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A cysteine selenosulfide redox switch for protein chemical synthesis

Author

Listed:
  • Vincent Diemer

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

  • Nathalie Ollivier

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

  • Bérénice Leclercq

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

  • Hervé Drobecq

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

  • Jérôme Vicogne

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

  • Vangelis Agouridas

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

  • Oleg Melnyk

    (U1019-UMR 9017-CIIL-Center for Infection and Immunity of Lille)

Abstract

The control of cysteine reactivity is of paramount importance for the synthesis of proteins using the native chemical ligation (NCL) reaction. We report that this goal can be achieved in a traceless manner during ligation by appending a simple N-selenoethyl group to cysteine. While in synthetic organic chemistry the cleavage of carbon-nitrogen bonds is notoriously difficult, we describe that N-selenoethyl cysteine (SetCys) loses its selenoethyl arm in water under mild conditions upon reduction of its selenosulfide bond. Detailed mechanistic investigations show that the cleavage of the selenoethyl arm proceeds through an anionic mechanism with assistance of the cysteine thiol group. The implementation of the SetCys unit in a process enabling the modular and straightforward assembly of linear or backbone cyclized polypeptides is illustrated by the synthesis of biologically active cyclic hepatocyte growth factor variants.

Suggested Citation

  • Vincent Diemer & Nathalie Ollivier & Bérénice Leclercq & Hervé Drobecq & Jérôme Vicogne & Vangelis Agouridas & Oleg Melnyk, 2020. "A cysteine selenosulfide redox switch for protein chemical synthesis," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16359-6
    DOI: 10.1038/s41467-020-16359-6
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    Cited by:

    1. Nathalie Ollivier & Magalie Sénéchal & Rémi Desmet & Benoît Snella & Vangelis Agouridas & Oleg Melnyk, 2022. "A biomimetic electrostatic assistance for guiding and promoting N-terminal protein chemical modification," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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