研究菠菜 PS II 膜片段多肽 D-1 上的 Tyr-161 向 P680(+)的电子转移。

Studies on the electron transfer from Tyr-161 of polypeptide D-1 to P680(+) in PS II membrane fragments from spinach.

机构信息

Max-Volmer-Institut für Biophysikalische und Physikalische Chemie, Technische Universität Berlin, Straßbe des 17. Juni 135, D 1000, Berlin 12, F.R.G..

出版信息

Photosynth Res. 1989 Dec;22(3):247-56. doi: 10.1007/BF00048303.

DOI:10.1007/BF00048303

PMID:24424814

Abstract

The functional connection between redox component Y z identified as Tyr-161 of polypeptide D-1 (Debus et al. 1988) and P680(+) was analyzed by measurements of laser flash induced absorption changes at 830 nm in PS II membrane fragments from spinach. It was found that neither DCMU nor the ADRY agent 2-(3-chloro-4-trifluoromethyl) anilino-3,5-dinitrothiophene (ANT 2p) affects the rate of P680(+) reduction by Y z under conditions where the catalytic site of water oxidation stays in the redox state S1. In contrast to that, a drastic retardation is observed after mild trypsin treatment at pH=6.0. This effect which is stimualted by flash illumination can be largely reversed by Ca(2+). The above mentioned data lead to the following conclusions: (a) the segment of polypeptide D-1 containing Tyr-161 and coordination sites of P680 is not allosterically affected by structural changes due to DCMU binding at the QB-site which is also located in D-1. (b) ANT 2p as a strong protonophoric uncoupler and ADRY agent does not modify the reaction coordinate of P680(+) reduction by Y z , and (c) Ca(2+) could play a functional role for the electronic and vibrational coupling between the redox groups Y z and P680. The electron transport from Y z to P680(+) is discussed within the framework of a nonadiabatic process. Based on thermodynamic considerations the reorganization energy is estimated to be in the order of 0.5 V.

摘要

在菠菜 PS II 膜片段中，通过测量激光闪光诱导 830nm 处的吸收变化，分析了氧化还原组分 Yz（确定为多肽 D-1 的 Tyr-161）与 P680(+)之间的功能连接。结果发现，DCMU 和 ADRY 试剂 2-(3-氯-4-三氟甲基)苯胺-3,5-二硝基噻吩（ANT 2p）都不会影响 Yz 还原 P680(+)的速率，在这种情况下，水氧化的催化位点保持在氧化还原态 S1。与此相反，在 pH=6.0 时进行温和的胰蛋白酶处理后，观察到明显的延迟。这种在闪光照射下刺激的效应可以被 Ca(2+) 大部分逆转。上述数据得出以下结论：(a) 包含 Tyr-161 和 P680 配位位点的多肽 D-1 段不会受到 DCMU 在 QB 位点结合引起的结构变化的变构影响，QB 位点也位于 D-1 中。(b) ANT 2p 作为一种强质子载体解偶联剂和 ADRY 试剂不会改变 Yz 还原 P680(+)的反应坐标，并且 (c) Ca(2+) 可能在 Yz 和 P680 之间的电子和振动偶联中发挥功能作用。在非绝热过程的框架内讨论了从 Yz 到 P680(+)的电子传递。基于热力学考虑，估计重组能约为 0.5V。

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研究菠菜 PS II 膜片段多肽 D-1 上的 Tyr-161 向 P680(+)的电子转移。

Studies on the electron transfer from Tyr-161 of polypeptide D-1 to P680(+) in PS II membrane fragments from spinach.

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