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人类组织特异性差异甲基化区域(TDMs)的分析。

Analysis of tissue-specific differentially methylated regions (TDMs) in humans.

作者信息

Kitamura Eiko, Igarashi Jun, Morohashi Aiko, Hida Naoko, Oinuma Toshinori, Nemoto Norimichi, Song Fei, Ghosh Srimoyee, Held William A, Yoshida-Noro Chikako, Nagase Hiroki

机构信息

Life Science, Advanced Research Institute for the Sciences and Humanities, Nihon University School of Medicine, Tokyo 173-8610, Japan.

出版信息

Genomics. 2007 Mar;89(3):326-37. doi: 10.1016/j.ygeno.2006.11.006. Epub 2006 Dec 26.

DOI:10.1016/j.ygeno.2006.11.006
PMID:17188838
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1847344/
Abstract

Alterations in DNA methylation have been implicated in mammalian development. Hence, the identification of tissue-specific differentially methylated regions (TDMs) is indispensable for understanding its role. Using restriction landmark genomic scanning of six mouse tissues, 150 putative TDMs were identified and 14 were further analyzed. The DNA sequences of the 14 mouse TDMs are analyzed in this study. Six of the human homologous regions show TDMs to both mouse and human and genes in five of these regions have conserved tissue-specific expression: preferential expression in testis. A TDM, DDX4, is further analyzed in nine testis tissues. An increase in methylation of the promoter region is significantly associated with a marked reduction of the gene expression and defects in spermatogenesis, suggesting that hypomethylation of the DDX4 promoter region regulates DDX4 gene expression in spermatogenic cells. Our results indicate that some genomic regions with tissue-specific methylation and expression are conserved between mouse and human and suggest that DNA methylation may have an important role in regulating differentiation and tissue-/cell-specific gene expression of some genes.

摘要

DNA甲基化的改变与哺乳动物发育有关。因此,鉴定组织特异性差异甲基化区域(TDMs)对于理解其作用必不可少。通过对六种小鼠组织进行限制性内切酶基因组扫描,鉴定出150个推定的TDMs,并对其中14个进行了进一步分析。本研究分析了这14个小鼠TDMs的DNA序列。其中六个人类同源区域在小鼠和人类中均显示为TDMs,并且这些区域中的五个区域的基因具有保守的组织特异性表达:在睾丸中优先表达。在九个睾丸组织中对一个TDM,即DDX4进行了进一步分析。启动子区域甲基化的增加与基因表达的显著降低和精子发生缺陷显著相关,这表明DDX4启动子区域的低甲基化调节生精细胞中的DDX4基因表达。我们的结果表明,一些具有组织特异性甲基化和表达的基因组区域在小鼠和人类之间是保守的,并表明DNA甲基化可能在调节某些基因的分化和组织/细胞特异性基因表达中起重要作用。

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