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Single-molecule direct RNA sequencing reveals the shaping of epitranscriptome across multiple species

Author

Listed:
  • Ying-Yuan Xie

    (Sun Yat-sen University
    Science Park)

  • Zhen-Dong Zhong

    (Sun Yat-sen University
    Sun Yat-sen University)

  • Hong-Xuan Chen

    (Sun Yat-sen University
    Science Park)

  • Ze-Hui Ren

    (Sun Yat-sen University
    Science Park)

  • Yuan-Tao Qiu

    (Sun Yat-sen University)

  • Ye-Lin Lan

    (Sun Yat-sen University)

  • Fu Wu

    (Sun Yat-sen University)

  • Jin-Wen Kong

    (Sun Yat-sen University)

  • Ru-Jia Luo

    (Sun Yat-sen University)

  • Delong Zhang

    (South China Agricultural University)

  • Biao-Di Liu

    (Sun Yat-sen University)

  • Yang Shu

    (Sun Yat-sen University)

  • Feng Yin

    (Shenzhen Bay Laboratory)

  • Jian Wu

    (South China Agricultural University)

  • Zigang Li

    (Shenzhen Bay Laboratory)

  • Zhang Zhang

    (Sun Yat-sen University
    Sun Yat-sen University)

  • Guan-Zheng Luo

    (Sun Yat-sen University
    Science Park
    Sun Yat-sen University
    Shenzhen Bay Laboratory)

Abstract

N6-methyladenosine (m6A) is an essential RNA modification that regulates gene expression and influences diverse cellular processes. Yet, fully characterizing its transcriptome-wide landscape and biogenesis mechanisms remains challenging. Traditional next-generation sequencing (NGS) methods rely on short-reads aggregation, overlooking the inherent heterogeneity of RNA transcripts. Third-generation sequencing (TGS) platforms offer direct RNA sequencing (DRS) at the resolution of individual RNA molecules, enabling simultaneous detection of RNA modifications and RNA processing events. In this study, we introduce SingleMod, a deep learning model tailored for precise detection of m6A modification on individual RNA molecules from DRS data. SingleMod innovatively employs a multiple instance regression (MIR) framework, leveraging extensive methylation-rate labels provided by the quantitative NGS-based method, and achieves ROC AUC and PR AUC of ~0.95 for single-molecule m6A prediction. Applying SingleMod to human cell lines, we systematically dissect the transcriptome-wide m6A landscape at single-molecule and single-base resolution, characterizing m6A heterogeneity in RNA molecules from the same transcript. Through comparative analyzes across eight diverse species, we quantitatively elucidate three distinct m6A distribution patterns correlated with phylogenetic relationships and suggest divergent regulatory mechanisms. This study provides a framework for understanding the shaping of epitranscriptome in a single-molecule perspective.

Suggested Citation

  • Ying-Yuan Xie & Zhen-Dong Zhong & Hong-Xuan Chen & Ze-Hui Ren & Yuan-Tao Qiu & Ye-Lin Lan & Fu Wu & Jin-Wen Kong & Ru-Jia Luo & Delong Zhang & Biao-Di Liu & Yang Shu & Feng Yin & Jian Wu & Zigang Li &, 2025. "Single-molecule direct RNA sequencing reveals the shaping of epitranscriptome across multiple species," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60447-4
    DOI: 10.1038/s41467-025-60447-4
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