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天线不是光合作用系统 II 的能量连接体:以向日葵叶片中闪光诱导的 O2 释放和叶绿素荧光为依据的证据。

Photosystem II antennae are not energetically connected: evidence based on flash-induced O2 evolution and chlorophyll fluorescence in sunflower leaves.

机构信息

Institute of Molecular and Cell Biology, University of Tartu, Riia St 23, 51010 Tartu, Estonia.

出版信息

Photosynth Res. 2012 Oct;114(1):15-28. doi: 10.1007/s11120-012-9775-0. Epub 2012 Aug 14.

DOI:10.1007/s11120-012-9775-0
PMID:22890327
Abstract

Oxygen evolution was measured in sunflower leaves in steady-state and during multiple-turnover pulses (MTP) of different light (630 nm LED plus far-red light) intensity and duration. In parallel, Chl fluorescence yields F(0) (minimum), F(s) (steady-state), and F(m) (pulse-saturated), as well as fluorescence induction during MTPs were recorded. Extra O(2) evolution was measured in response to a saturating single-turnover Xe flash (STF) applied immediately subsequently to the actinic light in the steady-state and to each MTP. Under the used anaerobic conditions and randomized S-states electron transport per STF was calculated as 4O(2) evolution. The STF-induced electron transport (=the number of open PSII) was maximal at the low background light, but decreased with progressing light saturation in steady-state and with the increasing duration of MTP. The quantum yield (effective antenna size) of open PSII centers remained constant when adjacent centers became closed. The photochemical quenching of fluorescence q(P) = (F(m) - F(s))/(F(m) - F(0)) was proportional with the portion of open PSII centers in the steady-state (variable non-photochemical quenching, NPQ) and with increasing MTP duration (NPQ absent). Comparison of experimental responses to a model based on PSII dimers with well-connected antennae showed no energetic connectivity between PSII antennae in intact leaves, suggesting that in vivo PSII exist as monomers, or dimers with energetically disconnected antennae.

摘要

在稳态和不同光照(630nm LED 加远红光)强度和持续时间的多次翻转脉冲(MTP)下,测量了向日葵叶片中的氧气释放。同时,记录了 Chl 荧光产量 F(0)(最小)、F(s)(稳态)和 F(m)(脉冲饱和),以及 MTP 期间的荧光诱导。在稳态和每个 MTP 之后立即应用饱和单翻转 Xe 闪光(STF),测量了对额外 O(2)释放的响应。在使用的厌氧条件下,根据 STF 计算了电子传递 per STF 为 4O(2)释放。在低背景光下,STF 诱导的电子传递(=开放 PSII 的数量)最大,但随着稳态光饱和的进展和 MTP 持续时间的增加而降低。当相邻中心关闭时,开放 PSII 中心的量子产率(有效天线大小)保持不变。荧光的光化学猝灭 q(P)=(F(m)-F(s))/(F(m)-F(0))与稳态中开放 PSII 中心的部分(可变非光化学猝灭,NPQ)和 MTP 持续时间的增加(不存在 NPQ)成正比。将实验响应与基于具有良好连接天线的 PSII 二聚体的模型进行比较表明,完整叶片中 PSII 天线之间没有能量连接,这表明在体内 PSII 作为单体存在,或者具有能量不连接天线的二聚体存在。

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