Structure of METTL3-METTL14 with an m6A nucleotide reveals insights into m6A conversion and sensing.

Shan Qi, Abhay Kumar, Shuang Chen, Shuo Zhou, Manish Parihar, Carmen Villalobos, Navom Gupta, Siu-Hong Chan, Manjeet K Rao, Stanton F McHardy, Shozeb Haider, Yogesh K Gupta
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Abstract

The nuclear METTL3-METTL14 transfers a methyl group from SAM to convert the N 6 of adenosine (A) in RNA to m6A and in ssDNA to 6mA. m6A marks are prevalent in eukaryotic mRNAs and lncRNAs and modulate their stability and fate in a context-dependent manner. The cytoplasmic METTL3 can act as a m6A reader. However, the precise mechanism during m6A writing, reading, or sensing is unclear. Here, we present a ~2.5 Å structure of the methyltransferase core of human METTL3-METTL14 in complex with the reaction product mimic, N 6 -methyladenosine monophosphate (m6A), representing a state post-catalysis but before the release of m6A. m6A occupies an evolutionarily conserved RNA-binding pocket ~16 Å away from the SAM pocket that also frequently mutates in cancer. We propose a two-step model of swiveling of target A upon conversion to m6A and sensing its methylation status by this pocket, enabling it to actuate enzymes' switch from writer to an m6A-sensor. Cancer-associated mutations show impaired RNA binding dynamics, de-stacking, and defective m6A writing and sensing.

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METTL3-METTL14中的一个神秘口袋调节m6A的转换和传感。
核METTL3-METTL14酶复合物将甲基从S-腺苷-L-蛋氨酸(SAM)转移到RNA中腺苷(a)碱基的N6氨基,以将其转化为m6A,并在ssDNA中转化为6mA。m6A标记在真核信使核糖核酸和lncRNA中普遍存在,并以上下文依赖的方式调节其稳定性和命运。细胞质METTL3可以作为m6A读取器来调节mRNA翻译。然而,驱动从m6A写入器到读取器/传感器的开关的确切机制尚不清楚。在这里,我们展示了人METTL3-METTL14的甲基转移酶核心与反应产物N6-甲基腺苷一磷酸(m6A)的复合物的~2.5Å晶体结构,代表催化后但释放m6A之前的状态。m6A在METTL3-METTL14中占据一个新的进化保守的隐袋,位于距离癌症中频繁突变的SAM袋约16Å的位置。我们提出了一个两步模型,即靶a在转化为m6A时旋转,并通过隐袋检测其甲基化状态,使其能够启动酶从写入器切换到m6A传感器。癌症相关突变无法区分甲基化和非甲基化腺嘌呤,并显示RNA结合受损、去标记和m6A书写和感知缺陷。
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