液泡膜上H+-ATPase在C3-向CAM-光合途径转变中的作用
基本信息
结项摘要
CAM植物的光合代谢有明显的昼夜节律,因而具有极强的适应严酷逆境的能力。某些C3植物在逆境下可由C3向CAM途径转变。液泡膜V型H(+)-ATPase在上述过程中起关键性调节作用。证明渗透胁迫信号通过放大V型H(+)-ATPase的c亚基mRNA的昼夜振荡(振幅放大9倍以上),才能开启CAM代谢途径V型H(+)-ATPase活性受CDPK磷酸化作用调节,盐胁迫处理影响CDPK与膜的结合状态,从而调节V型H(+)-ATPase的磷酸化程度和活性。比较C3,CAM和C3/CAM兼性植物V型H(+)-ATPase的差异,证明在CAM状态下胞内苹果酸离子是H(+)-ATPase的最有效的阴离子激活剂。上述结果指出V型H(+)-ATPase在逆境信号转导,特别是在开启和维持CAM代谢中是具有重要作用的调控元件。其活性受蛋白激酶和苹果酸离子调节。阐明发生在液泡膜上的信号转导途径。
项目摘要
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数据更新时间:2023-05-31
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