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热休克依赖的寡聚状态改变了一种植物特异性类硫氧还蛋白AtTDX的功能。

Heat-shock dependent oligomeric status alters the function of a plant-specific thioredoxin-like protein, AtTDX.

作者信息

Lee Jung Ro, Lee Seung Sik, Jang Ho Hee, Lee Young Mee, Park Jin Ho, Park Seong-Cheol, Moon Jeong Chan, Park Soo Kwon, Kim Sun Young, Lee Sun Yong, Chae Ho Byoung, Jung Young Jun, Kim Woe Yeon, Shin Mi Rim, Cheong Gang-Won, Kim Min Gab, Kang Kee Ryeon, Lee Kyun Oh, Yun Dae-Jin, Lee Sang Yeol

机构信息

Environmental Biotechnology National Core Research Center, Division of Applied Life Sciences, Gyeongsang National University, Jinju 660-701, Korea.

出版信息

Proc Natl Acad Sci U S A. 2009 Apr 7;106(14):5978-83. doi: 10.1073/pnas.0811231106. Epub 2009 Mar 17.

DOI:10.1073/pnas.0811231106
PMID:19293385
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2667072/
Abstract

We found that Arabidopsis AtTDX, a heat-stable and plant-specific thioredoxin (Trx)-like protein, exhibits multiple functions, acting as a disulfide reductase, foldase chaperone, and holdase chaperone. The activity of AtTDX, which contains 3 tetratricopeptide repeat (TPR) domains and a Trx motif, depends on its oligomeric status. The disulfide reductase and foldase chaperone functions predominate when AtTDX occurs in the low molecular weight (LMW) form, whereas the holdase chaperone function predominates in the high molecular weight (HMW) complexes. Because deletion of the TPR domains results in a significant enhancement of AtTDX disulfide reductase activity and complete loss of the holdase chaperone function, our data suggest that the TPR domains of AtTDX block the active site of Trx and play a critical role in promoting the holdase chaperone function. The oligomerization status of AtTDX is reversibly regulated by heat shock, which causes a transition from LMW to HMW complexes with concomitant functional switching from a disulfide reductase and foldase chaperone to a holdase chaperone. Overexpression of AtTDX in Arabidopsis conferred enhanced heat shock resistance to plants, primarily via its holdase chaperone activity.

摘要

我们发现,拟南芥AtTDX是一种热稳定且植物特有的类硫氧还蛋白(Trx),具有多种功能,可作为二硫键还原酶、折叠酶伴侣和分子伴侣。AtTDX含有3个四肽重复序列(TPR)结构域和一个Trx基序,其活性取决于其寡聚状态。当AtTDX以低分子量(LMW)形式存在时,二硫键还原酶和折叠酶伴侣功能占主导,而分子伴侣功能在高分子量(HMW)复合物中占主导。由于TPR结构域的缺失导致AtTDX二硫键还原酶活性显著增强,且分子伴侣功能完全丧失,我们的数据表明,AtTDX的TPR结构域阻断了Trx的活性位点,并在促进分子伴侣功能中起关键作用。AtTDX的寡聚状态受热激可逆调节,热激导致从LMW复合物转变为HMW复合物,同时功能从二硫键还原酶和折叠酶伴侣转变为分子伴侣。在拟南芥中过表达AtTDX可增强植物的热激抗性,主要是通过其分子伴侣活性实现的。

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