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SCFFBXL3 ubiquitin ligase targets cryptochromes at their cofactor pocket

Author

Listed:
  • Weiman Xing

    (Box 357280, University of Washington
    Howard Hughes Medical Institute, University of Washington)

  • Luca Busino

    (NYU Cancer Institute, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, New York 10016, USA)

  • Thomas R. Hinds

    (Box 357280, University of Washington)

  • Samuel T. Marionni

    (Box 351700, University of Washington)

  • Nabiha H. Saifee

    (Box 357280, University of Washington)

  • Matthew F. Bush

    (Box 351700, University of Washington)

  • Michele Pagano

    (NYU Cancer Institute, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, New York 10016, USA
    Howard Hughes Medical Institute, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, New York 10016, USA)

  • Ning Zheng

    (Box 357280, University of Washington
    Howard Hughes Medical Institute, University of Washington)

Abstract

The cryptochrome (CRY) flavoproteins act as blue-light receptors in plants and insects, but perform light-independent functions at the core of the mammalian circadian clock. To drive clock oscillations, mammalian CRYs associate with the Period proteins (PERs) and together inhibit the transcription of their own genes. The SCFFBXL3 ubiquitin ligase complex controls this negative feedback loop by promoting CRY ubiquitination and degradation. However, the molecular mechanisms of their interactions and the functional role of flavin adenine dinucleotide (FAD) binding in CRYs remain poorly understood. Here we report crystal structures of mammalian CRY2 in its apo, FAD-bound and FBXL3–SKP1-complexed forms. Distinct from other cryptochromes of known structures, mammalian CRY2 binds FAD dynamically with an open cofactor pocket. Notably, the F-box protein FBXL3 captures CRY2 by simultaneously occupying its FAD-binding pocket with a conserved carboxy-terminal tail and burying its PER-binding interface. This novel F-box-protein–substrate bipartite interaction is susceptible to disruption by both FAD and PERs, suggesting a new avenue for pharmacological targeting of the complex and a multifaceted regulatory mechanism of CRY ubiquitination.

Suggested Citation

  • Weiman Xing & Luca Busino & Thomas R. Hinds & Samuel T. Marionni & Nabiha H. Saifee & Matthew F. Bush & Michele Pagano & Ning Zheng, 2013. "SCFFBXL3 ubiquitin ligase targets cryptochromes at their cofactor pocket," Nature, Nature, vol. 496(7443), pages 64-68, April.
  • Handle: RePEc:nat:nature:v:496:y:2013:i:7443:d:10.1038_nature11964
    DOI: 10.1038/nature11964
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    Citations

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    Cited by:

    1. Sahar Foroutannejad & Lydia L. Good & Changfan Lin & Zachariah I. Carter & Mahlet G. Tadesse & Aaron L. Lucius & Brian R. Crane & Rodrigo A. Maillard, 2023. "The cofactor-dependent folding mechanism of Drosophila cryptochrome revealed by single-molecule pulling experiments," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    2. Zhiwei Zhao & Craig Dent & Huafeng Liang & Junqing Lv & Guandong Shang & Yawen Liu & Fan Feng & Fei Wang & Junhong Pang & Xu Li & Libang Ma & Bing Li & Sridevi Sureshkumar & Jia-Wei Wang & Sureshkumar, 2022. "CRY2 interacts with CIS1 to regulate thermosensory flowering via FLM alternative splicing," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    3. Yang An & Baoshi Yuan & Pancheng Xie & Yue Gu & Zhiwei Liu & Tao Wang & Zhihao Li & Ying Xu & Yi Liu, 2022. "Decoupling PER phosphorylation, stability and rhythmic expression from circadian clock function by abolishing PER-CK1 interaction," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    4. Seref Gul & Yasemin Kubra Akyel & Zeynep Melis Gul & Safak Isin & Onur Ozcan & Tuba Korkmaz & Saba Selvi & Ibrahim Danis & Ozgecan Savlug Ipek & Fatih Aygenli & Ali Cihan Taskin & Büşra Aytül Akarlar , 2022. "Discovery of a small molecule that selectively destabilizes Cryptochrome 1 and enhances life span in p53 knockout mice," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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