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真核生物中 DNA 甲基化的保守性与分化:单细胞分辨率 DNA 甲基组学的新见解。

Conservation and divergence of DNA methylation in eukaryotes: new insights from single base-resolution DNA methylomes.

机构信息

Department of Biomedical Informatics, Vanderbilt University School of Medicine, Nashville, TN USA.

出版信息

Epigenetics. 2011 Feb;6(2):134-40. doi: 10.4161/epi.6.2.13875. Epub 2011 Feb 1.

DOI:10.4161/epi.6.2.13875
PMID:20962593
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3278781/
Abstract

DNA methylation is one of the most important heritable epigenetic modifications of the genome and is involved in the regulation of many cellular processes. Aberrant DNA methylation has been frequently reported to influence gene expression and subsequently cause various human diseases, including cancer. Recent rapid advances in next-generation sequencing technologies have enabled investigators to profile genome methylation patterns at single-base resolution. Remarkably, more than 20 eukaryotic methylomes have been generated thus far, with a majority published since November 2009. Analysis of this vast amount of data has dramatically enriched our knowledge of biological function, conservation and divergence of DNA methylation in eukaryotes. Even so, many specific functions of DNA methylation and their underlying regulatory systems still remain unknown to us. Here, we briefly introduce current approaches for DNA methylation profiling and then systematically review the features of whole genome DNA methylation patterns in eight animals, six plants and five fungi. Our systematic comparison provides new insights into the conservation and divergence of DNA methylation in eukaryotes and their regulation of gene expression. This work aims to summarize the current state of available methylome data and features informatively.

摘要

DNA 甲基化是基因组中最重要的可遗传表观遗传修饰之一,参与许多细胞过程的调控。异常的 DNA 甲基化已被频繁报道会影响基因表达,进而导致包括癌症在内的多种人类疾病。最近,下一代测序技术的快速发展使研究人员能够以单碱基分辨率描绘基因组甲基化模式。值得注意的是,迄今为止已经生成了 20 多个真核生物甲基组,其中大多数是自 2009 年 11 月以来发表的。对这些大量数据的分析极大地丰富了我们对 DNA 甲基化在真核生物中的生物学功能、保守性和分化的认识。即便如此,DNA 甲基化的许多特定功能及其潜在的调控系统仍然不为我们所知。在这里,我们简要介绍当前的 DNA 甲基化分析方法,然后系统地综述了八种动物、六种植物和五种真菌的全基因组 DNA 甲基化模式的特征。我们的系统比较为真核生物中 DNA 甲基化的保守性和分化及其对基因表达的调控提供了新的见解。这项工作旨在总结当前可用甲基组数据的状态,并提供有意义的信息。

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