在绵羊卵母细胞发生过程中，H3K9 三甲基化先于 DNA 甲基化：HDAC1、SUV39H1、G9a、HP1 和 Dnmts 参与了这些表观遗传事件。

H3K9 trimethylation precedes DNA methylation during sheep oogenesis: HDAC1, SUV39H1, G9a, HP1, and Dnmts are involved in these epigenetic events.

机构信息

Department of Comparative Biomedical Sciences, University of Teramo, Teramo, Italy.

出版信息

J Histochem Cytochem. 2013 Jan;61(1):75-89. doi: 10.1369/0022155412463923. Epub 2012 Sep 26.

DOI:10.1369/0022155412463923

PMID:23019017

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3534319/

Abstract

The oocyte, to become a fully mature gamete, has to acquire a correct pattern of DNA methylation on its genome; this epigenetic event represents the major point of the molecular mechanisms that occur during postnatal oogenesis. It is known that an intimate link exists between DNA methylation and histone posttranslational modifications, such as trimethylation of lysine 9 on histone 3 (H3K9me3), that is essential in the silencing of gene transcription. What remains unclear is the precise sequence of these two epigenetic events and the protein expression of the enzymes that catalyze this epigenetic maturation during oogenesis. To identify the key molecules involved in global DNA methylation and H3K9me3, a biological network-based computational model was realized. Then, the spatiotemporal distribution of the proteins, identified from the biological network, was assessed during postnatal oogenesis. The results obtained suggest the existence of a sequential cascade of events in which H3K9me3 is the primary step followed by DNA methylation. These two epigenetic marks are realized due to the recruitment of the HDAC1, SUV39H1, G9a, HP1, and Dnmt3a, which were always localized in the nuclei of the oocytes and were dependent on chromatin configuration. These results involving DNA methylation and H3K9me3 are crucial in defining the oocyte developmental competence.

摘要

卵母细胞要成为完全成熟的配子，必须在其基因组上获得正确的 DNA 甲基化模式；这种表观遗传事件代表了发生在后生卵发生过程中的分子机制的主要要点。已知 DNA 甲基化与组蛋白翻译后修饰（例如组蛋白 3 上赖氨酸 9 的三甲基化（H3K9me3））之间存在密切联系，这对于基因转录的沉默至关重要。尚不清楚这两个表观遗传事件的确切顺序以及在卵发生过程中催化这种表观遗传成熟的酶的蛋白表达。为了鉴定涉及全局 DNA 甲基化和 H3K9me3 的关键分子，实现了基于生物网络的计算模型。然后，评估了从生物网络中鉴定出的蛋白质在产后卵发生过程中的时空分布。所得结果表明存在一系列连续事件，其中 H3K9me3 是紧随其后的 DNA 甲基化的主要步骤。这两种表观遗传标记的实现是由于 HDAC1、SUV39H1、G9a、HP1 和 Dnmt3a 的募集，它们始终定位于卵母细胞的核中，并依赖于染色质构型。这些涉及 DNA 甲基化和 H3K9me3 的结果对于定义卵母细胞发育能力至关重要。

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