启动子相关的转录元件的表观遗传沉默是由 RDR6 和 21-22 核苷酸的小干扰 RNA 触发的。

The initiation of epigenetic silencing of active transposable elements is triggered by RDR6 and 21-22 nucleotide small interfering RNAs.

机构信息

Department of Molecular Genetics, The Ohio State University, Columbus, Ohio 43210, USA.

出版信息

Plant Physiol. 2013 May;162(1):116-31. doi: 10.1104/pp.113.216481. Epub 2013 Mar 29.

DOI:10.1104/pp.113.216481

PMID:23542151

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3641197/

Abstract

Transposable elements (TEs) are mobile fragments of DNA that are repressed in both plant and animal genomes through the epigenetic inheritance of repressed chromatin and expression states. The epigenetic silencing of TEs in plants is mediated by a process of RNA-directed DNA methylation (RdDM). Two pathways of RdDM have been identified: RNA Polymerase IV (Pol IV)-RdDM, which has been shown to be responsible for the de novo initiation, corrective reestablishment, and epigenetic maintenance of TE and/or transgene silencing; and RNA-dependent RNA Polymerase6 (RDR6)-RdDM, which was recently identified as necessary for maintaining repression for a few TEs. We have further characterized RDR6-RdDM using a genome-wide search to identify TEs that generate RDR6-dependent small interfering RNAs. We have determined that TEs only produce RDR6-dependent small interfering RNAs when transcriptionally active, and we have experimentally identified two TE subfamilies as direct targets of RDR6-RdDM. We used these TEs to test the function of RDR6-RdDM in assays for the de novo initiation, corrective reestablishment, and maintenance of TE silencing. We found that RDR6-RdDM plays no role in maintaining TE silencing. Rather, we found that RDR6 and Pol IV are two independent entry points into RdDM and epigenetic silencing that perform distinct functions in the silencing of TEs: Pol IV-RdDM functions to maintain TE silencing and to initiate silencing in an RNA Polymerase II expression-independent manner, while RDR6-RdDM functions to recognize active Polymerase II-derived TE mRNA transcripts to both trigger and correctively reestablish TE methylation and epigenetic silencing.

摘要

转座元件 (TEs) 是 DNA 的可移动片段，通过抑制染色质和表达状态的表观遗传遗传在动植物基因组中受到抑制。植物中 TEs 的表观遗传沉默是由 RNA 指导的 DNA 甲基化 (RdDM) 过程介导的。已经确定了两种 RdDM 途径：RNA 聚合酶 IV (Pol IV)-RdDM，已被证明负责 TE 和/或转基因沉默的从头起始、纠正重建和表观遗传维持；以及 RNA 依赖性 RNA 聚合酶 6 (RDR6)-RdDM，最近被确定为维持少数 TEs 抑制所必需的。我们使用全基因组搜索进一步表征了 RDR6-RdDM，以鉴定产生 RDR6 依赖性小干扰 RNA 的 TEs。我们已经确定，TE 只有在转录活跃时才会产生 RDR6 依赖性小干扰 RNA，并且我们已经通过实验鉴定了两个 TE 亚家族作为 RDR6-RdDM 的直接靶标。我们使用这些 TE 来测试 RDR6-RdDM 在 TE 沉默的从头起始、纠正重建和维持测定中的功能。我们发现 RDR6-RdDM 在维持 TE 沉默方面没有作用。相反，我们发现 RDR6 和 Pol IV 是 RdDM 和表观遗传沉默的两个独立切入点，它们在 TE 的沉默中发挥不同的功能：Pol IV-RdDM 功能是维持 TE 沉默并以 RNA 聚合酶 II 表达独立的方式起始沉默，而 RDR6-RdDM 功能是识别活跃的 Polymerase II 衍生的 TE mRNA 转录本，以触发和纠正重建 TE 甲基化和表观遗传沉默。

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