THE WATER-WATER CYCLE IN CHLOROPLASTS: Scavenging of Active Oxygens and Dissipation of Excess Photons.

Annual review of plant physiology and plant molecular biology Pub Date : 1999-06-01 DOI:10.1146/annurev.arplant.50.1.601

Kozi Asada

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引用次数: 4000

Abstract

Photoreduction of dioxygen in photosystem I (PSI) of chloroplasts generates superoxide radicals as the primary product. In intact chloroplasts, the superoxide and the hydrogen peroxide produced via the disproportionation of superoxide are so rapidly scavenged at the site of their generation that the active oxygens do not inactivate the PSI complex, the stromal enzymes, or the scavenging system itself. The overall reaction for scavenging of active oxygens is the photoreduction of dioxygen to water via superoxide and hydrogen peroxide in PSI by the electrons derived from water in PSII, and the water-water cycle is proposed for these sequences. An overview is given of the molecular mechanism of the water-water cycle and microcompartmentalization of the enzymes participating in it. Whenever the water-water cycle operates properly for scavenging of active oxygens in chloroplasts, it also effectively dissipates excess excitation energy under environmental stress. The dual functions of the water-water cycle for protection from photoinihibition are discussed.

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叶绿体中的水循环:活性氧的清除和多余光子的耗散。

叶绿体光系统I中的二氧光还原(PSI)产生超氧自由基作为主要产物。在完整的叶绿体中，通过超氧化物歧化产生的超氧化物和过氧化氢在它们产生的地方被如此迅速地清除，以至于活性氧不会使PSI复合物、基质酶或清除系统本身失活。清除活性氧的总体反应是在PSI中由水产生的电子通过超氧化物和过氧化氢将双氧光还原为水，并提出了这些序列的水循环。综述了水循环的分子机制和参与水循环的酶的微区隔化。当水水循环正常运转以清除叶绿体中的活性氧时，它也有效地耗散了环境胁迫下多余的激发能。讨论了水循环对防止光抑制的双重作用。

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Annual review of plant physiology and plant molecular biology

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