低温时间分辨光谱研究 Amphidinium carterae 的主要捕光复合物。

Low-temperature time-resolved spectroscopic study of the major light-harvesting complex of Amphidinium carterae.

机构信息

Faculty of Science, University of South Bohemia, Branišovská 31, 370 05, České Budějovice, Czech Republic.

出版信息

Photosynth Res. 2013 Nov;117(1-3):257-65. doi: 10.1007/s11120-013-9900-8. Epub 2013 Aug 1.

Abstract

The major light-harvesting complex of Amphidinium (A.) carterae, chlorophyll-a-chlorophyll-c 2-peridinin-protein complex (acpPC), was studied using ultrafast pump-probe spectroscopy at low temperature (60 K). An efficient peridinin-chlorophyll-a energy transfer was observed. The stimulated emission signal monitored in the near-infrared spectral region was stronger when redder part of peridinin pool was excited, indicating that these peridinins have the S1/ICT (intramolecular charge-transfer) state with significant charge-transfer character. This may lead to enhanced energy transfer efficiency from "red" peridinins to chlorophyll-a. Contrary to the water-soluble antenna of A. carterae, peridinin-chlorophyll-a protein, the energy transfer rates in acpPC were slower under low-temperature conditions. This fact underscores the influence of the protein environment on the excited-state dynamics of pigments and/or the specificity of organization of the two pigment-protein complexes.

摘要

采用超快泵浦探针光谱技术在低温（60 K）下研究了 Amphidinium（A.）carterae 的主要光捕获复合物——叶绿素-a-叶绿素-c2- 多甲藻黄素蛋白复合物（acpPC）。观察到了有效的多甲藻黄素-叶绿素-a 能量转移。当激发多甲藻黄素池的较红部分时，监测到近红外光谱区域中的受激发射信号更强，表明这些多甲藻黄素具有具有显著电荷转移特征的 S1/ICT（分子内电荷转移）态。这可能会导致从“红色”多甲藻黄素到叶绿素-a 的能量转移效率提高。与 Amphidinium（A.）carterae 的水溶性天线相反，在低温条件下，acpPC 中的能量转移速率较慢。这一事实强调了蛋白质环境对色素激发态动力学的影响和/或两个色素-蛋白复合物的组织特异性。

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低温时间分辨光谱研究 Amphidinium carterae 的主要捕光复合物。

Low-temperature time-resolved spectroscopic study of the major light-harvesting complex of Amphidinium carterae.

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