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标题：Compartmentalization of the protein repair machinery in photosynthetic membranes
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作者：Sujith Puthiyaveetil ; Onie Tsabari ; Troy Lowry 等
期刊名称：Proceedings of the National Academy of Sciences
印刷版ISSN：0027-8424
电子版ISSN：1091-6490
出版年度：2014
卷号：111
期号：44
页码：15839-15844
DOI：10.1073/pnas.1413739111
语种：English
出版社：The National Academy of Sciences of the United States of America
摘要：SignificanceThe fitness and robustness of plants crucially depend on the molecular repair of the vulnerable photosystem II (PS II) supercomplex, embedded in photosynthetic thylakoid membranes. To maintain photosynthetic performance, plants evolved an efficient multistep PS II repair cycle. The PS II repair cycle relies on a well-defined order of reactions and partial separation of individual repair steps. By combining biochemical, spectroscopic, and ultrastructural techniques, we discover that plants establish reaction order and separation by confinement of the enzymes that catalyze the individual steps to spatially separated thylakoid subcompartments--grana, grana margins, and stroma lamellae--formed by the stacked membranes. Structural flexibility of the thylakoid architecture allows controlled access of the damaged PS II by the repair machinery. A crucial component of protein homeostasis in cells is the repair of damaged proteins. The repair of oxygen-evolving photosystem II (PS II) supercomplexes in plant chloroplasts is a prime example of a very efficient repair process that evolved in response to the high vulnerability of PS II to photooxidative damage, exacerbated by high-light (HL) stress. Significant progress in recent years has unraveled individual components and steps that constitute the PS II repair machinery, which is embedded in the thylakoid membrane system inside chloroplasts. However, an open question is how a certain order of these repair steps is established and how unwanted back-reactions that jeopardize the repair efficiency are avoided. Here, we report that spatial separation of key enzymes involved in PS II repair is realized by subcompartmentalization of the thylakoid membrane, accomplished by the formation of stacked grana membranes. The spatial segregation of kinases, phosphatases, proteases, and ribosomes ensures a certain order of events with minimal mutual interference. The margins of the grana turn out to be the site of protein degradation, well separated from active PS II in grana core and de novo protein synthesis in unstacked stroma lamellae. Furthermore, HL induces a partial conversion of stacked grana core to grana margin, which leads to a controlled access of proteases to PS II. Our study suggests that the origin of grana in evolution ensures high repair efficiency, which is essential for PS II homeostasis.
关键词：photosynthesis ; photoinhibition ; PS II repair cycle ; thylakoid membrane ; grana margin