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Functional 3D architecture in an intrinsically disordered E3 ligase domain facilitates ubiquitin transfer

Author

Listed:
  • Paul Murphy

    (University of Dundee)

  • Yingqi Xu

    (Imperial College London)

  • Sarah L. Rouse

    (Imperial College London)

  • Ellis G. Jaffray

    (University of Dundee)

  • Anna Plechanovová

    (University of Dundee)

  • Steve J. Matthews

    (Imperial College London)

  • J. Carlos Penedo

    (University of St. Andrews
    University of St. Andrews)

  • Ronald T. Hay

    (University of Dundee)

Abstract

The human genome contains an estimated 600 ubiquitin E3 ligases, many of which are single-subunit E3s (ssE3s) that can bind to both substrate and ubiquitin-loaded E2 (E2~Ub). Within ssE3s structural disorder tends to be located in substrate binding and domain linking regions. RNF4 is a ssE3 ligase with a C-terminal RING domain and disordered N-terminal region containing SUMO Interactions Motifs (SIMs) required to bind SUMO modified substrates. Here we show that, although the N-terminal region of RNF4 bears no secondary structure, it maintains a compact global architecture primed for SUMO interaction. Segregated charged regions within the RNF4 N-terminus promote compaction, juxtaposing RING domain and SIMs to facilitate substrate ubiquitination. Mutations that induce a more extended shape reduce ubiquitination activity. Our result offer insight into a key step in substrate ubiquitination by a member of the largest ubiquitin ligase subtype and reveal how a defined architecture within a disordered region contributes to E3 ligase function.

Suggested Citation

  • Paul Murphy & Yingqi Xu & Sarah L. Rouse & Ellis G. Jaffray & Anna Plechanovová & Steve J. Matthews & J. Carlos Penedo & Ronald T. Hay, 2020. "Functional 3D architecture in an intrinsically disordered E3 ligase domain facilitates ubiquitin transfer," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17647-x
    DOI: 10.1038/s41467-020-17647-x
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