线粒体交替途径相关的光系统II光保护作用与光呼吸途径有关。

Mitochondrial Alternative Pathway-Associated Photoprotection of Photosystem II is Related to the Photorespiratory Pathway.

作者信息

Watanabe Chihiro K A, Yamori Wataru, Takahashi Shunichi, Terashima Ichiro, Noguchi Ko

机构信息

Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033 Japan

Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033 Japan.

出版信息

Plant Cell Physiol. 2016 Jul;57(7):1426-1431. doi: 10.1093/pcp/pcw036. Epub 2016 Feb 21.

DOI:10.1093/pcp/pcw036

PMID:26903530

Abstract

Respiratory electron transport has two ubiquinol-oxidizing pathways, the cytochrome pathway (CP) and the alternative pathway (AP). The AP, which is catalyzed by the alternative oxidase (AOX), is energetically wasteful but may alleviate PSII photoinhibition under light conditions excessive for photosynthesis. However, its mechanism remains unknown. We used Arabidopsis aox1a mutants lacking AOX activity and studied the mutation's effects on photoinhibition by measuring the decrease in the maximum quantum yield of PSII (F/F) after high light exposure. Since the CP compensates for the lack of AOX, we monitored the extent of photoinhibition under conditions where CP activity is partially inhibited by antimycin A. When leaves were exposed to high light at 350 µmol m s, the decline in F/F was significantly faster in the aox1a mutants than in the wild type. However, under conditions where photorespiration was suppressed by high CO or low O levels, the decline in F/F was suppressed in the aox1a mutants, but not in the wild type, making the difference between the wild type and mutants small. Our results demonstrate that the lack of the AP causes an acceleration of PSII photoinhibition in relation to the photorespiratory pathway, suggesting that the AP can support the activity of the photorespiratory pathway under high light conditions.

摘要

呼吸电子传递有两条泛醇氧化途径，即细胞色素途径（CP）和交替途径（AP）。交替途径由交替氧化酶（AOX）催化，在能量上是浪费的，但在光照条件对光合作用过量时可能减轻PSII光抑制。然而，其机制仍不清楚。我们使用缺乏AOX活性的拟南芥aox1a突变体，通过测量高光暴露后PSII最大量子产率（F/F）的下降来研究该突变对光抑制的影响。由于细胞色素途径会补偿AOX的缺失，我们在细胞色素途径活性被抗霉素A部分抑制的条件下监测光抑制程度。当叶片在350 μmol m² s⁻¹的高光下照射时，aox1a突变体中F/F的下降明显比野生型更快。然而，在高CO₂或低O₂水平抑制光呼吸的条件下，aox1a突变体中F/F的下降受到抑制，而野生型则没有，使得野生型和突变体之间的差异变小。我们的结果表明，交替途径的缺失会导致与光呼吸途径相关的PSII光抑制加速，这表明交替途径在高光条件下可以支持光呼吸途径的活性。

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线粒体交替途径相关的光系统II光保护作用与光呼吸途径有关。

Mitochondrial Alternative Pathway-Associated Photoprotection of Photosystem II is Related to the Photorespiratory Pathway.

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