绿豆线粒体的呼吸链在氧化不同底物时有不同的呼吸速率和电子漏速率,但是O2-./O2比值较稳定.呼吸链部位Ⅱ的抑制剂抗霉素A对α-酮戊二酸、琥珀酸及苹果酸为底物时的电子漏速率和O2-./O2比值都有明显的促进作用,说明电子漏发生的位点可能在抗霉素A的抑制点之前.呼吸链在氧化外源NADH时,线粒体所产生的电子漏对氰化物、鱼藤酮、抗霉素A及SHAM都不敏感,而对钙离子的螯合剂EGTA显著敏感,因此,依赖于钙离子的NADH脱氢酶可能是线粒体产生电子漏的另一个位点.电子漏速率及O2-./O2比值和线粒体的能量状态密切相关,在相同条件下状态4电子漏速率及O2-./O2比值均高于状态3的.氰化物和SHAM对呼吸链的电子漏有抑制作用,说明电子漏可能与交替途径有关
Electron leakage rate and respiratory rate were studied with mung beau mitochondria. Succinate, NADH, a-ketoglutarate, malate and NADH were strongly effective in supporting mitochondrial respiratory rate and electron leakage rate. The ratio of electron leakage rate and respiratory rate (O2-./O2) were not markedly different when different substrates were utilized in mung beau mitochondria. Electron leakage rate was promoted and respiratory rate was inhibited by antimycin-A when succinate, a-ketoglutarate and
付爱根,罗广华,王爱国.绿豆线粒体呼吸链在不同电子传递途径中的电子漏[J].热带亚热带植物学报,2000,8(2):97~103
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