Ultrafast Electron Transfer in Photosynthesis: Reduced Pheophytin and Quinone Interaction Mediated by Conical Intersections

机译：光合作用中的超快电子转移：锥形交叉口介导的卟啉和醌相互作用减少

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The mechanism of electron transfer (ET) from reduced pheophytin (Pheo") to the primary stable photo synthetic acceptor, a quinone (Q) molecule, is addressed by using high-level ab initio computations and realistic molecular models. The results reveal that the ET process involving the (Pheo"+Q) and (Pheo+Q") oxidation states can be essentially seen as an ultrafast radiationless transition between the two hypersurfaces taking place via conical intersections (CIs) and it is favoured when the topology of the interacting moieties make possible some overlap between the lowest occupied molecular orbitals (LUMO) of the two systems. Thus, it is anticipated that large scale motions, which are difficult to monitor experimentally, may actually occur in the photosynthetic reaction centers of bacteria, algae, and higher plants, to fulfil the observed ultrafast ET processes.

机译：通过高级的从头算和实际的分子模型研究了还原的脱镁叶绿素（Pheo“）到稳定的主要光合成受体醌（Q）分子的电子转移（ET）的机理。结果表明，涉及（Pheo“ + Q）和（Pheo + Q”）氧化态的ET过程从本质上可以看作是两个超表面之间通过圆锥形相交点（CI）发生的超快速无辐射跃迁，并且当相互作用的拓扑结构受到青睐时分子部分使两个系统的最低占据分子轨道（LUMO）之间可能重叠，因此，可以预料，很难通过实验监测的大规模运动实际上可能发生在细菌，藻类和藻类的光合作用反应中心。更高的工厂，以实现观察到的超快ET过程。

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来源
《International Conference of Computational Methods in Sciences and Engineering 2007(ICCMSE 2007); 20070925-30; Corfu(GR)》|2007年|P.706709|共2页
会议地点 Corfu(GR)
作者
Gloria Olaso-Gonzalez; Manuela Merchan; Luis Serrano-Andres;
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作者单位

Instituto de Ciencia Molecular, Universitat de Valencia. Apartado de Correos 22085, ES-46071 Valencia, Spain;

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会议组织
原文格式 PDF
正文语种 eng
中图分类计算数学的应用;
关键词
conical intersection; electron transfer; pheophytin; photosynthesis; quinone;

机译：锥形交叉点;电子转移;脱镁叶绿素;光合作用;醌;

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1. Ultrafast Electron Transfer in Photosynthesis: Reduced Pheophytin and Quinone Interaction Mediated by Conical Intersections [J] . Gloria Olaso-Gonzalez, Manuela Merchan, Luis Serrano-Andres The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2006,第48期

机译：光合作用中的超快电子转移：锥形交叉口介导的卟啉和醌相互作用减少
2. Ultrafast Electron Transfer in Photosynthesis: Reduced Pheophytin and Quinone Interaction Mediated by Conical Intersections [J] . Gloria Olaso-Gonzalez, Manuela Merchan, Luis Serrano-Andres The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2006,第48期

机译：光合作用中的超快电子转移：锥形交叉口介导的卟啉和醌相互作用减少
3. Ultrafast photoinitiated long-range electron transfer in cyclophane-bridged zincporphyrin-quinone complexes via conical intersections [J] . Dreuw A, Worth GA, Cederbaum LS, The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2004,第49期

机译：超快光引发的远距离电子在圆锥形桥联环卟啉桥联锌卟啉-醌配合物中的转移
4. Ultrafast Electron Transfer in Photosynthesis: Reduced Pheophytin and Quinone Interaction Mediated by Conical Intersections [C] . Gloria Olaso-Gonzalez, Manuela Merchan, Luis Serrano-Andres International Conference of Computational Methods in Sciences and Engineering . 2007

机译：光合作用中的超快电子转移：通过锥形交叉口介导的苯酚和醌相互作用
5. Probing the role of coordinate bonds versus covalent bonds in mediating electron transfer in porphyrin-spacer-quinone complexes: Synthesis, spectroscopy, and electron transfer kinetics. [D] . Hyslop, Alison Grace. 1998

机译：探究配位键与共价键在介导卟啉-间隔基-醌络合物中电子转移中的作用：合成，光谱学和电子转移动力学。
6. Inaugural Article: Metal-organic charge transfer can produce biradical states and is mediated by conical intersections [O] . Oksana Tishchenko, Ruifang Li, Donald G. Truhlar 2010

机译：就职演说：金属有机电荷转移可产生双自由基态并由圆锥形交叉点介导
7. Ultrafast Electron Transfer in Photosynthesis: Reduced Pheophytin and Quinone Interaction Mediated by Conical Intersections [O] . -1

机译：光合作用中的超快电子转移：通过锥形交叉口介导的苯酚和醌相互作用

Ultrafast Electron Transfer in Photosynthesis: Reduced Pheophytin and Quinone Interaction Mediated by Conical Intersections

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