Readers, writers and erasers of <ce:italic>N</ce:italic> <ce:sup loc='post'>6</ce:sup>-methylated adenosine modification

Baixing Wu; Li Li; Ying Huang; Jinbiao Ma; Jinrong Min

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Readers, writers and erasers of N 6-methylated adenosine modification

机译： n 6 - 甲基化腺苷修饰

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?The highly dynamic landscape of reversible m6A modifications on internal sites of RNAs contributes to the complexity of epitranscriptome.

?Crystal structures of m6A writers and erasers shed lights on the mechanisms that dictate the mark’s reversibility.

?A conversed aromatic cage in YTH domain is key to the recognition and regulation of the m6A mark by ‘reader’ proteins.

N6-methyladenosine (m6A) as the most prevalent internal modification in mammalian RNAs has been increasingly realized as an important reversible mark that participates in various biological processes and cancer pathogenesis. In this review, we discuss the catalytic mechanisms of MT-A70 domain family proteins for mediating adenosineN6-methylation, the removal of this RNA mark by members of ALKB homologue domain family proteins, and the recognition of these m

机译：<！[cdata [

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？可逆m 6 内部站点的修改RNA的贡献有助于epitrAstarkome的复杂性。

？ m 6 一个编写者和橡皮擦闪烁着决定标记的可逆性的机制。

？ yth域中的交谈芳香笼是evermiti的关键M 6 由“读者”蛋白的标记的调节。

n 6 -methyladenosine（m 6 a）作为哺乳动物RNA中最普遍的内部修改已经越来越地实现为参与各种生物过程和癌症发病机制的重要可逆标记。在本文中，我们讨论MT-A70结构域蛋白的催化机制用于介导腺苷 n 6 -methylation ，通过ALKB同源域家族蛋白的成员去除该RNA标记，并识别这些M

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《Current Opinion in Structural Biology》 |2017年第2017期|共10页
作者
Baixing Wu; Li Li; Ying Huang; Jinbiao Ma; Jinrong Min;
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作者单位

State Key Laboratory of Genetic Engineering Collaborative Innovation Centre of Genetics and Development Department of Biochemistry Institute of Plant Biology School of Life Sciences Fudan University;

Structural Genomics Consortium University of Toronto;

State Key Laboratory of Molecular Biology National Center for Protein Science Shanghai Shanghai Science Research Center CAS Center for Excellence in Molecular Cell Science Shanghai Institute of Biochemistry and Cell Biology Chinese Academy of Science;

State Key Laboratory of Genetic Engineering Collaborative Innovation Centre of Genetics and Development Department of Biochemistry Institute of Plant Biology School of Life Sciences Fudan University;

Structural Genomics Consortium University of Toronto;

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中图分类分子生物学;
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Readers, writers and erasers of N 6-methylated adenosine modification

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