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本文引用的文献

1
The hetero-hexameric nature of a chloroplast AAA+ FtsH protease contributes to its thermodynamic stability.叶绿体 AAA+ FtsH 蛋白酶的杂六聚体性质有助于其热力学稳定性。
PLoS One. 2012;7(4):e36008. doi: 10.1371/journal.pone.0036008. Epub 2012 Apr 27.
2
3D Mapping of the SPRY2 domain of ryanodine receptor 1 by single-particle cryo-EM.利用单颗粒冷冻电镜技术对肌质网钙释放通道蛋白 1 的 SPRY2 结构域进行 3D 绘图。
PLoS One. 2011;6(10):e25813. doi: 10.1371/journal.pone.0025813. Epub 2011 Oct 5.
3
Electron cryomicroscopy structure of a membrane-anchored mitochondrial AAA protease.电子冷冻显微镜下观察到的膜锚定的线粒体 AAA 蛋白酶结构。
J Biol Chem. 2011 Feb 11;286(6):4404-11. doi: 10.1074/jbc.M110.158741. Epub 2010 Dec 8.
4
The FtsH protease heterocomplex in Arabidopsis: dispensability of type-B protease activity for proper chloroplast development.拟南芥 FtsH 蛋白酶杂合体:B 型蛋白酶活性对叶绿体正常发育并非必需。
Plant Cell. 2010 Nov;22(11):3710-25. doi: 10.1105/tpc.110.079202. Epub 2010 Nov 9.
5
Photoprotection in plants: a new light on photosystem II damage.植物的光保护:光合作用 II 损伤的新视角。
Trends Plant Sci. 2011 Jan;16(1):53-60. doi: 10.1016/j.tplants.2010.10.001. Epub 2010 Nov 1.
6
Possibilities of subunit localization with fluorescent protein tags and electron microscopy examplified by a cyanobacterial NDH-1 study.通过蓝细菌NDH-1研究举例说明利用荧光蛋白标签和电子显微镜进行亚基定位的可能性。
Biochim Biophys Acta. 2010 Sep;1797(9):1681-6. doi: 10.1016/j.bbabio.2010.06.004. Epub 2010 Jun 12.
7
Recent advances in understanding the assembly and repair of photosystem II.近年来,人们对光系统 II 的组装和修复的理解取得了进展。
Ann Bot. 2010 Jul;106(1):1-16. doi: 10.1093/aob/mcq059. Epub 2010 Mar 25.
8
Identification and characterization of high molecular weight complexes formed by matrix AAA proteases and prohibitins in mitochondria of Arabidopsis thaliana.鉴定和表征拟南芥线粒体基质 AAA 蛋白酶和抑制素形成的高分子量复合物。
J Biol Chem. 2010 Apr 23;285(17):12512-21. doi: 10.1074/jbc.M109.063644. Epub 2010 Feb 19.
9
The crystal structure of apo-FtsH reveals domain movements necessary for substrate unfolding and translocation.apo-FtsH 的晶体结构揭示了底物展开和易位所需的结构域运动。
Proc Natl Acad Sci U S A. 2009 Dec 22;106(51):21579-84. doi: 10.1073/pnas.0910708106. Epub 2009 Dec 2.
10
The variegated mutants lacking chloroplastic FtsHs are defective in D1 degradation and accumulate reactive oxygen species.缺失质体 FtsHs 的斑驳突变体在 D1 降解中存在缺陷,并积累活性氧。
Plant Physiol. 2009 Dec;151(4):1790-801. doi: 10.1104/pp.109.146589. Epub 2009 Sep 18.

集光复合体 II 修复相关的集胞藻异源寡聚类囊体 FtsH 复合物的亚基组成。

Subunit organization of a synechocystis hetero-oligomeric thylakoid FtsH complex involved in photosystem II repair.

机构信息

Division of Molecular Biosciences, Imperial College London, London SW7 2AZ, United Kingdom.

出版信息

Plant Cell. 2012 Sep;24(9):3669-83. doi: 10.1105/tpc.112.100891. Epub 2012 Sep 18.

DOI:10.1105/tpc.112.100891
PMID:22991268
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3480294/
Abstract

FtsH metalloproteases are key components of the photosystem II (PSII) repair cycle, which operates to maintain photosynthetic activity in the light. Despite their physiological importance, the structure and subunit composition of thylakoid FtsH complexes remain uncertain. Mutagenesis has previously revealed that the four FtsH homologs encoded by the cyanobacterium Synechocystis sp PCC 6803 are functionally different: FtsH1 and FtsH3 are required for cell viability, whereas FtsH2 and FtsH4 are dispensable. To gain insights into FtsH2, which is involved in selective D1 protein degradation during PSII repair, we used a strain of Synechocystis 6803 expressing a glutathione S-transferase (GST)-tagged derivative (FtsH2-GST) to isolate FtsH2-containing complexes. Biochemical analysis revealed that FtsH2-GST forms a hetero-oligomeric complex with FtsH3. FtsH2 also interacts with FtsH3 in the wild-type strain, and a mutant depleted in FtsH3, like ftsH2(-) mutants, displays impaired D1 degradation. FtsH3 also forms a separate heterocomplex with FtsH1, thus explaining why FtsH3 is more important than FtsH2 for cell viability. We investigated the structure of the isolated FtsH2-GST/FtsH3 complex using transmission electron microscopy and single-particle analysis. The three-dimensional structural model obtained at a resolution of 26 Å revealed that the complex is hexameric and consists of alternating FtsH2/FtsH3 subunits.

摘要

FtsH 金属蛋白酶是光系统 II(PSII)修复循环的关键组成部分,该循环的作用是维持光合作用在光下的活性。尽管它们具有生理重要性,但类囊体 FtsH 复合物的结构和亚基组成仍然不确定。突变体分析以前表明,蓝藻集胞藻 PCC 6803 编码的四个 FtsH 同源物在功能上是不同的:FtsH1 和 FtsH3 是细胞存活所必需的,而 FtsH2 和 FtsH4 则是可有可无的。为了深入了解 FtsH2,它参与 PSII 修复过程中选择性 D1 蛋白降解,我们使用表达谷胱甘肽 S-转移酶(GST)标记衍生物(FtsH2-GST)的集胞藻 6803 菌株来分离含有 FtsH2 的复合物。生化分析表明,FtsH2-GST 与 FtsH3 形成异源寡聚复合物。FtsH2 也与野生型菌株中的 FtsH3 相互作用,而像 ftsH2(-)突变体一样耗尽 FtsH3 的突变体显示出 D1 降解受损。FtsH3 还与 FtsH1 形成单独的异源复合物,这解释了为什么 FtsH3 比 FtsH2 对细胞活力更为重要。我们使用透射电子显微镜和单颗粒分析研究了分离的 FtsH2-GST/FtsH3 复合物的结构。在 26 Å 的分辨率下获得的三维结构模型表明,该复合物是六聚体,由交替的 FtsH2/FtsH3 亚基组成。