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Deep learning modeling m6A deposition reveals the importance of downstream cis-element sequences

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  • Zhiyuan Luo

    (The Jackson Laboratory)

  • Jiacheng Zhang

    (The University of Chicago)

  • Jingyi Fei

    (The University of Chicago
    The University of Chicago)

  • Shengdong Ke

    (The Jackson Laboratory)

Abstract

The N6-methyladenosine (m6A) modification is deposited to nascent transcripts on chromatin, but its site-specificity mechanism is mostly unknown. Here we model the m6A deposition to pre-mRNA by iM6A (intelligent m6A), a deep learning method, demonstrating that the site-specific m6A methylation is primarily determined by the flanking nucleotide sequences. iM6A accurately models the m6A deposition (AUROC = 0.99) and uncovers surprisingly that the cis-elements regulating the m6A deposition preferentially reside within the 50 nt downstream of the m6A sites. The m6A enhancers mostly include part of the RRACH motif and the m6A silencers generally contain CG/GT/CT motifs. Our finding is supported by both independent experimental validations and evolutionary conservation. Moreover, our work provides evidences that mutations resulting in synonymous codons can affect the m6A deposition and the TGA stop codon favors m6A deposition nearby. Our iM6A deep learning modeling enables fast paced biological discovery which would be cost-prohibitive and unpractical with traditional experimental approaches, and uncovers a key cis-regulatory mechanism for m6A site-specific deposition.

Suggested Citation

  • Zhiyuan Luo & Jiacheng Zhang & Jingyi Fei & Shengdong Ke, 2022. "Deep learning modeling m6A deposition reveals the importance of downstream cis-element sequences," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30209-7
    DOI: 10.1038/s41467-022-30209-7
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    1. Zhiyuan Luo & Qilian Ma & Shan Sun & Ningning Li & Hongfeng Wang & Zheng Ying & Shengdong Ke, 2023. "Exon-intron boundary inhibits m6A deposition, enabling m6A distribution hallmark, longer mRNA half-life and flexible protein coding," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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