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光系统II中Ca2+耗尽和Sr2+取代的锰簇的质子矩阵电子核双共振研究。

Proton Matrix ENDOR Studies on Ca2+-depleted and Sr2+-substituted Manganese Cluster in Photosystem II.

作者信息

Nagashima Hiroki, Nakajima Yoshiki, Shen Jian-Ren, Mino Hiroyuki

机构信息

Graduate School of Science, Nagoya University, Furo-cho, Chikusa, Nagoya, 464-8602, Japan.

Photosynthesis Research Center, Graduate School of Natural Science and Technology/Faculty of Science, Okayama University, Okayama 700-8530, Japan.

出版信息

J Biol Chem. 2015 Nov 20;290(47):28166-28174. doi: 10.1074/jbc.M115.675496. Epub 2015 Oct 5.

DOI:10.1074/jbc.M115.675496
PMID:26438823
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4653675/
Abstract

Proton matrix ENDOR spectra were measured for Ca(2+)-depleted and Sr(2+)-substituted photosystem II (PSII) membrane samples from spinach and core complexes from Thermosynechococcus vulcanus in the S2 state. The ENDOR spectra obtained were similar for untreated PSII from T. vulcanus and spinach, as well as for Ca(2+)-containing and Sr(2+)-substituted PSII, indicating that the proton arrangements around the manganese cluster in cyanobacterial and higher plant PSII and Ca(2+)-containing and Sr(2+)-substituted PSII are similar in the S2 state, in agreement with the similarity of the crystal structure of both Ca(2+)-containing and Sr(2+)-substituted PSII in the S1 state. Nevertheless, slightly different hyperfine separations were found between Ca(2+)-containing and Sr(2+)-substituted PSII because of modifications of the water protons ligating to the Sr(2+) ion. Importantly, Ca(2+) depletion caused the loss of ENDOR signals with a 1.36-MHz separation because of the loss of the water proton W4 connecting Ca(2+) and YZ directly. With respect to the crystal structure and the functions of Ca(2+) in oxygen evolution, it was concluded that the roles of Ca(2+) and Sr(2+) involve the maintenance of the hydrogen bond network near the Ca(2+) site and electron transfer pathway to the manganese cluster.

摘要

对来自菠菜的Ca(2+)耗尽和Sr(2+)取代的光系统II(PSII)膜样品以及来自嗜热栖热放线菌处于S2状态的核心复合物,测量了质子矩阵电子核双共振(ENDOR)光谱。所获得的ENDOR光谱对于来自嗜热栖热放线菌和菠菜的未处理PSII以及含Ca(2+)和Sr(2+)取代的PSII是相似的,这表明在S2状态下,蓝细菌和高等植物PSII中锰簇周围的质子排列以及含Ca(2+)和Sr(2+)取代的PSII是相似的,这与含Ca(2+)和Sr(2+)取代的PSII在S1状态下晶体结构的相似性一致。然而,由于与Sr(2+)离子配位的水质子的修饰,在含Ca(2+)和Sr(2+)取代的PSII之间发现了略有不同的超精细分裂。重要的是,Ca(2+)耗尽导致了具有1.36-MHz分裂的ENDOR信号的丧失,这是因为直接连接Ca(2+)和YZ的水质子W4的丧失。关于晶体结构以及Ca(2+)在氧气释放中的功能,得出的结论是,Ca(2+)和Sr(2+)的作用涉及维持Ca(2+)位点附近的氢键网络以及到锰簇的电子转移途径。

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