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Sulphur shuttling across a chaperone during molybdenum cofactor maturation

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  • Pascal Arnoux

    (Laboratoire de Bioénergétique Cellulaire, CEA, DSV, IBEB
    CNRS, UMR 7265 Biologie Végétale et Microbiologie Environnementales
    Aix Marseille Université, CEA, CNRS, Biologie Végétale et Microbiologie Environnementales UMR 7265)

  • Christian Ruppelt

    (Technical University)

  • Flore Oudouhou

    (Aix Marseille Université, CNRS, IMM, LCB UMR 7283)

  • Jérôme Lavergne

    (Laboratoire de Bioénergétique Cellulaire, CEA, DSV, IBEB
    CNRS, UMR 7265 Biologie Végétale et Microbiologie Environnementales
    Aix Marseille Université, CEA, CNRS, Biologie Végétale et Microbiologie Environnementales UMR 7265)

  • Marina I. Siponen

    (Laboratoire de Bioénergétique Cellulaire, CEA, DSV, IBEB
    CNRS, UMR 7265 Biologie Végétale et Microbiologie Environnementales
    Aix Marseille Université, CEA, CNRS, Biologie Végétale et Microbiologie Environnementales UMR 7265)

  • René Toci

    (Aix Marseille Université, CNRS, IMM, LCB UMR 7283)

  • Ralf R. Mendel

    (Technical University)

  • Florian Bittner

    (Technical University)

  • David Pignol

    (Laboratoire de Bioénergétique Cellulaire, CEA, DSV, IBEB
    CNRS, UMR 7265 Biologie Végétale et Microbiologie Environnementales
    Aix Marseille Université, CEA, CNRS, Biologie Végétale et Microbiologie Environnementales UMR 7265)

  • Axel Magalon

    (Aix Marseille Université, CNRS, IMM, LCB UMR 7283)

  • Anne Walburger

    (Aix Marseille Université, CNRS, IMM, LCB UMR 7283)

Abstract

Formate dehydrogenases (FDHs) are of interest as they are natural catalysts that sequester atmospheric CO2, generating reduced carbon compounds with possible uses as fuel. FDHs activity in Escherichia coli strictly requires the sulphurtransferase EcFdhD, which likely transfers sulphur from IscS to the molybdenum cofactor (Mo-bisPGD) of FDHs. Here we show that EcFdhD binds Mo-bisPGD in vivo and has submicromolar affinity for GDP—used as a surrogate of the molybdenum cofactor’s nucleotide moieties. The crystal structure of EcFdhD in complex with GDP shows two symmetrical binding sites located on the same face of the dimer. These binding sites are connected via a tunnel-like cavity to the opposite face of the dimer where two dynamic loops, each harbouring two functionally important cysteine residues, are present. On the basis of structure-guided mutagenesis, we propose a model for the sulphuration mechanism of Mo-bisPGD where the sulphur atom shuttles across the chaperone dimer.

Suggested Citation

  • Pascal Arnoux & Christian Ruppelt & Flore Oudouhou & Jérôme Lavergne & Marina I. Siponen & René Toci & Ralf R. Mendel & Florian Bittner & David Pignol & Axel Magalon & Anne Walburger, 2015. "Sulphur shuttling across a chaperone during molybdenum cofactor maturation," Nature Communications, Nature, vol. 6(1), pages 1-8, May.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7148
    DOI: 10.1038/ncomms7148
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    Cited by:

    1. Weisong Liu & Kuncheng Zhang & Jiang Liu & Yuanming Wang & Meng Zhang & Huijuan Cui & Junsong Sun & Lingling Zhang, 2024. "Bioelectrocatalytic carbon dioxide reduction by an engineered formate dehydrogenase from Thermoanaerobacter kivui," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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