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Functional basis of electron transport within photosynthetic complex I

Author

Listed:
  • Katherine H. Richardson

    (Queen Mary University of London
    Molecular Sciences Research Hub)

  • John J. Wright

    (Queen Mary University of London
    Medical Research Council Mitochondrial Biology Unit, Wellcome Trust/MRC Building)

  • Mantas Šimėnas

    (University College London)

  • Jacqueline Thiemann

    (Ruhr University Bochum)

  • Ana M. Esteves

    (Queen Mary University of London)

  • Gemma McGuire

    (Queen Mary University of London
    Molecular Sciences Research Hub)

  • William K. Myers

    (University of Oxford)

  • John J. L. Morton

    (University College London
    UCL)

  • Michael Hippler

    (University of Münster
    Okayama University)

  • Marc M. Nowaczyk

    (Ruhr University Bochum)

  • Guy T. Hanke

    (Queen Mary University of London)

  • Maxie M. Roessler

    (Molecular Sciences Research Hub)

Abstract

Photosynthesis and respiration rely upon a proton gradient to produce ATP. In photosynthesis, the Respiratory Complex I homologue, Photosynthetic Complex I (PS-CI) is proposed to couple ferredoxin oxidation and plastoquinone reduction to proton pumping across thylakoid membranes. However, little is known about the PS-CI molecular mechanism and attempts to understand its function have previously been frustrated by its large size and high lability. Here, we overcome these challenges by pushing the limits in sample size and spectroscopic sensitivity, to determine arguably the most important property of any electron transport enzyme – the reduction potentials of its cofactors, in this case the iron-sulphur clusters of PS-CI (N0, N1 and N2), and unambiguously assign them to the structure using double electron-electron resonance. We have thus determined the bioenergetics of the electron transfer relay and provide insight into the mechanism of PS-CI, laying the foundations for understanding of how this important bioenergetic complex functions.

Suggested Citation

  • Katherine H. Richardson & John J. Wright & Mantas Šimėnas & Jacqueline Thiemann & Ana M. Esteves & Gemma McGuire & William K. Myers & John J. L. Morton & Michael Hippler & Marc M. Nowaczyk & Guy T. Ha, 2021. "Functional basis of electron transport within photosynthetic complex I," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25527-1
    DOI: 10.1038/s41467-021-25527-1
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    Cited by:

    1. Huili Sun & Guodong Luan & Yifan Ma & Wenjing Lou & Rongze Chen & Dandan Feng & Shanshan Zhang & Jiahui Sun & Xuefeng Lu, 2023. "Engineered hypermutation adapts cyanobacterial photosynthesis to combined high light and high temperature stress," Nature Communications, Nature, vol. 14(1), pages 1-20, December.

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