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拟南芥基因组中的DNA去甲基化

DNA demethylation in the Arabidopsis genome.

作者信息

Penterman Jon, Zilberman Daniel, Huh Jin Hoe, Ballinger Tracy, Henikoff Steven, Fischer Robert L

机构信息

Department of Plant and Microbial Biology, University of California, Berkeley, CA 94720, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 Apr 17;104(16):6752-7. doi: 10.1073/pnas.0701861104. Epub 2007 Apr 4.

DOI:10.1073/pnas.0701861104
PMID:17409185
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1847597/
Abstract

Cytosine DNA methylation is considered to be a stable epigenetic mark, but active demethylation has been observed in both plants and animals. In Arabidopsis thaliana, DNA glycosylases of the DEMETER (DME) family remove methylcytosines from DNA. Demethylation by DME is necessary for genomic imprinting, and demethylation by a related protein, REPRESSOR OF SILENCING1, prevents gene silencing in a transgenic background. However, the extent and function of demethylation by DEMETER-LIKE (DML) proteins in WT plants is not known. Using genome-tiling microarrays, we mapped DNA methylation in mutant and WT plants and identified 179 loci actively demethylated by DML enzymes. Mutations in DML genes lead to locus-specific DNA hypermethylation. Reintroducing WT DML genes restores most loci to the normal pattern of methylation, although at some loci, hypermethylated epialleles persist. Of loci demethylated by DML enzymes, >80% are near or overlap genes. Genic demethylation by DML enzymes primarily occurs at the 5' and 3' ends, a pattern opposite to the overall distribution of WT DNA methylation. Our results show that demethylation by DML DNA glycosylases edits the patterns of DNA methylation within the Arabidopsis genome to protect genes from potentially deleterious methylation.

摘要

胞嘧啶DNA甲基化被认为是一种稳定的表观遗传标记,但在植物和动物中均观察到了主动去甲基化现象。在拟南芥中,DEMETER(DME)家族的DNA糖基化酶可从DNA上去除甲基胞嘧啶。DME介导的去甲基化对于基因组印记是必需的,而一种相关蛋白SILENCING1的阻遏物介导的去甲基化可在转基因背景下防止基因沉默。然而,野生型(WT)植物中类DEMETER(DML)蛋白介导的去甲基化程度和功能尚不清楚。我们使用全基因组平铺微阵列,绘制了突变体和野生型植物中的DNA甲基化图谱,并鉴定出179个被DML酶主动去甲基化的位点。DML基因突变会导致位点特异性的DNA高甲基化。重新引入野生型DML基因可使大多数位点恢复到正常的甲基化模式,不过在某些位点,高甲基化的表观等位基因仍然存在。在被DML酶去甲基化的位点中,超过80%位于基因附近或与基因重叠。DML酶介导的基因去甲基化主要发生在5'端和3'端,这一模式与野生型DNA甲基化的整体分布相反。我们的结果表明,DML DNA糖基化酶介导的去甲基化可编辑拟南芥基因组内的DNA甲基化模式,以保护基因免受潜在有害的甲基化影响。

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