通过理论建模揭示的植物光系统I的结构

Structure of plant photosystem I revealed by theoretical modeling.

作者信息

Jolley Craig, Ben-Shem Adam, Nelson Nathan, Fromme Petra

机构信息

Department of Physics and Astronomy, Arizona State University, Tempe, Arizona 85281-1504, USA.

出版信息

J Biol Chem. 2005 Sep 30;280(39):33627-36. doi: 10.1074/jbc.M500937200. Epub 2005 Jun 14.

DOI:10.1074/jbc.M500937200

PMID:15955818

Abstract

Photosystem (PS) I is a large membrane protein complex vital for oxygenic photosynthesis, one of the most important biological processes on the planet. We present an "atomic" model of higher plant PSI, based on theoretical modeling using the recent 4.4 angstroms x-ray crystal structure of PSI from pea. Because of the lack of information on the amino acid side chains in the x-ray structural model and the high cofactor content in this system, novel modeling techniques were developed. Our model reveals some important structural features of plant PSI that were not visible in the crystal structure, and our model sheds light on the evolutionary relationship between plant and cyanobacterial PSI.

摘要

光系统I（PS I）是一种大型膜蛋白复合体，对产氧光合作用至关重要，而产氧光合作用是地球上最重要的生物过程之一。我们基于对豌豆光系统I最近4.4埃的X射线晶体结构进行理论建模，提出了高等植物光系统I的“原子”模型。由于X射线结构模型中缺乏氨基酸侧链信息以及该系统中辅因子含量较高，因此开发了新颖的建模技术。我们的模型揭示了植物光系统I一些在晶体结构中不可见的重要结构特征，并且为植物和蓝细菌光系统I之间的进化关系提供了线索。

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通过理论建模揭示的植物光系统I的结构

Structure of plant photosystem I revealed by theoretical modeling.

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