CG 二核苷酸可增强启动子活性，而与 DNA 甲基化无关。

CG dinucleotides enhance promoter activity independent of DNA methylation.

机构信息

Friedrich Miescher Institute for Biomedical Research, CH 4058 Basel, Switzerland.

Faculty of Sciences, University of Basel, CH 4003 Basel, Switzerland.

出版信息

Genome Res. 2019 Apr;29(4):554-563. doi: 10.1101/gr.241653.118. Epub 2019 Feb 1.

DOI:10.1101/gr.241653.118

PMID:30709850

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6442381/

Abstract

Most mammalian RNA polymerase II initiation events occur at CpG islands, which are rich in CpGs and devoid of DNA methylation. Despite their relevance for gene regulation, it is unknown to what extent the CpG dinucleotide itself actually contributes to promoter activity. To address this question, we determined the transcriptional activity of a large number of chromosomally integrated promoter constructs and monitored binding of transcription factors assumed to play a role in CpG island activity. This revealed that CpG density significantly improves motif-based prediction of transcription factor binding. Our experiments also show that high CpG density alone is insufficient for transcriptional activity, yet results in increased transcriptional output when combined with particular transcription factor motifs. However, this CpG contribution to promoter activity is independent of DNA methyltransferase activity. Together, this refines our understanding of mammalian promoter regulation as it shows that high CpG density within CpG islands directly contributes to an environment permissive for full transcriptional activity.

摘要

大多数哺乳动物 RNA 聚合酶 II 起始事件发生在富含 CpG 且无 DNA 甲基化的 CpG 岛。尽管它们与基因调控有关，但 CpG 二核苷酸本身对启动子活性的贡献程度尚不清楚。为了解决这个问题，我们确定了大量染色体整合启动子构建体的转录活性，并监测了假定在 CpG 岛活性中发挥作用的转录因子的结合。这表明 CpG 密度显着提高了基于基序的转录因子结合预测。我们的实验还表明，高 CpG 密度本身不足以实现转录活性，但与特定转录因子基序结合时会导致转录输出增加。然而，CpG 对启动子活性的这种贡献与 DNA 甲基转移酶活性无关。总的来说，这完善了我们对哺乳动物启动子调控的理解，因为它表明 CpG 岛中的高 CpG 密度直接有助于允许完全转录活性的环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/70cb/6442381/c0954e100626/554f01.jpg

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CG 二核苷酸可增强启动子活性，而与 DNA 甲基化无关。

CG dinucleotides enhance promoter activity independent of DNA methylation.

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