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拟南芥AGO4和AGO6在RNA介导的DNA甲基化中的特定但相互依赖的功能。

Specific but interdependent functions for Arabidopsis AGO4 and AGO6 in RNA-directed DNA methylation.

作者信息

Duan Cheng-Guo, Zhang Huiming, Tang Kai, Zhu Xiaohong, Qian Weiqiang, Hou Yueh-Ju, Wang Bangshing, Lang Zhaobo, Zhao Yang, Wang Xingang, Wang Pengcheng, Zhou Jianping, Liang Gaimei, Liu Na, Wang Chunguo, Zhu Jian-Kang

机构信息

Department of Horticulture and Landscape Architecture, Purdue University, West Lafayette, IN, USA.

Shanghai Center for Plant Stress Biology, Shanghai Institute of Biological Sciences Chinese Academy of Sciences, Shanghai, China.

出版信息

EMBO J. 2015 Mar 4;34(5):581-92. doi: 10.15252/embj.201489453. Epub 2014 Dec 19.

DOI:10.15252/embj.201489453
PMID:25527293
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4365029/
Abstract

Argonaute (AGO) family proteins are conserved key components of small RNA-induced silencing pathways. In the RNA-directed DNA methylation (RdDM) pathway in Arabidopsis, AGO6 is generally considered to be redundant with AGO4. In this report, our comprehensive, genomewide analyses of AGO4- and AGO6-dependent DNA methylation revealed that redundancy is unexpectedly negligible in the genetic interactions between AGO4 and AGO6. Immunofluorescence revealed that AGO4 and AGO6 differ in their subnuclear co-localization with RNA polymerases required for RdDM. Pol II and AGO6 are absent from perinucleolar foci, where Pol V and AGO4 are co-localized. In the nucleoplasm, AGO4 displays a strong co-localization with Pol II, whereas AGO6 co-localizes with Pol V. These patterns suggest that RdDM is mediated by distinct, spatially regulated combinations of AGO proteins and RNA polymerases. Consistently, Pol II physically interacts with AGO4 but not AGO6, and the levels of Pol V-dependent scaffold RNAs and Pol V chromatin occupancy are strongly correlated with AGO6 but not AGO4. Our results suggest that AGO4 and AGO6 mainly act sequentially in mediating small RNA-directed DNA methylation.

摘要

Argonaute(AGO)家族蛋白是小RNA诱导的沉默途径中保守的关键组分。在拟南芥的RNA指导的DNA甲基化(RdDM)途径中,AGO6通常被认为与AGO4功能冗余。在本报告中,我们对AGO4和AGO6依赖性DNA甲基化进行了全基因组范围的综合分析,结果显示,AGO4和AGO6之间的遗传相互作用中,冗余性出乎意料地可忽略不计。免疫荧光显示,AGO4和AGO6在与RdDM所需的RNA聚合酶的核内亚定位方面存在差异。核仁周围区域没有Pol II和AGO6,而Pol V和AGO4在该区域共定位。在核质中,AGO4与Pol II强烈共定位,而AGO6与Pol V共定位。这些模式表明,RdDM是由AGO蛋白和RNA聚合酶的不同空间调控组合介导的。一致地,Pol II与AGO4存在物理相互作用,但与AGO6没有,并且Pol V依赖性支架RNA的水平和Pol V染色质占有率与AGO6强烈相关,但与AGO4无关。我们的结果表明,AGO4和AGO6在介导小RNA指导的DNA甲基化中主要是顺序发挥作用。

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