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通过荧光动力学研究聚球藻属PCC 7942细胞中的暗到光转换,评估黑暗中质体醌的氧化还原状态以及状态2到状态1转换过程中光系统II的荧光成分和动态变化。

Dark-to-light transition in Synechococcus sp. PCC 7942 cells studied by fluorescence kinetics assesses plastoquinone redox poise in the dark and photosystem II fluorescence component and dynamics during state 2 to state 1 transition.

作者信息

Tsimilli-Michael Merope, Stamatakis Kostas, Papageorgiou George C

机构信息

Ath. Phylactou 3, 1100, Nicosia, Cyprus.

出版信息

Photosynth Res. 2009 Mar;99(3):243-55. doi: 10.1007/s11120-009-9405-7. Epub 2009 Feb 11.

DOI:10.1007/s11120-009-9405-7
PMID:19205920
Abstract

We investigated the dark-to-light transition in Synechococcus sp. PCC 7942 cells by a detailed analysis of fluorescence transients induced by strong red light. The transients, recorded with high data-acquisition, revealed all the steps of the fast (OJIP; 10(-5)-1 s) and slow phase (PSM(T); 1-10(3) s), kinetically distinguished with precision. Focusing on the OJIP-rise, we show, for the first time, how the variable to initial fluorescence ratio and the relative height of J-level can serve as indexes of the plastoquinone redox poise and the established state in the dark; hence, differences among cyanobacteria can be recognised in a simple way. Applying intermittent illumination (20-s light pulses separated by 10-s dark intervals) to induce dark-to-light transition and analysing the individual transients, we establish a method by which we determine the fluorescence component not originating from photosystem (PS) II and we assess PSII dynamics during state 2 to state 1 transition. The development of photochemical and non-photochemical quenching is also discussed, as well as evidences favouring the mobile antenna model.

摘要

我们通过详细分析强红光诱导的荧光瞬变,研究了聚球藻属PCC 7942细胞中的暗到光转换。用高数据采集记录的瞬变揭示了快速(OJIP;10⁻⁵ - 1 s)和慢速阶段(PSM(T);1 - 10³ s)的所有步骤,在动力学上能精确区分。聚焦于OJIP上升,我们首次展示了可变荧光与初始荧光比率以及J水平的相对高度如何作为质体醌氧化还原状态和黑暗中既定状态的指标;因此,可以以简单的方式识别蓝细菌之间的差异。应用间歇光照(20秒光脉冲间隔10秒黑暗间隔)诱导暗到光转换并分析单个瞬变,我们建立了一种方法,通过该方法确定并非源自光系统(PS)II的荧光成分,并评估状态2到状态1转换期间的PSII动力学。还讨论了光化学和非光化学猝灭的发展,以及支持移动天线模型的证据。

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Dark-to-light transition in Synechococcus sp. PCC 7942 cells studied by fluorescence kinetics assesses plastoquinone redox poise in the dark and photosystem II fluorescence component and dynamics during state 2 to state 1 transition.通过荧光动力学研究聚球藻属PCC 7942细胞中的暗到光转换,评估黑暗中质体醌的氧化还原状态以及状态2到状态1转换过程中光系统II的荧光成分和动态变化。
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The pattern of photosynthetic response and adaptation to changing light conditions in lichens is linked to their ecological range.地衣对不断变化的光照条件的光合反应和适应模式与其生态范围有关。

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Iron deficiency in cyanobacteria causes monomerization of photosystem I trimers and reduces the capacity for state transitions and the effective absorption cross section of photosystem I in vivo.蓝藻中的铁缺乏会导致光系统I三聚体单体化,并降低体内状态转换能力和光系统I的有效吸收截面。
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Mercury inhibits the non-photochemical reduction of plastoquinone by exogenous NADPH and NADH: evidence from measurements of the polyphasic chlorophyll a fluorescence rise in spinach chloroplasts.汞抑制外源NADPH和NADH对质体醌的非光化学还原:来自菠菜叶绿体中多相叶绿素a荧光上升测量的证据。
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