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L1 retrotransposons exploit RNA m6A modification as an evolutionary driving force

Author

Listed:
  • Sung-Yeon Hwang

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Hyunchul Jung

    (KAIST)

  • Seyoung Mun

    (Dankook University
    DKU-Theragen institute for NGS analysis (DTiNa)
    Dankook University)

  • Sungwon Lee

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Kiwon Park

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • S. Chan Baek

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Hyungseok C. Moon

    (Seoul National University)

  • Hyewon Kim

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Baekgyu Kim

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Yongkuk Choi

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Young-Hyun Go

    (Seoul National University)

  • Wanxiangfu Tang

    (Brock University)

  • Jongsu Choi

    (Ludwig-Maximilians-University of Munich)

  • Jung Kyoon Choi

    (KAIST)

  • Hyuk-Jin Cha

    (Seoul National University)

  • Hye Yoon Park

    (Seoul National University)

  • Ping Liang

    (Brock University)

  • V. Narry Kim

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

  • Kyudong Han

    (DKU-Theragen institute for NGS analysis (DTiNa)
    Dankook University
    Dankook University)

  • Kwangseog Ahn

    (Center for RNA Research, Institute for Basic Science
    Seoul National University)

Abstract

L1 retrotransposons can pose a threat to genome integrity. The host has evolved to restrict L1 replication. However, mechanisms underlying L1 propagation out of the host surveillance remains unclear. Here, we propose an evolutionary survival strategy of L1, which exploits RNA m6A modification. We discover that m6A ‘writer’ METTL3 facilitates L1 retrotransposition, whereas m6A ‘eraser’ ALKBH5 suppresses it. The essential m6A cluster that is located on L1 5′ UTR serves as a docking site for eukaryotic initiation factor 3 (eIF3), enhances translational efficiency and promotes the formation of L1 ribonucleoprotein. Furthermore, through the comparative analysis of human- and primate-specific L1 lineages, we find that the most functional m6A motif-containing L1s have been positively selected and became a distinctive feature of evolutionarily young L1s. Thus, our findings demonstrate that L1 retrotransposons hijack the RNA m6A modification system for their successful replication.

Suggested Citation

  • Sung-Yeon Hwang & Hyunchul Jung & Seyoung Mun & Sungwon Lee & Kiwon Park & S. Chan Baek & Hyungseok C. Moon & Hyewon Kim & Baekgyu Kim & Yongkuk Choi & Young-Hyun Go & Wanxiangfu Tang & Jongsu Choi & , 2021. "L1 retrotransposons exploit RNA m6A modification as an evolutionary driving force," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21197-1
    DOI: 10.1038/s41467-021-21197-1
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