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Euglena’s atypical respiratory chain adapts to the discoidal cristae and flexible metabolism

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  • Zhaoxiang He

    (Zhejiang University School of Medicine)

  • Mengchen Wu

    (Zhejiang University School of Medicine)

  • Hongtao Tian

    (Zhejiang University School of Medicine)

  • Liangdong Wang

    (Zhejiang University)

  • Yiqi Hu

    (Zhejiang University School of Medicine)

  • Fangzhu Han

    (Zhejiang University School of Medicine)

  • Jiancang Zhou

    (Zhejiang University School of Medicine)

  • Yong Wang

    (Zhejiang University
    International Campus of Zhejiang University)

  • Long Zhou

    (Zhejiang University School of Medicine)

Abstract

Euglena gracilis, a model organism of the eukaryotic supergroup Discoba harbouring also clinically important parasitic species, possesses diverse metabolic strategies and an atypical electron transport chain. While structures of the electron transport chain complexes and supercomplexes of most other eukaryotic clades have been reported, no similar structure is currently available for Discoba, limiting the understandings of its core metabolism and leaving a gap in the evolutionary tree of eukaryotic bioenergetics. Here, we report high-resolution cryo-EM structures of Euglena’s respirasome I + III2 + IV and supercomplex III2 + IV2. A previously unreported fatty acid synthesis domain locates on the tip of complex I’s peripheral arm, providing a clear picture of its atypical subunit composition identified previously. Individual complexes are re-arranged in the respirasome to adapt to the non-uniform membrane curvature of the discoidal cristae. Furthermore, Euglena’s conformationally rigid complex I is deactivated by restricting ubiquinone’s access to its substrate tunnel. Our findings provide structural insights for therapeutic developments against euglenozoan parasite infections.

Suggested Citation

  • Zhaoxiang He & Mengchen Wu & Hongtao Tian & Liangdong Wang & Yiqi Hu & Fangzhu Han & Jiancang Zhou & Yong Wang & Long Zhou, 2024. "Euglena’s atypical respiratory chain adapts to the discoidal cristae and flexible metabolism," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46018-z
    DOI: 10.1038/s41467-024-46018-z
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