氢氘交换质谱法揭示了 FMO 蛋白与 CsmA 蛋白的相互作用。
Hydrogen-deuterium exchange mass spectrometry reveals the interaction of Fenna-Matthews-Olson protein and chlorosome CsmA protein.
机构信息
Department of Chemistry, Washington University in St. Louis, St. Louis, Missouri 63130, United States.
出版信息
Biochemistry. 2012 Jan 10;51(1):187-93. doi: 10.1021/bi201620y. Epub 2011 Dec 9.
Abstract
In green-sulfur bacterial photosynthesis, excitation energy absorbed by a peripheral antenna structure known as the chlorosome is sequentially transferred through a baseplate protein to the Fenna-Matthews-Olson (FMO) antenna protein and into the reaction center, which is embedded in the cytoplasmic membrane. The molecular details of the optimized photosystem architecture required for efficient energy transfer are only partially understood. We address here the question of how the baseplate interacts with the FMO protein by applying hydrogen/deuterium exchange coupled with enzymatic digestion and mass spectrometry analysis to reveal the binding interface of the FMO antenna protein and the CsmA baseplate protein. Several regions on the FMO protein, represented by peptides consisting of 123-129, 140-149, 150-162, 191-208, and 224-232, show significant decreases of deuterium uptake after CsmA binding. The results indicate that the CsmA protein interacts with the Bchl a #1 side of the FMO protein. A global picture including peptide-level details for the architecture of the photosystem from green-sulfur bacteria can now be drawn.
摘要
在绿硫细菌光合作用中,被称为聚光天线体的外围天线结构吸收的激发能通过一个基片蛋白依次传递到 Fenna-Matthews-Olson (FMO) 天线蛋白,并进入嵌入在细胞质膜中的反应中心。对于高效能量转移所需的优化光合作用系统结构的分子细节仅部分被理解。我们通过应用氘/氢交换与酶消化和质谱分析相结合,来研究基片与 FMO 蛋白的相互作用,从而揭示 FMO 天线蛋白和 CsmA 基片蛋白的结合界面。FMO 蛋白的几个区域,由包含 123-129、140-149、150-162、191-208 和 224-232 的肽组成,在 CsmA 结合后显示出氘摄取量的显著减少。结果表明 CsmA 蛋白与 FMO 蛋白的 Bchl a #1 侧相互作用。现在可以描绘出包括绿硫细菌光合作用系统的肽级详细结构的整体图像。
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