菠菜光系统 II-LHCII 超级复合物的 3.2Å 分辨率结构。

Structure of spinach photosystem II-LHCII supercomplex at 3.2 Å resolution.

机构信息

National Laboratory of Biomacromolecules, CAS Center for Excellence in Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, China.

University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

Nature. 2016 Jun 2;534(7605):69-74. doi: 10.1038/nature18020. Epub 2016 May 18.

DOI:10.1038/nature18020

PMID:27251276

Abstract

During photosynthesis, the plant photosystem II core complex receives excitation energy from the peripheral light-harvesting complex II (LHCII). The pathways along which excitation energy is transferred between them, and their assembly mechanisms, remain to be deciphered through high-resolution structural studies. Here we report the structure of a 1.1-megadalton spinach photosystem II-LHCII supercomplex solved at 3.2 Å resolution through single-particle cryo-electron microscopy. The structure reveals a homodimeric supramolecular system in which each monomer contains 25 protein subunits, 105 chlorophylls, 28 carotenoids and other cofactors. Three extrinsic subunits (PsbO, PsbP and PsbQ), which are essential for optimal oxygen-evolving activity of photosystem II, form a triangular crown that shields the Mn4CaO5-binding domains of CP43 and D1. One major trimeric and two minor monomeric LHCIIs associate with each core-complex monomer, and the antenna-core interactions are reinforced by three small intrinsic subunits (PsbW, PsbH and PsbZ). By analysing the closely connected interfacial chlorophylls, we have obtained detailed insights into the energy-transfer pathways between the antenna and core complexes.

摘要

在光合作用过程中，植物的光系统 II 核心复合物从周围的光捕获复合物 II（LHCII）接收激发能。激发能在它们之间传递的途径及其组装机制仍需通过高分辨率结构研究来破译。在这里，我们通过单颗粒冷冻电子显微镜报告了菠菜光系统 II-LHCII 超复合物的结构，分辨率为 3.2Å。该结构揭示了一个同源二聚体超分子系统，其中每个单体包含 25 个蛋白亚基、105 个叶绿素、28 个类胡萝卜素和其他辅助因子。三个必需的外在亚基（PsbO、PsbP 和 PsbQ）形成一个三角冠，保护 CP43 和 D1 的 Mn4CaO5 结合域。一个主要的三聚体和两个较小的单体 LHCII 与每个核心复合物单体结合，天线-核心相互作用通过三个小的内在亚基（PsbW、PsbH 和 PsbZ）得到加强。通过分析紧密相连的界面叶绿素，我们详细了解了天线和核心复合物之间的能量转移途径。

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菠菜光系统 II-LHCII 超级复合物的 3.2Å 分辨率结构。

Structure of spinach photosystem II-LHCII supercomplex at 3.2 Å resolution.

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