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Disordered-to-ordered transitions in assembly factors allow the complex II catalytic subunit to switch binding partners

Author

Listed:
  • Pankaj Sharma

    (Vanderbilt University)

  • Elena Maklashina

    (San Francisco VA Health Care System
    University of California)

  • Markus Voehler

    (Department of Chemistry Vanderbilt University
    Center for Structural Biology Vanderbilt University)

  • Sona Balintova

    (Czech Academy of Sciences
    Charles University)

  • Sarka Dvorakova

    (Czech Academy of Sciences)

  • Michal Kraus

    (Czech Academy of Sciences)

  • Katerina Hadrava Vanova

    (Czech Academy of Sciences
    National Institutes of Health)

  • Zuzana Nahacka

    (Czech Academy of Sciences)

  • Renata Zobalova

    (Czech Academy of Sciences)

  • Stepana Boukalova

    (Czech Academy of Sciences)

  • Kristyna Cunatova

    (Czech Academy of Sciences)

  • Tomas Mracek

    (Czech Academy of Sciences)

  • Hans K. Ghayee

    (University of Florida College of Medicine and Malcom Randall, VA Medical Center)

  • Karel Pacak

    (National Institutes of Health)

  • Jakub Rohlena

    (Czech Academy of Sciences)

  • Jiri Neuzil

    (Czech Academy of Sciences
    Charles University
    Griffith University
    1st Faculty of Medicine, Charles University)

  • Gary Cecchini

    (San Francisco VA Health Care System
    University of California)

  • T. M. Iverson

    (Vanderbilt University
    Center for Structural Biology Vanderbilt University
    Vanderbilt University
    Vanderbilt University)

Abstract

Complex II (CII) activity controls phenomena that require crosstalk between metabolism and signaling, including neurodegeneration, cancer metabolism, immune activation, and ischemia-reperfusion injury. CII activity can be regulated at the level of assembly, a process that leverages metastable assembly intermediates. The nature of these intermediates and how CII subunits transfer between metastable complexes remains unclear. In this work, we identify metastable species containing the SDHA subunit and its assembly factors, and we assign a preferred temporal sequence of appearance of these species during CII assembly. Structures of two species show that the assembly factors undergo disordered-to-ordered transitions without the appearance of significant secondary structure. The findings identify that intrinsically disordered regions are critical in regulating CII assembly, an observation that has implications for the control of assembly in other biomolecular complexes.

Suggested Citation

  • Pankaj Sharma & Elena Maklashina & Markus Voehler & Sona Balintova & Sarka Dvorakova & Michal Kraus & Katerina Hadrava Vanova & Zuzana Nahacka & Renata Zobalova & Stepana Boukalova & Kristyna Cunatova, 2024. "Disordered-to-ordered transitions in assembly factors allow the complex II catalytic subunit to switch binding partners," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-023-44563-7
    DOI: 10.1038/s41467-023-44563-7
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