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Structural basis for enzymatic photocatalysis in chlorophyll biosynthesis

Author

Listed:
  • Shaowei Zhang

    (The University of Manchester)

  • Derren J. Heyes

    (The University of Manchester)

  • Lingling Feng

    (Shanghai Jiao Tong University School of Medicine)

  • Wenli Sun

    (Chinese Academy of Agricultural Sciences)

  • Linus O. Johannissen

    (The University of Manchester)

  • Huanting Liu

    (C4-101, Nitrogen Fixation Laboratory, Qi Institute)

  • Colin W. Levy

    (The University of Manchester)

  • Xuemei Li

    (Institute of Biophysics, Chinese Academy of Sciences)

  • Ji Yang

    (C4-101, Nitrogen Fixation Laboratory, Qi Institute)

  • Xiaolan Yu

    (C4-101, Nitrogen Fixation Laboratory, Qi Institute)

  • Min Lin

    (Chinese Academy of Agricultural Sciences)

  • Samantha J. O. Hardman

    (The University of Manchester)

  • Robin Hoeven

    (The University of Manchester)

  • Michiyo Sakuma

    (The University of Manchester)

  • Sam Hay

    (The University of Manchester)

  • David Leys

    (The University of Manchester)

  • Zihe Rao

    (Institute of Biophysics, Chinese Academy of Sciences)

  • Aiwu Zhou

    (Shanghai Jiao Tong University School of Medicine)

  • Qi Cheng

    (Chinese Academy of Agricultural Sciences
    C4-101, Nitrogen Fixation Laboratory, Qi Institute
    Zhejiang University of Technology)

  • Nigel S. Scrutton

    (The University of Manchester)

Abstract

The enzyme protochlorophyllide oxidoreductase (POR) catalyses a light-dependent step in chlorophyll biosynthesis that is essential to photosynthesis and, ultimately, all life on Earth1–3. POR, which is one of three known light-dependent enzymes4,5, catalyses reduction of the photosensitizer and substrate protochlorophyllide to form the pigment chlorophyllide. Despite its biological importance, the structural basis for POR photocatalysis has remained unknown. Here we report crystal structures of cyanobacterial PORs from Thermosynechococcus elongatus and Synechocystis sp. in their free forms, and in complex with the nicotinamide coenzyme. Our structural models and simulations of the ternary protochlorophyllide–NADPH–POR complex identify multiple interactions in the POR active site that are important for protochlorophyllide binding, photosensitization and photochemical conversion to chlorophyllide. We demonstrate the importance of active-site architecture and protochlorophyllide structure in driving POR photochemistry in experiments using POR variants and protochlorophyllide analogues. These studies reveal how the POR active site facilitates light-driven reduction of protochlorophyllide by localized hydride transfer from NADPH and long-range proton transfer along structurally defined proton-transfer pathways.

Suggested Citation

  • Shaowei Zhang & Derren J. Heyes & Lingling Feng & Wenli Sun & Linus O. Johannissen & Huanting Liu & Colin W. Levy & Xuemei Li & Ji Yang & Xiaolan Yu & Min Lin & Samantha J. O. Hardman & Robin Hoeven &, 2019. "Structural basis for enzymatic photocatalysis in chlorophyll biosynthesis," Nature, Nature, vol. 574(7780), pages 722-725, October.
    • Handle: RePEc:nat:nature:v:574:y:2019:i:7780:d:10.1038_s41586-019-1685-2
    DOI: 10.1038/s41586-019-1685-2
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    Cited by:

    1. Xian Zhou & Xiaofeng Gao & Mingjie Liu & Zirui Gao & Xuetao Qin & Wenhao Xu & Shitong Ye & Wenhua Zhou & Haoan Fan & Jing Li & Shurui Fan & Lei Yang & Jie Fu & Dequan Xiao & Lili Lin & Ding Ma & Siyu , 2022. "Photocatalytic dehydrogenative C-C coupling of acetonitrile to succinonitrile," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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