Department of Biophysics, Faculty of Biology, Lomonosov Moscow State University, Moscow, Russia, 119234.
Photosynth Res. 2019 Oct;142(1):57-67. doi: 10.1007/s11120-019-00647-4. Epub 2019 May 16.
Effect of water-soluble and stable sucrose-bound iron oxyhydroxide nanoparticles [Fe[III] sucrose complex (FSC)] on the efficiency of electron transport in the photosystem II membranes was studied. FSC significantly increases (by a factor 1.5) the rate of light-induced oxygen evolution in the presence of alternative electron acceptor 2,6-dichloro-p-benzoquinone (DCBQ). Without DCBQ, FSC only slightly (5%) provides the oxygen evolution. Electron transport supported by pair DCBQ + FSC is inhibited by diuron. Maximum of stimulating effect was recorded at Fe(III) concentration 5 µM. In the case of another benzoquinone electron acceptor (2-phenyl-p-benzoquinone and 2,3-dimethyl-p-benzoquinone) and 2,6-dichlorophenolindophenol, stimulating effect of FSC was not observed. Incubation of PSII membranes at different concentrations with FSC is accompanied by binding of Fe(III) by membrane components but only about 50% of iron can be extracted by membranes from Fe(III) solution at pH 6.5. This result implies the heterogeneity of FSC solution in a buffer. The heterogeneity depends on pH and decreases with its rising. At pH around 9.0 Fe(III), sucrose solution is homogeneous. The study of pH effect has shown that stimulation of electron transport is induced only by iron cations which can be bound by membranes. Not extractable iron pool cannot activate electron transfer from oxygen-evolving complex to DCBQ.
研究了水溶性和稳定的蔗糖结合的铁氧氢氧化物纳米粒子[Fe[III]蔗糖配合物(FSC)]对光系统 II 膜中电子传递效率的影响。FSC 在替代电子受体 2,6-二氯-p-苯醌(DCBQ)的存在下,显著提高(提高了 1.5 倍)光诱导氧气释放的速率。没有 DCBQ,FSC 仅轻微(5%)提供氧气释放。由 DCBQ + FSC 支持的电子传递被 diuron 抑制。在 Fe(III)浓度为 5 μM 时,记录到最大刺激效果。在另一种苯醌电子受体(2-苯基-p-苯醌和 2,3-二甲基-p-苯醌)和 2,6-二氯苯酚靛酚的情况下,未观察到 FSC 的刺激作用。在不同浓度的 FSC 孵育 PSII 膜时,膜成分会与 Fe(III)结合,但只有约 50%的铁可以通过膜从 pH 6.5 的 Fe(III)溶液中提取。这一结果表明 FSC 在缓冲液中的溶液存在异质性。这种异质性取决于 pH 值,并随其升高而降低。在 pH 约为 9.0 时,Fe(III)、蔗糖溶液是均匀的。对 pH 值影响的研究表明,只有能够被膜结合的铁阳离子才能诱导电子传递的刺激。不可提取的铁池不能激活从氧释放复合物到 DCBQ 的电子转移。
