徐炳祥
(2023-05-29 09:11):
#paper doi: 10.1073/pnas.2023347118 PNAS, 2021, DNA methylation-linked chromatin accessibility affects genomic architecture in Arabidopsis。DNA甲基化是重要的表观遗传调控维度,CpG岛甲基化水平的改变对基因表达起了重要的调控作用。然而DNA甲基化和表观遗传的其他维度之间的关系研究尚十分缺乏。本文通过对具有不同DNA甲基转移酶活性的拟南芥品系进行染色质开放性图谱和染色质空间构象图谱的测定和比较,对此问题进行了研究。结果显示,低DNA甲基化确实与染色质开放和染色质区室从B向A的转换有关。该研究是目前仅有的几项DNA甲基化与染色质空间构象直接关联的研究,但不同品系的相互比较仍不能说明二者之间是否以及具有何种因果关系。
IF:9.400Q1
Proceedings of the National Academy of Sciences of the United States of America,
2021-02-02.
DOI: 10.1073/pnas.2023347118
PMID: 33495321
DNA methylation-linked chromatin accessibility affects genomic architecture in Arabidopsis
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Abstract:
DNA methylation is a major epigenetic modification found across species and has a profound impact on many biological processes. However, its influence on chromatin accessibility and higher-order genome organization remains unclear, particularly in plants. Here, we present genome-wide chromatin accessibility profiles of 18 mutants that are deficient in CG, CHG, or CHH DNA methylation. We find that DNA methylation in all three sequence contexts impacts chromatin accessibility in heterochromatin. Many chromatin regions maintain inaccessibility when DNA methylation is lost in only one or two sequence contexts, and signatures of accessibility are particularly affected when DNA methylation is reduced in all contexts, suggesting an interplay between different types of DNA methylation. In addition, we found that increased chromatin accessibility was not always accompanied by increased transcription, suggesting that DNA methylation can directly impact chromatin structure by other mechanisms. We also observed that an increase in chromatin accessibility was accompanied by enhanced long-range chromatin interactions. Together, these results provide a valuable resource for chromatin architecture and DNA methylation analyses and uncover a pivotal role for methylation in the maintenance of heterochromatin inaccessibility.
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