[C3和C4植物叶片中反应中心P700的光诱导氧化还原转化动力学]

[Kinetics of photoinduced oxidative-reductive transformation of the reaction center P700 in leaves of C3- and C4-plants].

作者信息

Bishniakova E A, Trubitsin B V, Tikhonov A N

机构信息

Physical Department, Lomonosov Moscow State University, Vorob'evy Gory, Russia.

出版信息

Biofizika. 2000 Sep-Oct;45(5):899-904.

Abstract

The light-induced changes in the kinetics of the oxidation of photosystem I reaction center P700 in leaves of C3 and C4 plants, depending on the time of leaf adaptation to dark before the illumination were studied. The EPR 1 signal from oxidized centers P+700 was used to monitor the kinetics of P700 redox transients. Similar dependences of the light-induced changes in the kinetics of P700 versus the adaptation time were observed in leaves of three kinds of plants: bean, orange and maize. These data suggest that the deactivation of the Calvin cycle enzymes, which occurs 1-3 min after ceasing the illumination, is the main factor that causes the retardation of the light-induced oxidation of P700.

摘要

研究了C3和C4植物叶片中光系统I反应中心P700氧化动力学的光诱导变化，该变化取决于光照前叶片适应黑暗的时间。来自氧化中心P+700的EPR 1信号用于监测P700氧化还原瞬变的动力学。在豆类、橙子和玉米这三种植物的叶片中观察到了P700动力学的光诱导变化与适应时间的相似依赖性。这些数据表明，光照停止后1-3分钟发生的卡尔文循环酶失活是导致P700光诱导氧化延迟的主要因素。

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