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菠菜中非活性光系统 II 反应中心的光饱和响应。

Light saturation response of inactive photosystem II reaction centers in spinach.

机构信息

Department of Physiology and Biophysics, University of Illinois, USA.

出版信息

Photosynth Res. 1990 Jul;25(1):39-48. doi: 10.1007/BF00051734.

DOI:10.1007/BF00051734
PMID:24420169
Abstract

The effective absorption cross section of inactive photosystem II (PS II) centers, which is the product of the effective antenna size and the quantum yield for photochemistry, was investigated by comparing the light saturation curves of inactive PS II and active reaction centers in intact chloroplasts and thylakoid membranes of spinach (Spinacia oleracea). Inactive PS II centers are defined as the impaired PS II reaction centers that require greater than 50 ms for the reoxidation of QA (-) subsequent to a single turnover flash. Active reaction centers are defined as the rapidly turning over PS II centers (recovery time less than 50 ms) and all of the PS I centers. The electrochromic shift, measured by the flash-induced absorbance increase at 518 nm, was used to probe the activity of the reaction centers. Light saturation curves were generated for inactive PS II centers and active reaction centers by measuring the extent of the absorbance increase at 518 nm induced by red actinic flashes of variable energy. The light saturation curves show that inactive PS II centers required over twice as many photons as active reaction centers to achieve the same yield. The ratio of the flash energy required for 50% saturation for active reaction centers (PS II active + PS I) compared to inactive PS II centers was 0.45±0.04 in intact chloroplasts, and 0.54±0.11 in thylakoid membranes. Analysis of the light saturation curves using a Poisson statistical model in which the ratio of the antenna size of active PS II centers to that of PS I is considered to range from 1 to 1.5, indicates that the effective absorption cross section of inactive PS II centers was 0.54-0.37 times that of active PS II centers. If the quantum yield for photochemistry is assumed to be one, we estimate that the antenna system serving the inactive PS II centers contains approx. 110 chlorophyll molecules.

摘要

非活性光系统 II(PS II)中心的有效吸收截面是有效天线大小和光化学量子产率的乘积,通过比较完整叶绿体和菠菜(Spinacia oleracea)类囊体膜中非活性 PS II 和活性反应中心的光饱和曲线来研究。非活性 PS II 中心被定义为需要超过 50ms 才能使 QA(-)重新氧化的受损 PS II 反应中心,这是在单次光周转闪光之后。活性反应中心被定义为快速周转的 PS II 中心(恢复时间小于 50ms)和所有 PS I 中心。电致变色位移,通过在 518nm 处测量闪光诱导的吸收增加来测量,用于探测反应中心的活性。通过测量可变能量的红色光致发光闪光诱导的 518nm 处吸收增加的程度,为非活性 PS II 中心和活性反应中心生成光饱和曲线。光饱和曲线表明,非活性 PS II 中心需要比活性反应中心多两倍以上的光子才能达到相同的产量。与非活性 PS II 中心相比,活性反应中心(PS II 活性+PS I)达到 50%饱和所需的闪光能量的比率在完整叶绿体中为 0.45±0.04,在类囊体膜中为 0.54±0.11。使用泊松统计模型对光饱和曲线进行分析,其中考虑到活性 PS II 中心的天线大小与 PS I 的比例范围为 1 到 1.5,表明非活性 PS II 中心的有效吸收截面是活性 PS II 中心的 0.54-0.37 倍。如果假设光化学量子产率为一,我们估计服务于非活性 PS II 中心的天线系统大约包含 110 个叶绿素分子。

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