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Principles of mitoribosomal small subunit assembly in eukaryotes

Author

Listed:
  • Nathan J. Harper

    (The Rockefeller University
    The Rockefeller University)

  • Chloe Burnside

    (The Rockefeller University
    The Rockefeller University)

  • Sebastian Klinge

    (The Rockefeller University)

Abstract

Mitochondrial ribosomes (mitoribosomes) synthesize proteins encoded within the mitochondrial genome that are assembled into oxidative phosphorylation complexes. Thus, mitoribosome biogenesis is essential for ATP production and cellular metabolism1. Here we used cryo-electron microscopy to determine nine structures of native yeast and human mitoribosomal small subunit assembly intermediates, illuminating the mechanistic basis for how GTPases are used to control early steps of decoding centre formation, how initial rRNA folding and processing events are mediated, and how mitoribosomal proteins have active roles during assembly. Furthermore, this series of intermediates from two species with divergent mitoribosomal architecture uncovers both conserved principles and species-specific adaptations that govern the maturation of mitoribosomal small subunits in eukaryotes. By revealing the dynamic interplay between assembly factors, mitoribosomal proteins and rRNA that are required to generate functional subunits, our structural analysis provides a vignette for how molecular complexity and diversity can evolve in large ribonucleoprotein assemblies.

Suggested Citation

  • Nathan J. Harper & Chloe Burnside & Sebastian Klinge, 2023. "Principles of mitoribosomal small subunit assembly in eukaryotes," Nature, Nature, vol. 614(7946), pages 175-181, February.
    • Handle: RePEc:nat:nature:v:614:y:2023:i:7946:d:10.1038_s41586-022-05621-0
    DOI: 10.1038/s41586-022-05621-0
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    Cited by:

    1. Vivek Singh & Yuzuru Itoh & Samuel Del’Olio & Asem Hassan & Andreas Naschberger & Rasmus Kock Flygaard & Yuko Nobe & Keiichi Izumikawa & Shintaro Aibara & Juni Andréll & Paul C. Whitford & Antoni Barr, 2024. "Mitoribosome structure with cofactors and modifications reveals mechanism of ligand binding and interactions with L1 stalk," Nature Communications, Nature, vol. 15(1), pages 1-22, December.

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