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A metal ion mediated functional dichotomy encodes plasticity during translation quality control

Author

Listed:
  • Jotin Gogoi

    (CSIR-Centre for Cellular and Molecular Biology)

  • Komal Ishwar Pawar

    (CSIR-Centre for Cellular and Molecular Biology)

  • Koushick Sivakumar

    (CSIR-Centre for Cellular and Molecular Biology
    Academy of Scientific and Innovative Research (AcSIR))

  • Akshay Bhatnagar

    (CSIR-Centre for Cellular and Molecular Biology)

  • Katta Suma

    (CSIR-Centre for Cellular and Molecular Biology)

  • Kezia J. Ann

    (CSIR-Centre for Cellular and Molecular Biology)

  • Sambhavi Pottabathini

    (CSIR-Centre for Cellular and Molecular Biology)

  • Shobha P. Kruparani

    (CSIR-Centre for Cellular and Molecular Biology)

  • Rajan Sankaranarayanan

    (CSIR-Centre for Cellular and Molecular Biology
    Academy of Scientific and Innovative Research (AcSIR))

Abstract

Proofreading during translation of the genetic code is a key process for not only translation quality control but also for its modulation under stress conditions to provide fitness advantage. A major class of proofreading modules represented by editing domains of alanyl-tRNA synthetase (AlaRS-Ed) and threonyl-tRNA synthetase (ThrRS-Ed) features a common fold and an invariant Zn2+ binding motif across life forms. Here, we reveal the structural basis and functional consequence along with the necessity for their operational dichotomy, i.e., the metal ion is ubiquitous in one and inhibitor for the other. The universally conserved Zn2+ in AlaRS-Ed protects its proofreading activity from reactive oxygen species (ROS) to maintain high fidelity Ala-codons translation, necessary for cell survival. On the other hand, mistranslation of Thr-codons is well tolerated by the cells, thereby allowing for a ROS-based modulation of ThrRS-Ed’s activity. A single residue rooted over ~3.5 billion years of evolution has been shown to be primarily responsible for the functional divergence. The study presents a remarkable example of how protein quality control is integrated with redox signalling through leveraging the tunability of metal binding sites from the time of last universal common ancestor (LUCA).

Suggested Citation

  • Jotin Gogoi & Komal Ishwar Pawar & Koushick Sivakumar & Akshay Bhatnagar & Katta Suma & Kezia J. Ann & Sambhavi Pottabathini & Shobha P. Kruparani & Rajan Sankaranarayanan, 2025. "A metal ion mediated functional dichotomy encodes plasticity during translation quality control," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58787-2
    DOI: 10.1038/s41467-025-58787-2
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    References listed on IDEAS

    as
    1. Abhijeet Pataskar & Julien Champagne & Remco Nagel & Juliana Kenski & Maarja Laos & Justine Michaux & Hui Song Pak & Onno B. Bleijerveld & Kelly Mordente & Jasmine Montenegro Navarro & Naomi Blommaert, 2022. "Tryptophan depletion results in tryptophan-to-phenylalanine substitutants," Nature, Nature, vol. 603(7902), pages 721-727, March.
    2. Jeong Woong Lee & Kirk Beebe & Leslie A. Nangle & Jaeseon Jang & Chantal M. Longo-Guess & Susan A. Cook & Muriel T. Davisson & John P. Sundberg & Paul Schimmel & Susan L. Ackerman, 2006. "Editing-defective tRNA synthetase causes protein misfolding and neurodegeneration," Nature, Nature, vol. 443(7107), pages 50-55, September.
    3. Hongping He & Xiao Wu & Haiyang Xian & Jianxi Zhu & Yiping Yang & Ying Lv & Yiliang Li & Kurt O. Konhauser, 2021. "An abiotic source of Archean hydrogen peroxide and oxygen that pre-dates oxygenic photosynthesis," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    4. Abhijeet Pataskar & Julien Champagne & Remco Nagel & Juliana Kenski & Maarja Laos & Justine Michaux & Hui Song Pak & Onno B. Bleijerveld & Kelly Mordente & Jasmine Montenegro Navarro & Naomi Blommaert, 2022. "Author Correction: Tryptophan depletion results in tryptophan-to-phenylalanine substitutants," Nature, Nature, vol. 608(7922), pages 20-20, August.
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