Department of Applied Plant Science, Graduate School of Agricultural Science, Tohoku University, Aoba-ku, Sendai 981-8555, Japan.
Plant J. 2011 Dec;68(6):966-76. doi: 10.1111/j.1365-313X.2011.04747.x. Epub 2011 Oct 10.
The role of NAD(P)H dehydrogenase (NDH)-dependent cyclic electron flow around photosystem I in photosynthetic regulation and plant growth at several temperatures was examined in rice (Oryza sativa) that is defective in CHLORORESPIRATORY REDUCTION 6 (CRR6), which is required for accumulation of sub-complex A of the chloroplast NDH complex (crr6). NdhK was not detected by Western blot analysis in crr6 mutants, resulting in lack of a transient post-illumination increase in chlorophyll fluorescence, and confirming that crr6 mutants lack NDH activity. When plants were grown at 28 or 35°C, all examined photosynthetic parameters, including the CO(2) assimilation rate and the electron transport rate around photosystems I and II, at each growth temperature at light intensities above growth light (i.e. 800 μmol photons m(-2) sec(-1)), were similar between crr6 mutants and control plants. However, when plants were grown at 20°C, all the examined photosynthetic parameters were significantly lower in crr6 mutants than control plants, and this effect on photosynthesis caused a corresponding reduction in plant biomass. The F(v)/F(m) ratio was only slightly lower in crr6 mutants than in control plants after short-term strong light treatment at 20°C. However, after long-term acclimation to the low temperature, impairment of cyclic electron flow suppressed non-photochemical quenching and promoted reduction of the plastoquinone pool in crr6 mutants. Taken together, our experiments show that NDH-dependent cyclic electron flow plays a significant physiological role in rice during photosynthesis and plant growth at low temperature.
在几种温度下,研究了 NAD(P)H 脱氢酶 (NDH)-依赖的光系统 I 周围循环电子流在光合调节和植物生长中的作用,该作用在叶绿体 NDH 复合物亚基 A 积累所必需的 CHLORORESPIRATORY REDUCTION 6 (CRR6) 缺陷的水稻 (Oryza sativa) 中受到影响(crr6)。在 crr6 突变体中,Western blot 分析未检测到 NdhK,导致叶绿素荧光的光照后瞬态增加缺失,并证实 crr6 突变体缺乏 NDH 活性。当植物在 28 或 35°C 下生长时,在光照强度高于生长光(即 800 μmol 光子 m(-2) sec(-1))的每个生长温度下,所有检查的光合作用参数,包括 CO(2)同化率和光系统 I 和 II 周围的电子传递率,在 crr6 突变体和对照植物之间相似。然而,当植物在 20°C 下生长时,所有检查的光合作用参数在 crr6 突变体中均明显低于对照植物,这种对光合作用的影响导致植物生物量相应减少。在 20°C 下进行短期强光处理后,crr6 突变体的 F(v)/F(m) 比值仅略低于对照植物。然而,经过长期适应低温后,循环电子流的损伤抑制了非光化学猝灭并促进了 crr6 突变体中质醌库的还原。总之,我们的实验表明,NDH 依赖的循环电子流在水稻光合作用和低温下植物生长中发挥着重要的生理作用。
