A study was conducted in the field of the Institute of Vegetable Crops, Jiangsu province from July 2000 to August 2003. The transgenic roundup-ready soybean was sown in the middle of the field in a circular manner for...A study was conducted in the field of the Institute of Vegetable Crops, Jiangsu province from July 2000 to August 2003. The transgenic roundup-ready soybean was sown in the middle of the field in a circular manner for 5 circles, with the distance of 3 m, from one circle to another. Then the wild soybean was planted in plots as the rays of the circles in 8 directions (N, E, W, S, NE, NW, SE and SW), spaced every 5 m until 50 m. Each plot comprised 25 plants. In the second year, the wild soybean seeds from the first year were planted in the field together with the original wild soybean as check. Before flowering time, high concentrations of roundups (about 4-5 times of the normal dose) were sprayed on the plants and the surviving plants were identified. The leaves were taken to the lab for DNA extraction to determine the unique DNA for roundup-ready soybean (CTAB method). About 2% of the plants survived, but some leaves were yellow. One plant of wild soybean was found to have the roundup-ready gene from the original roundup-ready soybean. The other surviving wild soybeans should also had some fragments of the roundup tolerance gene. However, the DNA bands were not very clear in the PCR map.展开更多
120 azuki bean germplasms from different regions of China were selected for drought-resistance. Results showed that there is a significant positive correlation between drought-resistance and photooxidation-resistance....120 azuki bean germplasms from different regions of China were selected for drought-resistance. Results showed that there is a significant positive correlation between drought-resistance and photooxidation-resistance. So, the detecting technique for photooxidation-resistance should be suggested as a reference method to select the drought-resistance germplasms in azuki bean.展开更多
文摘A study was conducted in the field of the Institute of Vegetable Crops, Jiangsu province from July 2000 to August 2003. The transgenic roundup-ready soybean was sown in the middle of the field in a circular manner for 5 circles, with the distance of 3 m, from one circle to another. Then the wild soybean was planted in plots as the rays of the circles in 8 directions (N, E, W, S, NE, NW, SE and SW), spaced every 5 m until 50 m. Each plot comprised 25 plants. In the second year, the wild soybean seeds from the first year were planted in the field together with the original wild soybean as check. Before flowering time, high concentrations of roundups (about 4-5 times of the normal dose) were sprayed on the plants and the surviving plants were identified. The leaves were taken to the lab for DNA extraction to determine the unique DNA for roundup-ready soybean (CTAB method). About 2% of the plants survived, but some leaves were yellow. One plant of wild soybean was found to have the roundup-ready gene from the original roundup-ready soybean. The other surviving wild soybeans should also had some fragments of the roundup tolerance gene. However, the DNA bands were not very clear in the PCR map.
文摘120 azuki bean germplasms from different regions of China were selected for drought-resistance. Results showed that there is a significant positive correlation between drought-resistance and photooxidation-resistance. So, the detecting technique for photooxidation-resistance should be suggested as a reference method to select the drought-resistance germplasms in azuki bean.