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DNA 中腺嘌呤甲基化的方式、机制和后果。

Means, mechanisms and consequences of adenine methylation in DNA.

机构信息

Division of Newborn Medicine, Boston Children's Hospital, Boston, MA, USA.

Department of Pediatrics, Harvard Medical School, Boston, MA, USA.

出版信息

Nat Rev Genet. 2022 Jul;23(7):411-428. doi: 10.1038/s41576-022-00456-x. Epub 2022 Mar 7.

DOI:10.1038/s41576-022-00456-x
PMID:35256817
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9354840/
Abstract

N-methyl-2'-deoxyadenosine (6mA or mdA) has been reported in the DNA of prokaryotes and eukaryotes ranging from unicellular protozoa and algae to multicellular plants and mammals. It has been proposed to modulate DNA structure and transcription, transmit information across generations and have a role in disease, among other functions. However, its existence in more recently evolved eukaryotes remains a topic of debate. Recent technological advancements have facilitated the identification and quantification of 6mA even when the modification is exceptionally rare, but each approach has limitations. Critical assessment of existing data, rigorous design of future studies and further development of methods will be required to confirm the presence and biological functions of 6mA in multicellular eukaryotes.

摘要

N-甲基-2'-脱氧腺苷(6mA 或 mdA)已在原核生物和真核生物的 DNA 中被报道,范围从单细胞原生动物和藻类到多细胞植物和哺乳动物。它被认为可以调节 DNA 结构和转录,在代际间传递信息,在疾病中发挥作用等。然而,它在进化程度更高的真核生物中的存在仍然是一个有争议的话题。最近的技术进步使得即使在修饰非常罕见的情况下,也能够鉴定和定量 6mA,但每种方法都有其局限性。为了确认 6mA 在多细胞真核生物中的存在和生物学功能,需要对现有数据进行严格评估,对未来研究进行严格设计,并进一步开发方法。

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