遗传分析表明,plantacyanin可提高保护细胞中的ROS含量(图1),促进气孔关闭,减少光合气体交换,增强抗旱性。此外,miR408-plantacyanin模块足以挽救因ABA响应转录因子的过表达或丧失而引起的生长和抗旱失调表型。这些结果表明miR408–plantacyanin...
遗传分析表明,plantacyanin可提高保护细胞中的ROS含量(图1),促进气孔关闭,减少光合气体交换,增强抗旱性。此外,miR408-plantacyanin模块足以挽救因ABA响应转录因子的过表达或丧失而引起的生长和抗旱失调表型。这些结果表明miR408–plantacyanin模块通过传导ABA信号而调节ROS稳态和气孔运动:在有利生长条件下,miR408表达上升...
SR conceived the research and supervised the experiments; SB executed all the experiments and analyzed the data; SK and RJ analyzed the methylation status of the miR408 region; PRB performed the phylogenetic analysis of targets; RC complemented the expression analysis; SR and SB wrote the manuscrip...
遗传分析表明,plantacyanin可提高保护细胞中的ROS含量(图1),促进气孔关闭,减少光合气体交换,增强抗旱性。此外,miR408-plantacyanin模块足以挽救因ABA响应转录因子的过表达或丧失而引起的生长和抗旱失调表型。这些结果表明,miR408–plantacyanin模块通过传导ABA信号而调节ROS稳态和气孔运动:在有利生长条件下,miR408表达上...
遗传分析表明,plantacyanin可提高保护细胞中的ROS含量(图1),促进气孔关闭,减少光合气体交换,增强抗旱性。此外,miR408-plantacyanin模块足以挽救因ABA响应转录因子的过表达或丧失而引起的生长和抗旱失调表型。这些结果表明,miR408–plantacya...
This result was concomitant with elevated H2O2 production after heat stress, and WT plants had much higher H2O2 production than TG plants (Figure 5A), which indicated that the increase of lipid peroxidation was probably due to more ROS production. The above experimental results showed that high ...