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Double-sieving-defective aminoacyl-tRNA synthetase causes protein mistranslation and affects cellular physiology and development

Author

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  • Jiongming Lu

    (Institute of Cell Biology, University of Bern)

  • Martin Bergert

    (Institute of Cell Biology, University of Bern
    Present address: Laboratory of Thermodynamics in Emerging Technologies, ETH Zurich, Sonneggstrasse 3, Zurich 8092, Switzerland)

  • Anita Walther

    (Institute of Cell Biology, University of Bern
    Present address: Paul Scherrer Institut, Villigen 5232, Switzerland)

  • Beat Suter

    (Institute of Cell Biology, University of Bern)

Abstract

Aminoacyl-tRNA synthetases (aaRSs) constitute a family of ubiquitously expressed essential enzymes that ligate amino acids to their cognate tRNAs for protein synthesis. Recently, aaRS mutations have been linked to various human diseases; however, how these mutations lead to diseases has remained unclear. In order to address the importance of aminoacylation fidelity in multicellular organisms, we generated an amino-acid double-sieving model in Drosophila melanogaster using phenylalanyl-tRNA synthetase (PheRS). Double-sieving-defective mutations dramatically misacylate non-cognate Tyr, induce protein mistranslation and cause endoplasmic reticulum stress in flies. Mutant adults exhibit many defects, including loss of neuronal cells, impaired locomotive performance, shortened lifespan and smaller organ size. At the cellular level, the mutations reduce cell proliferation and promote cell death. Our results also reveal the particular importance of the first amino-acid recognition sieve. Overall, these findings provide new mechanistic insights into how malfunctioning of aaRSs can cause diseases.

Suggested Citation

  • Jiongming Lu & Martin Bergert & Anita Walther & Beat Suter, 2014. "Double-sieving-defective aminoacyl-tRNA synthetase causes protein mistranslation and affects cellular physiology and development," Nature Communications, Nature, vol. 5(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6650
    DOI: 10.1038/ncomms6650
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    Cited by:

    1. Mirjana Malnar Črnigoj & Urša Čerček & Xiaoke Yin & Manh Tin Ho & Barbka Repic Lampret & Manuela Neumann & Andreas Hermann & Guy Rouleau & Beat Suter & Manuel Mayr & Boris Rogelj, 2023. "Phenylalanine-tRNA aminoacylation is compromised by ALS/FTD-associated C9orf72 C4G2 repeat RNA," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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