Kinetics of Electron Transfer between Redox Cofactors in Photosystem I Measured by High-Frequency EPR Spectroscopy.

IF 2.3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Andrey A Sukhanov, Georgy E Milanovsky, Liya A Vitukhnovskaya, Mahir D Mamedov, Kev M Salikhov, Alexey Yu Semenov
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引用次数: 0

Abstract

The kinetics of the primary electron donor P700+ and the quinone acceptor A1- redox transitions were simultaneously studied for the first time in the time range of 200 μs-10 ms using high-frequency pulse Q-band EPR spectroscopy at cryogenic temperatures in various complexes of photosystem I (PSI) from the cyanobacterium Synechocystis sp. PCC 6803. In the A1-core PSI complexes that lack 4Fe4S clusters, the kinetics of the A1- and P700+ signals disappearance at 100 K were similar and had a characteristic time of τ ≈ 500 μs, caused by charge recombination in the P700+A1A- ion-radical pair in the A branch of redox cofactors. The kinetics of the backward electron transfer from A1B- to P700+ in the B branch of redox cofactors with τ < 100 μs could not be resolved due to time limitations of the method. In the native PSI complexes with a full set of redox cofactors and in the FX-core complexes, containing the 4Fe4S cluster FX, the kinetics of the A1- signal was significantly faster than that of the P700+ signal. The disappearance of the A1- signal had a characteristic time of 280-350 μs; it was suggested that, in addition to the backward electron transfer from A1A- to P700+ with τ ≈ 500 μs, its kinetics also includes the forward electron transfer from A1A- to the 4Fe4S cluster FX, which had slowed down to 150-200 μs. In the kinetics of P700+ reduction, it was possible to distinguish components caused by the backward electron transfer from A1- (τ ≈ 500 μs) and from 4Fe4S clusters (τ = 1 ms for the FX-core and τ > 5 ms for native complexes). These results are in qualitative agreement with the data on the kinetics of P700+ reduction obtained previously using pulse absorption spectrometry at cryogenic temperatures.

利用高频 EPR 光谱测量光系统 I 中氧化还原辅因子之间的电子转移动力学。
在低温条件下,利用高频脉冲Q波段EPR光谱首次同时研究了蓝藻Synechocystis sp. PCC 6803的光系统I(PSI)各种复合物中初级电子供体P700+和醌受体A1-氧化还原转变的动力学。在缺乏 4Fe4S 簇的 A1 核 PSI 复合物中,100 K 时 A1- 和 P700+ 信号消失的动力学过程相似,其特征时间为 τ ≈ 500 μs,这是由于氧化还原辅助因子 A 支中的 P700+A1A- 离子对中的电荷重组造成的。在氧化还原辅因子的 B 支中,τ < 100 μs 的电子从 A1B- 向 P700+ 反向转移的动力学由于方法的时间限制而无法解析。在含有全套氧化还原辅因子的原生 PSI 复合物和含有 4Fe4S 簇 FX 的 FX 核心复合物中,A1- 信号的动力学速度明显快于 P700+ 信号。A1- 信号消失的特征时间为 280-350 μs;这表明,除了从 A1A- 到 P700+ 的后向电子转移(τ ≈ 500 μs)外,其动力学还包括从 A1A- 到 4Fe4S 簇 FX 的前向电子转移,后者的速度减慢到 150-200 μs。在 P700+ 还原动力学中,可以区分由 A1-(τ ≈ 500 μs)和 4Fe4S 团簇(τ = 1 ms 适用于 FX 核心,τ > 5 ms 适用于原生复合物)的后向电子转移引起的成分。这些结果与之前在低温条件下使用脉冲吸收光谱法获得的 P700+ 还原动力学数据在质量上是一致的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biochemistry (Moscow)
Biochemistry (Moscow) 生物-生化与分子生物学
CiteScore
4.70
自引率
3.60%
发文量
139
审稿时长
2 months
期刊介绍: Biochemistry (Moscow) is the journal that includes research papers in all fields of biochemistry as well as biochemical aspects of molecular biology, bioorganic chemistry, microbiology, immunology, physiology, and biomedical sciences. Coverage also extends to new experimental methods in biochemistry, theoretical contributions of biochemical importance, reviews of contemporary biochemical topics, and mini-reviews (News in Biochemistry).
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