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在硅藻中,不同组成的类胡萝卜素叶绿素 a/c 结合蛋白的光系统 I 复合物的生化特性。

Biochemical characterization of photosystem I complexes having different subunit compositions of fucoxanthin chlorophyll a/c-binding proteins in the diatom Chaetoceros gracilis.

机构信息

Research Institute for Interdisciplinary Science and Graduate School of Natural Science and Technology, Okayama University, 3-1-1 Tsushima Naka, Okayama, 700-8530, Japan.

Graduate School of Science, Kobe University, Kobe, 657-8501, Japan.

出版信息

Photosynth Res. 2019 May;140(2):141-149. doi: 10.1007/s11120-018-0576-y. Epub 2018 Sep 5.

DOI:10.1007/s11120-018-0576-y
PMID:30187302
Abstract

Diatoms are dominant phytoplankton in aquatic environments and have unique light-harvesting apparatus, fucoxanthin chlorophyll a/c-binding protein (FCP). Diatom photosystem I (PSI) interacts with specific FCPs (FCPI); however, it remains unclear how PSI cores receive excitation energy from FCPI. To analyze the energy transfer dynamics, it is necessary to isolate both PSI cores and PSI-FCPI complexes. In this study, we prepared three PSI complexes, which are PSI-FCPI membrane fragments, detergent-solubilized PSI-FCPI supercomplexes and PSI core-like complexes, from the marine centric diatom, Chaetoceros gracilis, and examined their biochemical properties. Both the PSI-FCPI membrane fragments and supercomplexes showed similar subunit compositions including FCPI, whereas the PSI complexes were devoid of most FCPI subunits. The purity and homogeneity of the two detergent-solubilized PSI preparations were verified by clear-native PAGE and electron microscopy. The difference of pigment contents among the three PSI samples was shown by absorption spectra at 77 K. The intensity in the whole spectrum of PSI-FCPI membranes was much higher than those of the other two complexes, while the spectral shape of PSI complexes was similar to that of cyanobacterial PSI core complexes. 77-K fluorescence spectra of the three PSI preparations exhibited different spectral shapes, especially peak positions and band widths. Based on these observations, we discuss the merits of three PSI preparations for evaluating excitation energy dynamics in diatom PSI-FCPI complexes.

摘要

硅藻是水生环境中占优势的浮游植物,具有独特的光捕获装置——叶黄素叶绿素 a/c 结合蛋白(FCP)。硅藻光系统 I(PSI)与特定的 FCP 相互作用(FCPI);然而,PSI 核心如何从 FCPI 接收激发能仍不清楚。为了分析能量转移动力学,有必要分离 PSI 核心和 PSI-FCPI 复合物。在这项研究中,我们从海洋中心硅藻中制备了三种 PSI 复合物,即 PSI-FCPI 膜片段、去污剂可溶 PSI-FCPI 超复合物和 PSI 核心样复合物,并研究了它们的生化特性。PSI-FCPI 膜片段和超复合物均显示出相似的亚基组成,包括 FCPI,而 PSI 复合物缺乏大多数 FCPI 亚基。两种去污剂可溶 PSI 制剂的纯度和均一性通过清晰的天然 PAGE 和电子显微镜得到验证。三种 PSI 样品的色素含量差异通过 77K 吸收光谱显示。PSI-FCPI 膜的整个光谱强度远高于其他两种复合物,而 PSI 复合物的光谱形状与蓝细菌 PSI 核心复合物相似。三种 PSI 制剂的 77-K 荧光光谱表现出不同的光谱形状,尤其是峰位置和带宽。基于这些观察,我们讨论了三种 PSI 制剂在评估硅藻 PSI-FCPI 复合物中激发能动力学的优点。

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