Carotenoid mediated B800–B850 coupling in LH2

PhysChemComm Pub Date : 1999-01-01 DOI:10.1039/A903172C
B. Krueger, G. Scholes, I. Gould, G. Fleming
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引用次数: 13

Abstract

Ab initio calculations of the excited state properties of a portion of the light harvesting 2 complex consisting of a supermolecule of two B850 bacteriochlorophyll (BChl), one B800 BChl, and one rhodopin glucoside carotenoid show significant mixing between the BChl and carotenoid states. Calculation of the B800–B850 coulombic coupling, through the transition density cube method, both with and without the carotenoid reveal that the carotenoid affects an increase in the B800–B850 coupling via an indirect (superexchange) mechanism. This carotenoid-mediated coupling explains a portion of the difference between the B800–B850 energy transfer rate determined experimentally and through traditional (Forster) calculations.
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类胡萝卜素介导LH2中B800-B850偶联
由两个B850细菌叶绿素(BChl)、一个B800细菌叶绿素和一个rhodopin糖苷类胡萝卜素组成的超分子组成的一部分光收集2复合物的激发态性质的从头计算表明,BChl和类胡萝卜素状态之间存在显著的混合。通过过渡密度立方法计算B800-B850的库仑偶联,无论是否添加类胡萝卜素,都表明类胡萝卜素通过间接(超交换)机制影响B800-B850偶联的增加。这种类胡萝卜素介导的耦合解释了实验确定的B800-B850能量转移率与传统(福斯特)计算之间的部分差异。
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PhysChemComm
PhysChemComm
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