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在中度热胁迫下,两种兰花(铁皮石斛和石仙桃)的光系统 I 对光波动具有耐受性。

Photosystem I is tolerant to fluctuating light under moderate heat stress in two orchids Dendrobium officinale and Bletilla striata.

机构信息

Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, 650201, China; University of Chinese Academy of Sciences, Beijing, 100049, China.

Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, 650201, China.

出版信息

Plant Sci. 2021 Feb;303:110795. doi: 10.1016/j.plantsci.2020.110795. Epub 2020 Dec 9.

DOI:10.1016/j.plantsci.2020.110795
PMID:33487367
Abstract

Under natural field conditions, plants usually experience fluctuating light (FL) under moderate heat stress in summer. However, responses of photosystems I and II (PSI and PSII) to such combined stresses are not well known. Furthermore, the role of water-water cycle (WWC) in photoprotection in FL under moderate heat stress is poorly understood. In this study, we examined chlorophyll fluorescence and P700 redox state in FL at 42 °C in two orchids, Dendrobium officinale (with high WWC activity) and Bletilla striata (with low WWC activity). After FL treatment at 42 °C, PSI activity maintained stable while PSII activity decreased significantly in these two orchids. In D. officinale, the WWC could rapidly consume the excess excitation energy in PSI and thus avoided an over-reduction of PSI upon any increase in illumination. Therefore, in D. officinale, WWC likely protected PSI in FL at 42 °C. In B. striata, heat-induced PSII photoinhibition down-regulated electron flow from PSII and thus prevented an over-reduction of PSI after transition from low to high light. Consequently, in B. striata moderate PSII photoinhibition could protected PSI in FL at 42 °C. We conclude that, in addition to cyclic electron flow, WWC and PSII photoinhibition-repair cycle are two important strategies for preventing PSI photoinhibition in FL under moderate heat stress.

摘要

在自然田间条件下,植物通常在夏季中度热胁迫下经历波动的光(FL)。然而,光系统 I 和 II(PSI 和 PSII)对这种组合应激的反应尚不清楚。此外,水-水循环(WWC)在中度热胁迫下 FL 中的光保护中的作用知之甚少。在这项研究中,我们研究了两种兰花,铁皮石斛(WWC 活性高)和白芨(WWC 活性低)在 42°C 下 FL 中的叶绿素荧光和 P700 氧化还原状态。在 42°C 下进行 FL 处理后,PSI 活性保持稳定,而这两种兰花中的 PSII 活性显著下降。在铁皮石斛中,WWC 可以迅速消耗 PSI 中的多余激发能,从而避免在光照增加时 PSI 的过度还原。因此,在铁皮石斛中,WWC 可能在 42°C 的 FL 中保护 PSI。在白芨中,热诱导的 PSII 光抑制下调了从 PSII 到电子流,从而防止在从低光到高光的转变后 PSI 的过度还原。因此,在白芨中,中度 PSII 光抑制可以在 42°C 的 FL 中保护 PSI。我们得出结论,除了循环电子流外,WWC 和 PSII 光抑制-修复循环是防止中度热胁迫下 FL 中 PSI 光抑制的两种重要策略。

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