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Site-selective photocatalytic functionalization of peptides and proteins at selenocysteine

Author

Listed:
  • Luke J. Dowman

    (The University of Sydney
    The University of Sydney)

  • Sameer S. Kulkarni

    (The University of Sydney
    The University of Sydney)

  • Juan V. Alegre-Requena

    (Colorado State University)

  • Andrew M. Giltrap

    (The University of Sydney
    The University of Sydney)

  • Alexander R. Norman

    (The University of Sydney
    The University of Sydney)

  • Ashish Sharma

    (The University of Sydney
    The University of Sydney)

  • Liliana C. Gallegos

    (Colorado State University)

  • Angus S. Mackay

    (The University of Sydney
    The University of Sydney)

  • Adarshi P. Welegedara

    (Australian National University)

  • Emma E. Watson

    (The University of Sydney
    The University of Sydney)

  • Damian Raad

    (Australian National University)

  • Gerhard Niederacher

    (University of Vienna)

  • Susanne Huhmann

    (University of Vienna)

  • Nicholas Proschogo

    (The University of Sydney)

  • Karishma Patel

    (The University of Sydney)

  • Mark Larance

    (The University of Sydney)

  • Christian F. W. Becker

    (University of Vienna)

  • Joel P. Mackay

    (The University of Sydney)

  • Girish Lakhwani

    (The University of Sydney
    The University of Sydney)

  • Thomas Huber

    (Australian National University)

  • Robert S. Paton

    (Colorado State University)

  • Richard J. Payne

    (The University of Sydney
    The University of Sydney)

Abstract

The importance of modified peptides and proteins for applications in drug discovery, and for illuminating biological processes at the molecular level, is fueling a demand for efficient methods that facilitate the precise modification of these biomolecules. Herein, we describe the development of a photocatalytic method for the rapid and efficient dimerization and site-specific functionalization of peptide and protein diselenides. This methodology, dubbed the photocatalytic diselenide contraction, involves irradiation at 450 nm in the presence of an iridium photocatalyst and a phosphine and results in rapid and clean conversion of diselenides to reductively stable selenoethers. A mechanism for this photocatalytic transformation is proposed, which is supported by photoluminescence spectroscopy and density functional theory calculations. The utility of the photocatalytic diselenide contraction transformation is highlighted through the dimerization of selenopeptides, and by the generation of two families of protein conjugates via the site-selective modification of calmodulin containing the 21st amino acid selenocysteine, and the C-terminal modification of a ubiquitin diselenide.

Suggested Citation

  • Luke J. Dowman & Sameer S. Kulkarni & Juan V. Alegre-Requena & Andrew M. Giltrap & Alexander R. Norman & Ashish Sharma & Liliana C. Gallegos & Angus S. Mackay & Adarshi P. Welegedara & Emma E. Watson , 2022. "Site-selective photocatalytic functionalization of peptides and proteins at selenocysteine," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34530-z
    DOI: 10.1038/s41467-022-34530-z
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    References listed on IDEAS

    as
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