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Discovery of processive catalysis by an exo-hydrolase with a pocket-shaped active site

Author

Listed:
  • Victor A. Streltsov

    (Materials Science and Engineering)

  • Sukanya Luang

    (University of Adelaide, Waite Campus)

  • Alys Peisley

    (Materials Science and Engineering)

  • Joseph N. Varghese

    (Materials Science and Engineering)

  • James R. Ketudat Cairns

    (Suranaree University of Technology)

  • Sebastien Fort

    (Centre de Recherches sur les Macromolécules Végétales)

  • Marcel Hijnen

    (GE Healthcare Life Sciences)

  • Igor Tvaroška

    (Slovak Academy of Sciences)

  • Ana Ardá

    (Centre for Cooperative Research in Biosciences)

  • Jesús Jiménez-Barbero

    (Centre for Cooperative Research in Biosciences)

  • Mercedes Alfonso-Prieto

    (Universitat de Barcelona)

  • Carme Rovira

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

  • Fernanda Mendoza

    (Universidad Andrés Bello, Sede Concepción
    Universitat Autònoma de Barcelona)

  • Laura Tiessler-Sala

    (Universitat Autònoma de Barcelona)

  • José-Emilio Sánchez-Aparicio

    (Universitat Autònoma de Barcelona)

  • Jaime Rodríguez-Guerra

    (Universitat Autònoma de Barcelona
    Institute of Chemical Research of Catalonia, The Barcelona Institute of Science and Technology)

  • José M. Lluch

    (Universitat Autònoma de Barcelona
    Universitat Autònoma de Barcelona)

  • Jean-Didier Maréchal

    (Universitat Autònoma de Barcelona)

  • Laura Masgrau

    (Universitat Autònoma de Barcelona
    Universitat Autònoma de Barcelona)

  • Maria Hrmova

    (University of Adelaide, Waite Campus
    Huaiyin Normal University)

Abstract

Substrates associate and products dissociate from enzyme catalytic sites rapidly, which hampers investigations of their trajectories. The high-resolution structure of the native Hordeum exo-hydrolase HvExoI isolated from seedlings reveals that non-covalently trapped glucose forms a stable enzyme-product complex. Here, we report that the alkyl β-d-glucoside and methyl 6-thio-β-gentiobioside substrate analogues perfused in crystalline HvExoI bind across the catalytic site after they displace glucose, while methyl 2-thio-β-sophoroside attaches nearby. Structural analyses and multi-scale molecular modelling of nanoscale reactant movements in HvExoI reveal that upon productive binding of incoming substrates, the glucose product modifies its binding patterns and evokes the formation of a transient lateral cavity, which serves as a conduit for glucose departure to allow for the next catalytic round. This path enables substrate-product assisted processive catalysis through multiple hydrolytic events without HvExoI losing contact with oligo- or polymeric substrates. We anticipate that such enzyme plasticity could be prevalent among exo-hydrolases.

Suggested Citation

  • 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.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09691-z
    DOI: 10.1038/s41467-019-09691-z
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    Cited by:

    1. 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.

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