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拟南芥VIM蛋白通过与MET1协同调节DNA甲基化和组蛋白修饰来调控表观遗传沉默。

Arabidopsis VIM proteins regulate epigenetic silencing by modulating DNA methylation and histone modification in cooperation with MET1.

作者信息

Kim Jeongsik, Kim Jin Hee, Richards Eric J, Chung Kyung Min, Woo Hye Ryun

机构信息

Center for Plant Aging Research, Institute for Basic Science (IBS), Daegu Gyeongbuk Institute of Science & Technology (DGIST), Daegu 711-873, Republic of Korea.

Boyce Thompson Institute for Plant Research, 533 Tower Road, Ithaca, NY 14853, USA.

出版信息

Mol Plant. 2014 Sep;7(9):1470-1485. doi: 10.1093/mp/ssu079. Epub 2014 Jul 9.

DOI:10.1093/mp/ssu079
PMID:25009302
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4207863/
Abstract

Methylcytosine-binding proteins containing SRA (SET- and RING-Associated) domain are required for the establishment and/or maintenance of DNA methylation in both plants and animals. We previously proposed that Arabidopsis VIM/ORTH proteins with an SRA domain maintain DNA methylation and epigenetic gene silencing in heterochromatic regions. However, their endogenous targets of epigenetic gene silencing have not been analyzed globally and the mechanisms by which VIM proteins coordinate DNA methylation and epigenetic silencing are largely unknown. In this study, a genome-wide transcript profiling analysis revealed 544 derepressed genes in a vim1/2/3 triple mutant, including 133 known genes. VIM1 bound to promoter and transcribed regions of the up-regulated genes in vim1/2/3 and VIM deficiency caused severe DNA hypomethylation in all sequence contexts at direct VIM1 targets. We found a drastic loss of H3K9me2 at heterochromatic chromocenters in vim1/2/3 nuclei. Furthermore, aberrant changes in transcriptionally active and repressive histone modifications were observed at VIM1 targets in vim1/2/3. VIM1-binding capacity to target genes was significantly reduced in the met1 background, indicating that VIM1 primarily recognizes CG methylation deposited by MET1. Overall, our data indicate that VIM proteins regulate genome-wide epigenetic gene silencing through coordinated modulation of DNA methylation and histone modification status in collaboration with MET1.

摘要

含有SRA(SET和RING相关)结构域的甲基胞嘧啶结合蛋白对于植物和动物中DNA甲基化的建立和/或维持都是必需的。我们之前提出,具有SRA结构域的拟南芥VIM/ORTH蛋白在异染色质区域维持DNA甲基化和表观遗传基因沉默。然而,它们表观遗传基因沉默的内源性靶点尚未进行全面分析,并且VIM蛋白协调DNA甲基化和表观遗传沉默的机制在很大程度上仍然未知。在这项研究中,全基因组转录谱分析揭示了vim1/2/3三突变体中有544个去抑制基因,包括133个已知基因。VIM1与vim1/2/3中上调基因的启动子和转录区域结合,并且VIM缺陷导致其直接靶点在所有序列背景下都出现严重的DNA低甲基化。我们发现在vim1/2/3细胞核的异染色质着丝粒处H3K9me2急剧减少。此外,在vim1/2/3的VIM1靶点处观察到转录活性和抑制性组蛋白修饰的异常变化。在met1背景下,VIM1与靶基因的结合能力显著降低,表明VIM1主要识别由MET1沉积的CG甲基化。总体而言,我们的数据表明,VIM蛋白通过与MET1协作协调DNA甲基化和组蛋白修饰状态来调节全基因组的表观遗传基因沉默。

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