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蛋白质结合决定DNA去甲基化位点的证据。

Evidence that protein binding specifies sites of DNA demethylation.

作者信息

Hsieh C L

机构信息

Department of Urology and Department of Biochemistry and Molecular Biology, University of Southern California, Los Angeles, California 90033, USA.

出版信息

Mol Cell Biol. 1999 Jan;19(1):46-56. doi: 10.1128/MCB.19.1.46.

DOI:10.1128/MCB.19.1.46
PMID:9858530
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC83864/
Abstract

It has been hypothesized that protein factors may protect CpG islands from methyltransferase during development and that demethylation may involve protein-DNA interactions at demethylated sites. However, direct evidence has been lacking. In this study, demethylation at the EBNA-1 binding sites of the Epstein-Barr virus latent replication origin, oriP, was investigated by using human cells. Several novel findings are discussed. First, there are specific preferential demethylation sites within the oriP region. Second, the DNA sequence of oriP alone is not the target of an active demethylation process. Third, EBNA-1 binding is required for the site-specific demethylation in oriP. Interestingly, CpG sites adjacent to and between the EBNA-1 sites do not become demethylated. Fourth, demethylation of the first DNA strand in oriP at the EBNA-1 binding sites involves a passive (replication-dependent) mechanism. The second-strand demethylation appears to occur through an active mechanism. That is, EBNA-1 protein binding prevents the EBNA-1 binding sites from being remethylated after one round of DNA replication, and it appears that an active demethylase then demethylates these hemimethylated sites. This study provides clear evidence that protein binding specifies sites of DNA demethylation and provides insights into the sequence of steps and the mechanism of demethylation.

摘要

据推测,在发育过程中蛋白质因子可能保护CpG岛免受甲基转移酶的作用,并且去甲基化可能涉及去甲基化位点处的蛋白质 - DNA相互作用。然而,一直缺乏直接证据。在本研究中,通过使用人类细胞研究了爱泼斯坦 - 巴尔病毒潜伏复制起点oriP的EBNA - 1结合位点处的去甲基化情况。讨论了几个新发现。首先,oriP区域内存在特定的优先去甲基化位点。其次,单独的oriP的DNA序列不是活跃去甲基化过程的靶点。第三,oriP中的位点特异性去甲基化需要EBNA - 1结合。有趣的是,EBNA - 1位点相邻和之间的CpG位点不会去甲基化。第四,oriP中EBNA - 1结合位点处的第一条DNA链的去甲基化涉及一种被动(复制依赖性)机制。第二条链的去甲基化似乎通过一种活跃机制发生。也就是说,EBNA - 1蛋白结合可防止EBNA - 1结合位点在一轮DNA复制后重新甲基化,并且似乎有一种活跃的去甲基化酶随后使这些半甲基化位点去甲基化。本研究提供了明确的证据,即蛋白质结合确定了DNA去甲基化的位点,并深入了解了去甲基化的步骤顺序和机制。

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