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Reactive-site-centric chemoproteomics identifies a distinct class of deubiquitinase enzymes

Author

Listed:
  • David S. Hewings

    (Genentech
    Genentech
    Genentech
    Stanford University School of Medicine)

  • Johanna Heideker

    (Genentech
    Genentech)

  • Taylur P. Ma

    (Genentech)

  • Andrew P. AhYoung

    (Genentech)

  • Farid El Oualid

    (UbiQ Bio BV)

  • Alessia Amore

    (UbiQ Bio BV)

  • Gregory T. Costakes

    (Boston Biochem Inc.)

  • Daniel Kirchhofer

    (Genentech)

  • Bradley Brasher

    (Boston Biochem Inc.)

  • Thomas Pillow

    (Genentech)

  • Nataliya Popovych

    (Genentech)

  • Till Maurer

    (Genentech)

  • Carsten Schwerdtfeger

    (Boston Biochem Inc.)

  • William F. Forrest

    (Genentech)

  • Kebing Yu

    (Genentech)

  • John Flygare

    (Genentech
    Merck)

  • Matthew Bogyo

    (Stanford University School of Medicine)

  • Ingrid E. Wertz

    (Genentech
    Genentech)

Abstract

Activity-based probes (ABPs) are widely used to monitor the activity of enzyme families in biological systems. Inferring enzyme activity from probe reactivity requires that the probe reacts with the enzyme at its active site; however, probe-labeling sites are rarely verified. Here we present an enhanced chemoproteomic approach to evaluate the activity and probe reactivity of deubiquitinase enzymes, using bioorthogonally tagged ABPs and a sequential on-bead digestion protocol to enhance the identification of probe-labeling sites. We confirm probe labeling of deubiquitinase catalytic Cys residues and reveal unexpected labeling of deubiquitinases on non-catalytic Cys residues and of non-deubiquitinase proteins. In doing so, we identify ZUFSP (ZUP1) as a previously unannotated deubiquitinase with high selectivity toward cleaving K63-linked chains. ZUFSP interacts with and modulates ubiquitination of the replication protein A (RPA) complex. Our reactive-site-centric chemoproteomics method is broadly applicable for identifying the reaction sites of covalent molecules, which may expand our understanding of enzymatic mechanisms.

Suggested Citation

  • David S. Hewings & Johanna Heideker & Taylur P. Ma & Andrew P. AhYoung & Farid El Oualid & Alessia Amore & Gregory T. Costakes & Daniel Kirchhofer & Bradley Brasher & Thomas Pillow & Nataliya Popovych, 2018. "Reactive-site-centric chemoproteomics identifies a distinct class of deubiquitinase enzymes," Nature Communications, Nature, vol. 9(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03511-6
    DOI: 10.1038/s41467-018-03511-6
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    Cited by:

    1. Daewon Lee & Eunju Yoon & Su Jin Ham & Kunwoo Lee & Hansaem Jang & Daihn Woo & Da Hyun Lee & Sehyeon Kim & Sekyu Choi & Jongkyeong Chung, 2024. "Diabetic sensory neuropathy and insulin resistance are induced by loss of UCHL1 in Drosophila," Nature Communications, Nature, vol. 15(1), pages 1-22, December.

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