought,and cold stresses.These results show that the IbSnRK1 gene confers salt,drought,and cold tolerance in sweet potato by activating the ROS scavenging system and controlling stomatal closure via the ABA signaling pathway.
基金supported by the earmarked fund for China Agriculture Research System (CARS-11)the National Natural Science Foundation of China (31461143017)the Science and Technology Planning Project of Guangdong Province, China (2015B020202008)
文摘Nitrogen is an important nutrient for plant development. Nitrogen and carbon metabolisms are tightly linked to physiological functions in plants. In this study, we found that the IbSnRK1 gene was induced by Ca(NO3)2. Its overexpression enhanced nitrogen uptake and carbon assimilation in transgenic sweetpotato. After Ca(^15NO3)2 treatment, the -(15)N atom excess, -(15)N and total N content and nitrogen uptake efficiency(NUE) were significantly increased in the roots, stems, and leaves of transgenic plants compared with wild type(WT) and empty vector control(VC). After Ca(NO3)2 treatment, the increased nitrate N content, nitrate reductase(NR) activity, free amino acid content, and soluble protein content were found in the roots or leaves of transgenic plants. The photosynthesis and carbon assimilation were enhanced. These results suggest that the IbSnRK1 gene play a important role in nitrogen uptake and carbon assimilation of sweetpotato. This gene has the potential to be used for improving the yield and quality of sweetpotato.
