Intramolecular Femtosecond Energy Conversion in Chlorosomes of Photosynthesizing Green Bacteria Chloroflexus aurantiacus

IF 0.7 Q4 CHEMISTRY, MULTIDISCIPLINARY

Moscow University Chemistry Bulletin Pub Date : 2025-05-13 DOI:10.3103/S0027131425700087

A. G. Yakovlev, A. S. Taisova, Z. G. Fetisova

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Abstract

In the green bacterium Chloroflexus aurantiacus, photosynthesis begins with light absorption by unique light-harvesting complexes known as chlorosomes. These structures consist of ~10⁴ molecules of bacteriochlorophyll (BChl) c, which assemble into intricate spatial configurations. Upon absorption of blue light (~460 nm) by the B band of the chlorosome, ultrafast energy conversion occurs, resulting in the excitation of the red Q_y band (~740 nm). We study this process using differential (light – darkness) absorption spectroscopy with a high temporal resolution (20 fs). The characteristic conversion time is determined to be 35 fs. Energy conversion precedes the slower exciton relaxation processes in the Q_y band (100–300 fs) and the energy transfer from the chlorosome to the baseplate and subsequently to the reaction center (tens of picoseconds). The physicochemical principles underlying intramolecular energy conversion in chlorosomes and the significance of this process for photosynthesis are discussed.

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光合绿菌金绿藻叶绿体分子内飞秒能量转换

在绿色细菌金绿藻中，光合作用始于被称为叶绿体的独特的光收集复合物的光吸收。这些结构由大约104个细菌叶绿素（BChl） c分子组成，它们组装成复杂的空间构型。当叶绿体B波段吸收蓝光（~460 nm）后，发生超快的能量转换，导致红色Qy波段（~740 nm）被激发。我们使用高时间分辨率（20秒）的差分（光-暗）吸收光谱来研究这一过程。特性转换时间确定为35fs。能量转换发生在Qy波段较慢的激子弛豫过程之前（100-300 fs），能量从叶绿体转移到基板，随后转移到反应中心（几十皮秒）。讨论了叶绿体分子内能量转换的物理化学原理及其在光合作用中的意义。

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来源期刊

Moscow University Chemistry Bulletin CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

1.30

自引率

14.30%

发文量

期刊介绍： Moscow University Chemistry Bulletin is a journal that publishes review articles, original research articles, and short communications on various areas of basic and applied research in chemistry, including medical chemistry and pharmacology.