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线粒体交替氧化酶的上调与过量光照导致的叶绿体过度还原相伴发生。

Up-regulation of mitochondrial alternative oxidase concomitant with chloroplast over-reduction by excess light.

作者信息

Yoshida Keisuke, Terashima Ichiro, Noguchi Ko

机构信息

Department of Biological Sciences, Graduate School of Science, Osaka University, Toyonaka, Osaka, 560-0043 Japan.

出版信息

Plant Cell Physiol. 2007 Apr;48(4):606-14. doi: 10.1093/pcp/pcm033. Epub 2007 Mar 5.

DOI:10.1093/pcp/pcm033
PMID:17339232
Abstract

Alternative oxidase (AOX), the unique terminal oxidase in plant mitochondria, catalyzes the energy-wasteful cyanide (CN)-resistant respiration. Although it has been suggested that AOX might prevent chloroplast over-reduction through the efficient dissipation of excess reducing equivalents, direct evidence for this in the physiological context has been lacking. In this study, we examined the mitochondrial respiratory properties, especially AOX, connected to the accumulation of reducing equivalents in the chloroplasts and the activities of enzymes needed to transport the reducing equivalents. We used Arabidopsis thaliana mutants defective in cyclic electron flow around PSI, in which the reducing equivalents accumulate in the chloroplast stroma due to an unbalanced ATP/NADPH production ratio. These mutants showed higher activities of the enzymes needed to transport the reducing equivalents even in low-light growth conditions. The amounts of AOX protein and CN-resistant respiration in the mutants were also higher than those in the wild type. After high-light treatment, AOX, even in the wild type, was preferentially up-regulated concomitant with the accumulation of reducing equivalents in the chloroplasts and an increase in the activities of enzymes needed to transport reducing equivalents. These results indicate that AOX can dissipate the excess reducing equivalents, which are transported from the chloroplasts, and serve in efficient photosynthesis.

摘要

交替氧化酶(AOX)是植物线粒体中独特的末端氧化酶,催化能量浪费型的抗氰呼吸。尽管有人提出AOX可能通过有效耗散过量的还原当量来防止叶绿体过度还原,但在生理背景下对此的直接证据一直缺乏。在本研究中,我们研究了与叶绿体中还原当量积累以及运输还原当量所需酶活性相关的线粒体呼吸特性,特别是AOX。我们使用了在PSI周围循环电子流存在缺陷的拟南芥突变体,在这些突变体中,由于ATP/NADPH产生比例失衡,还原当量在叶绿体基质中积累。即使在弱光生长条件下,这些突变体中运输还原当量所需酶的活性也更高。突变体中AOX蛋白的含量和抗氰呼吸也高于野生型。高光处理后,即使是野生型中的AOX也会随着叶绿体中还原当量的积累以及运输还原当量所需酶活性的增加而优先上调。这些结果表明,AOX可以耗散从叶绿体运输来的过量还原当量,并有助于高效光合作用。

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