类胡萝卜素分子中共轭双键数量对来自嗜酒色杆菌菌株MSU的光捕获复合物LH2中细菌叶绿素能量转移效率的影响。

The Influence of the Number of Conjugated Double Bonds in Carotenoid Molecules on the Energy Transfer Efficiency to Bacteriochlorophyll in Light-Harvesting Complexes LH2 from Allochromatium vinosum Strain MSU.

作者信息

Ashikhmin A A, Makhneva Z K, Bolshakov M A, Moskalenko A A

机构信息

Institute of Basic Biological Problems, Russian Academy of Sciences, Pushchino, Moscow oblast, 142290, Russia.

出版信息

Dokl Biochem Biophys. 2018 Nov;483(1):321-325. doi: 10.1134/S160767291806008X. Epub 2019 Jan 3.

DOI:10.1134/S160767291806008X

PMID:30607730

Abstract

Seven different carotenoids with the number of conjugated double bonds (N) from 5 to 11 were incorporated in vitro into carotenoidless complexes LH2 of the sulfur bacterium Allochromatium vinosum strain MSU. The efficiency of their incorporation varied from 4 to 99%. The influence of N in the carotenoid molecules on the energy transfer efficiency from these pigments to bacteriochlorophyll (BChl) in the modified LH2 complexes was studied for the first time. The highest level of energy transfer was recorded for rhodopin (N = 11) and neurosporene (N = 7) (37 and 51%, respectively). In the other carotenoids, this parameter ranged from 11 to 33%. In the LH2 complexes studied, we found no direct correlation between the decrease in N in carotenoids and increase in the energy transfer efficiency from these pigments to BChl.

摘要

七种共轭双键数（N）从5到11的不同类胡萝卜素在体外被整合到硫细菌嗜色菌MSU菌株无类胡萝卜素的LH2复合物中。它们的整合效率从4%到99%不等。首次研究了类胡萝卜素分子中的N对修饰后的LH2复合物中这些色素向细菌叶绿素（BChl）能量转移效率的影响。紫菌红素（N = 11）和神经孢菌烯（N = 7）的能量转移水平最高（分别为37%和51%）。在其他类胡萝卜素中，该参数范围为11%至33%。在所研究的LH2复合物中，我们发现类胡萝卜素中N的减少与这些色素向BChl的能量转移效率的增加之间没有直接相关性。

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类胡萝卜素分子中共轭双键数量对来自嗜酒色杆菌菌株MSU的光捕获复合物LH2中细菌叶绿素能量转移效率的影响。

The Influence of the Number of Conjugated Double Bonds in Carotenoid Molecules on the Energy Transfer Efficiency to Bacteriochlorophyll in Light-Harvesting Complexes LH2 from Allochromatium vinosum Strain MSU.

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