Literature DB >> 32341503

A metabolic labeling method detects m6A transcriptome-wide at single base resolution.

Xiao Shu1, Jie Cao1, Mohan Cheng1, Siying Xiang1, Minsong Gao1, Ting Li1, Xiner Ying1, Fengqin Wang2, Yanan Yue1, Zhike Lu3, Qing Dai4, Xiaolong Cui4, Lijia Ma3, Yizhen Wang2, Chuan He4, Xinhua Feng5, Jianzhao Liu6,7.   

Abstract

Transcriptome-wide mapping of N6-methyladenosine (m6A) at base resolution remains an issue, impeding our understanding of m6A roles at the nucleotide level. Here, we report a metabolic labeling method to detect mRNA m6A transcriptome-wide at base resolution, called 'm6A-label-seq'. Human and mouse cells could be fed with a methionine analog, Se-allyl-L-selenohomocysteine, which substitutes the methyl group on the enzyme cofactor SAM with the allyl. Cellular RNAs could therefore be metabolically modified with N6-allyladenosine (a6A) at supposed m6A-generating adenosine sites. We pinpointed the mRNA a6A locations based on iodination-induced misincorporation at the opposite site in complementary DNA during reverse transcription. We identified a few thousand mRNA m6A sites in human HeLa, HEK293T and mouse H2.35 cells, carried out a parallel comparison of m6A-label-seq with available m6A sequencing methods, and validated selected sites by an orthogonal method. This method offers advantages in detecting clustered m6A sites and holds promise to locate nuclear nascent RNA m6A modifications.

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Year:  2020        PMID: 32341503     DOI: 10.1038/s41589-020-0526-9

Source DB:  PubMed          Journal:  Nat Chem Biol        ISSN: 1552-4450            Impact factor:   15.040


  45 in total

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  34 in total

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9.  Genetic drivers of m6A methylation in human brain, lung, heart and muscle.

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