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The evolutionary advantage of an aromatic clamp in plant family 3 glycoside exo-hydrolases

Author

Listed:
  • Sukanya Luang

    (University of Adelaide, Waite Research Precinct)

  • Xavier Fernández-Luengo

    (Universitat Autònoma de Barcelona)

  • Alba Nin-Hill

    (Universitat de Barcelona)

  • Victor A. Streltsov

    (University of Melbourne)

  • Julian G. Schwerdt

    (University of Adelaide, Waite Research Precinct)

  • Santiago Alonso-Gil

    (Universitat de Barcelona)

  • James R. Ketudat Cairns

    (Suranaree University of Technology)

  • Stéphanie Pradeau

    (Université Grenoble Alpes, Centre de Recherches sur les Macromolécules Végétales)

  • Sébastien Fort

    (Université Grenoble Alpes, Centre de Recherches sur les Macromolécules Végétales)

  • Jean-Didier Maréchal

    (Universitat Autònoma de Barcelona)

  • Laura Masgrau

    (Universitat Autònoma de Barcelona
    Institut de Biotecnologia i de Biomedicina, Universitat Autònoma de Barcelona)

  • Carme Rovira

    (Universitat de Barcelona
    Institució Catalana de Recerca i Estudis Avançats)

  • Maria Hrmova

    (University of Adelaide, Waite Research Precinct
    Huaiyin Normal University)

Abstract

In the barley β-d-glucan glucohydrolase, a glycoside hydrolase family 3 (GH3) enzyme, the Trp286/Trp434 clamp ensures β-d-glucosides binding, which is fundamental for substrate hydrolysis during plant growth and development. We employ mutagenesis, high-resolution X-ray crystallography, and multi-scale molecular modelling methods to examine the binding and conformational behaviour of isomeric β-d-glucosides during substrate-product assisted processive catalysis that operates in GH3 hydrolases. Enzyme kinetics reveals that the W434H mutant retains broad specificity, while W434A behaves as a strict (1,3)-β-d-glucosidase. Investigations of reactant movements on the nanoscale reveal that processivity is sensitive to mutation-specific alterations of the tryptophan clamp. While wild-type and W434H utilise a lateral cavity for glucose displacement and sliding of (1,3)-linked hydrolytic products through the catalytic site without dissociation, consistent with their high hydrolytic rates, W434A does not adopt processive catalysis. Phylogenomic analyses of GH3 hydrolases disclose the evolutionary advantage of the tryptophan clamp that confers broad specificity, high catalytic efficiency, and processivity.

Suggested Citation

  • Sukanya Luang & Xavier Fernández-Luengo & Alba Nin-Hill & Victor A. Streltsov & Julian G. Schwerdt & Santiago Alonso-Gil & James R. Ketudat Cairns & Stéphanie Pradeau & Sébastien Fort & Jean-Didier Ma, 2022. "The evolutionary advantage of an aromatic clamp in plant family 3 glycoside exo-hydrolases," Nature Communications, Nature, vol. 13(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-33180-5
    DOI: 10.1038/s41467-022-33180-5
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    References listed on IDEAS

    as
    1. Victor A. Streltsov & Sukanya Luang & Alys Peisley & Joseph N. Varghese & James R. Ketudat Cairns & Sebastien Fort & Marcel Hijnen & Igor Tvaroška & Ana Ardá & Jesús Jiménez-Barbero & Mercedes Alfonso, 2019. "Discovery of processive catalysis by an exo-hydrolase with a pocket-shaped active site," Nature Communications, Nature, vol. 10(1), pages 1-17, December.
    2. Akihiko Nakamura & Kei-ichi Okazaki & Tadaomi Furuta & Minoru Sakurai & Ryota Iino, 2018. "Processive chitinase is Brownian monorail operated by fast catalysis after peeling rail from crystalline chitin," Nature Communications, Nature, vol. 9(1), pages 1-12, December.
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