Ultrafast Fluorescence Spectroscopy of Reaction Centers of Photosynthetic Bacteria

Eighth International Conference on Ultrafast Phenomena Pub Date : 1900-01-01 DOI:10.1364/up.1992.tuc29

P. Hamm, W. Zinth

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Abstract

In the primary reaction of photosynthesis an electron is transferred through a pigment-protein complex called reaction center (RC). Starting from the primary donor, a dimer of bacteriochlorophyll molecules called special pair P, the electron reaches a quinone (Q) via two intermediate acceptors, a bacteriochlorophyll-monomer (B) and a bacteriopheophytin (H). In a number of publications this electron transfer process was investigated by transient absorption spectroscopy /1/. At least four kinetic constants of 0.9 ps, 3.5 ps, 200 ps and infinity are required to explain the absorption data /2,3/. The interpretation of these measurements is difficult since absorbance changes from different intermediates interfere. At present the most straight-forward interpretation of the data is the stepwise electron transfer model via the radical pair state P+B–: Complementary information from fluorescence up-conversion experiments is given in this contribution. By this way we follow directly the decay of the excited electronic state of the special pair. The experimental system was optimized to high time resolution and high sensitivity at low repetition rates in order to meet the requirements of the biological samples.

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光合细菌反应中心的超快荧光光谱研究

在光合作用的初级反应中，电子通过称为反应中心(RC)的色素-蛋白质复合物传递。电子从主要供体(称为特殊对P的细菌叶绿素分子二聚体)开始，通过两个中间受体，一个细菌叶绿素单体(B)和一个细菌叶绿素素(H)到达醌(Q)。在许多出版物中，这种电子转移过程用瞬态吸收光谱进行了研究。至少需要四个动力学常数0.9 ps, 3.5 ps, 200ps和无穷大来解释吸收数据。这些测量结果的解释是困难的，因为不同中间体的吸光度变化会产生干扰。目前对数据最直接的解释是通过自由基对状态P+B -的逐步电子转移模型:荧光上转换实验的补充信息在这一贡献中给出。通过这种方法，我们直接跟踪了特殊电子对激发态的衰变。实验系统优化为高时间分辨率、高灵敏度、低重复率，满足生物样品的要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Eighth International Conference on Ultrafast Phenomena

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