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Illuminating the mechanism and allosteric behavior of NanoLuc luciferase

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Listed:
  • Michal Nemergut

    (Masaryk University
    St. Anne’s University Hospital Brno
    Technology and Innovation Park, P. J. Safarik University in Kosice)

  • Daniel Pluskal

    (Masaryk University)

  • Jana Horackova

    (Masaryk University)

  • Tereza Sustrova

    (Masaryk University)

  • Jan Tulis

    (Masaryk University)

  • Tomas Barta

    (Masaryk University)

  • Racha Baatallah

    (Institut Pasteur, UMR 3523, CNRS)

  • Glwadys Gagnot

    (Institut Pasteur, UMR 3523, CNRS
    Université de Paris, 12 rue de l’école de Médecine)

  • Veronika Novakova

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Marika Majerova

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Karolina Sedlackova

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Sérgio M. Marques

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Martin Toul

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Jiri Damborsky

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Zbynek Prokop

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • David Bednar

    (Masaryk University
    St. Anne’s University Hospital Brno)

  • Yves L. Janin

    (Muséum National d’Histoire Naturelle, INSERM, CNRS, Alliance Sorbonne Université)

  • Martin Marek

    (Masaryk University
    St. Anne’s University Hospital Brno)

Abstract

NanoLuc, a superior β-barrel fold luciferase, was engineered 10 years ago but the nature of its catalysis remains puzzling. Here experimental and computational techniques are combined, revealing that imidazopyrazinone luciferins bind to an intra-barrel catalytic site but also to an allosteric site shaped on the enzyme surface. Structurally, binding to the allosteric site prevents simultaneous binding to the catalytic site, and vice versa, through concerted conformational changes. We demonstrate that restructuration of the allosteric site can boost the luminescent reaction in the remote active site. Mechanistically, an intra-barrel arginine coordinates the imidazopyrazinone component of luciferin, which reacts with O2 via a radical charge-transfer mechanism, and then it also protonates the resulting excited amide product to form a light-emitting neutral species. Concomitantly, an aspartate, supported by two tyrosines, fine-tunes the blue color emitter to secure a high emission intensity. This information is critical to engineering the next-generation of ultrasensitive bioluminescent reporters.

Suggested Citation

  • Michal Nemergut & Daniel Pluskal & Jana Horackova & Tereza Sustrova & Jan Tulis & Tomas Barta & Racha Baatallah & Glwadys Gagnot & Veronika Novakova & Marika Majerova & Karolina Sedlackova & Sérgio M., 2023. "Illuminating the mechanism and allosteric behavior of NanoLuc luciferase," Nature Communications, Nature, vol. 14(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43403-y
    DOI: 10.1038/s41467-023-43403-y
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    References listed on IDEAS

    as
    1. Andrea Schenkmayerova & Gaspar P. Pinto & Martin Toul & Martin Marek & Lenka Hernychova & Joan Planas-Iglesias & Veronika Daniel Liskova & Daniel Pluskal & Michal Vasina & Stephane Emond & Mark Dörr &, 2021. "Engineering the protein dynamics of an ancestral luciferase," Nature Communications, Nature, vol. 12(1), pages 1-16, December.
    2. Zhong Guo & Rinky D. Parakra & Ying Xiong & Wayne A. Johnston & Patricia Walden & Selvakumar Edwardraja & Shayli Varasteh Moradi & Jacobus P. J. Ungerer & Hui-wang Ai & Jonathan J. Phillips & Kirill A, 2022. "Engineering and exploiting synthetic allostery of NanoLuc luciferase," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    Full references (including those not matched with items on IDEAS)

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