The active ingredient of ginseng,ginsenosides Rg1,has been shown to scavenge free radicals and improve antioxidant capacity.This study hypothesized that ginsenosides Rg1 has a protective role in human neuroblastoma ce...The active ingredient of ginseng,ginsenosides Rg1,has been shown to scavenge free radicals and improve antioxidant capacity.This study hypothesized that ginsenosides Rg1 has a protective role in human neuroblastoma cells injured by H2O2.Ginsenosides Rg1 at different concentrations(50 and 100 μM) was used to treat H2O2(150 μM)-injured SH-SY5 Y cells.Results demonstrated that ginsenoside Rg1 elevated the survival rate of SH-SY5 Y cells injured by H2O2,diminished the amount of leaked lactate dehydrogenase,and increased superoxide dismutase activity.Ginsenoside Rg1 effectively suppressed caspase-3 immunoreactivity,and contributed to heat shock protein 70 gene expression,in a dose-dependent manner.These results indicate that ginsenoside Rg1 has protective effects on SH-SY5 Y cells injured by H2O2 and that its mechanism of action is associated with anti-oxidation and the inhibition of apoptosis.展开更多
Wetlands are important for the protection of water quality of rivers and lakes, especially those adjacent to agricultural landscapes, by intercepting and removing nutrients in runoff. In this study, the ^15N tracer te...Wetlands are important for the protection of water quality of rivers and lakes, especially those adjacent to agricultural landscapes, by intercepting and removing nutrients in runoff. In this study, the ^15N tracer technique was applied to study the distribution and fate of anthropogenic nitrogen (^15N-fertilizer) in Calamagrostis angustifolia Kom wetland plant-soil microcosms to identify the main ecological effects of it. ^15NH4^15NO3 solution (14.93 mg N/L, 20.28 at.% ^15N) was added to each microcosm of the first group, which was approximate to the current nitrogen concentration (CNC) of farm drainage, and 29.86 mg NIL ^15NH4^15NO3 solution was added to another group, which was approximate to the double nitrogen concentration (DNC) of farm drainage, while no nitrogen (NN) was added to the third group. The results suggest that the input of anthropogenic nitrogen has positive effects on the biomass and total nitrogen content of plant, and the positive effects will be elevated as the increase of its input amount. The increase of ^15N-fertilizer can also elevate its amounts and proportions in plant nitrogen. Soil nitrogen is still the main source of plant nitrogen, but its proportion will be reduced as the increase of ^15 N-fertilizer. The study of the fate of ^15N-fertilizer indicates that, in CNC treatment, only a small proportion is water-dissolved (0,13 ± 0.20%), a considerable proportion is soil-immobilized (17.02 ± 8.62%), or plant-assimilated (23.70 ± 0.92%), and most is lost by gaseous forms (59.15 ± 8.35%). While in DNC treatment, about 0.09 ± 0.15% is water-dissolved, 15.33 ± 7.46% is soil-immobilized, 23.55±2.86% is plant-assimilated, and 61.01±5.59% is lost by gaseous forms. The double input of anthropogenic nitrogen can not elevate the proportions of plant-assimilation, soil-immobilization and water-dissolution, but it can enhance the gaseous losses.展开更多
基金supported by the Research and Development Project Fund of Science and Technology Plan Program of Science and Technology Bureau of Beijing of China,No.Z111107067311022
文摘The active ingredient of ginseng,ginsenosides Rg1,has been shown to scavenge free radicals and improve antioxidant capacity.This study hypothesized that ginsenosides Rg1 has a protective role in human neuroblastoma cells injured by H2O2.Ginsenosides Rg1 at different concentrations(50 and 100 μM) was used to treat H2O2(150 μM)-injured SH-SY5 Y cells.Results demonstrated that ginsenoside Rg1 elevated the survival rate of SH-SY5 Y cells injured by H2O2,diminished the amount of leaked lactate dehydrogenase,and increased superoxide dismutase activity.Ginsenoside Rg1 effectively suppressed caspase-3 immunoreactivity,and contributed to heat shock protein 70 gene expression,in a dose-dependent manner.These results indicate that ginsenoside Rg1 has protective effects on SH-SY5 Y cells injured by H2O2 and that its mechanism of action is associated with anti-oxidation and the inhibition of apoptosis.
基金the Knowledge Innovation Program of the Chinese Academyof Science (KZCX2-YW-309 and KZCX3-SW-332)the National ScienceFoundation of China (90211003)
文摘Wetlands are important for the protection of water quality of rivers and lakes, especially those adjacent to agricultural landscapes, by intercepting and removing nutrients in runoff. In this study, the ^15N tracer technique was applied to study the distribution and fate of anthropogenic nitrogen (^15N-fertilizer) in Calamagrostis angustifolia Kom wetland plant-soil microcosms to identify the main ecological effects of it. ^15NH4^15NO3 solution (14.93 mg N/L, 20.28 at.% ^15N) was added to each microcosm of the first group, which was approximate to the current nitrogen concentration (CNC) of farm drainage, and 29.86 mg NIL ^15NH4^15NO3 solution was added to another group, which was approximate to the double nitrogen concentration (DNC) of farm drainage, while no nitrogen (NN) was added to the third group. The results suggest that the input of anthropogenic nitrogen has positive effects on the biomass and total nitrogen content of plant, and the positive effects will be elevated as the increase of its input amount. The increase of ^15N-fertilizer can also elevate its amounts and proportions in plant nitrogen. Soil nitrogen is still the main source of plant nitrogen, but its proportion will be reduced as the increase of ^15 N-fertilizer. The study of the fate of ^15N-fertilizer indicates that, in CNC treatment, only a small proportion is water-dissolved (0,13 ± 0.20%), a considerable proportion is soil-immobilized (17.02 ± 8.62%), or plant-assimilated (23.70 ± 0.92%), and most is lost by gaseous forms (59.15 ± 8.35%). While in DNC treatment, about 0.09 ± 0.15% is water-dissolved, 15.33 ± 7.46% is soil-immobilized, 23.55±2.86% is plant-assimilated, and 61.01±5.59% is lost by gaseous forms. The double input of anthropogenic nitrogen can not elevate the proportions of plant-assimilation, soil-immobilization and water-dissolution, but it can enhance the gaseous losses.
