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Cryo-EM structures of the human Elongator complex at work

Author

Listed:
  • Nour-el-Hana Abbassi

    (Jagiellonian University
    Medical University of Warsaw)

  • Marcin Jaciuk

    (Jagiellonian University)

  • David Scherf

    (University of Kassel)

  • Pauline Böhnert

    (University of Kassel)

  • Alexander Rau

    (Technical University of Berlin)

  • Alexander Hammermeister

    (Jagiellonian University)

  • Michał Rawski

    (Jagiellonian University
    Jagiellonian University)

  • Paulina Indyka

    (Jagiellonian University
    Jagiellonian University)

  • Grzegorz Wazny

    (Jagiellonian University
    Jagiellonian University)

  • Andrzej Chramiec-Głąbik

    (Jagiellonian University)

  • Dominika Dobosz

    (Jagiellonian University)

  • Bozena Skupien-Rabian

    (Jagiellonian University)

  • Urszula Jankowska

    (Jagiellonian University)

  • Juri Rappsilber

    (Technical University of Berlin
    University of Edinburgh)

  • Raffael Schaffrath

    (University of Kassel)

  • Ting-Yu Lin

    (Jagiellonian University
    Durham University)

  • Sebastian Glatt

    (Jagiellonian University)

Abstract

tRNA modifications affect ribosomal elongation speed and co-translational folding dynamics. The Elongator complex is responsible for introducing 5-carboxymethyl at wobble uridine bases (cm5U34) in eukaryotic tRNAs. However, the structure and function of human Elongator remain poorly understood. In this study, we present a series of cryo-EM structures of human ELP123 in complex with tRNA and cofactors at four different stages of the reaction. The structures at resolutions of up to 2.9 Å together with complementary functional analyses reveal the molecular mechanism of the modification reaction. Our results show that tRNA binding exposes a universally conserved uridine at position 33 (U33), which triggers acetyl-CoA hydrolysis. We identify a series of conserved residues that are crucial for the radical-based acetylation of U34 and profile the molecular effects of patient-derived mutations. Together, we provide the high-resolution view of human Elongator and reveal its detailed mechanism of action.

Suggested Citation

  • Nour-el-Hana Abbassi & Marcin Jaciuk & David Scherf & Pauline Böhnert & Alexander Rau & Alexander Hammermeister & Michał Rawski & Paulina Indyka & Grzegorz Wazny & Andrzej Chramiec-Głąbik & Dominika D, 2024. "Cryo-EM structures of the human Elongator complex at work," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-48251-y
    DOI: 10.1038/s41467-024-48251-y
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    References listed on IDEAS

    as
    1. Kathryn Tunyasuvunakool & Jonas Adler & Zachary Wu & Tim Green & Michal Zielinski & Augustin Žídek & Alex Bridgland & Andrew Cowie & Clemens Meyer & Agata Laydon & Sameer Velankar & Gerard J. Kleywegt, 2021. "Highly accurate protein structure prediction for the human proteome," Nature, Nature, vol. 596(7873), pages 590-596, August.
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