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光合作用中初级能量转换反应模型系统的合成。

Synthesis of amodel system for the primary energy conversion reactions in photosynthesis.

作者信息

Wang J H

出版信息

Proc Natl Acad Sci U S A. 1969 Mar;62(3):653-60. doi: 10.1073/pnas.62.3.653.

DOI:10.1073/pnas.62.3.653

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC223647/

Abstract

A model system is constructed which, like the photosynthetic apparatus of green plants, can convert light to chemical free energy through pigment-sensitized photooxidation of water. The system has two light-harvesting subunits connected electrically in series. Each subunit is made of a multimolecular layer of Zn(II)-tetraphenylporphyrin deposited on a clean aluminum surface and immersed in an aqueous mixture of potassium ferri- and ferrocyanide. Upon illumination by amber light, charge transfer takes place across more than 70 molecular layers of the pigment with a photoelectromotive force of 1.1 to 1.3 volts per subunit. With NADP as the electron acceptor and NADP-reductase as a mediator, the system can photooxidize water to oxygen gas. With these model experiments as a guide, a molecular mechanism for the primary energy conversion reactions in photosynthesis is formulated that offers a unified interpretation of most of the relevant observations reported in the literature.

摘要

构建了一个模型系统，该系统如同绿色植物的光合装置一样，能够通过水的色素敏化光氧化将光能转化为化学自由能。该系统有两个串联的光捕获亚基。每个亚基由沉积在干净铝表面并浸入铁氰化钾和亚铁氰化钾水溶液混合物中的多分子层Zn(II)-四苯基卟啉构成。在琥珀色光照射下，电荷转移发生在超过70个分子层的色素上，每个亚基的光电动势为1.1至1.3伏。以NADP作为电子受体并以NADP还原酶作为介质，该系统能够将水光氧化为氧气。以这些模型实验为指导，制定了光合作用中初级能量转换反应的分子机制，该机制为文献中报道的大多数相关观察结果提供了统一的解释。