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Water-Gated Proton Transfer Dynamics in Respiratory Complex I.


ABSTRACT: The respiratory complex I transduces redox energy into an electrochemical proton gradient in aerobic respiratory chains, powering energy-requiring processes in the cell. However, despite recently resolved molecular structures, the mechanism of this gigantic enzyme remains poorly understood. By combining large-scale quantum and classical simulations with site-directed mutagenesis and biophysical experiments, we show here how the conformational state of buried ion-pairs and water molecules control the protonation dynamics in the membrane domain of complex I and establish evolutionary conserved long-range coupling elements. We suggest that an electrostatic wave propagates in forward and reverse directions across the 200 Å long membrane domain during enzyme turnover, without significant dissipation of energy. Our findings demonstrate molecular principles that enable efficient long-range proton-electron coupling (PCET) and how perturbation of this PCET machinery may lead to development of mitochondrial disease.

SUBMITTER: Muhlbauer ME 

PROVIDER: S-EPMC7659035 | biostudies-literature | 2020 Aug

REPOSITORIES: biostudies-literature

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Water-Gated Proton Transfer Dynamics in Respiratory Complex I.

Mühlbauer Max E ME   Saura Patricia P   Nuber Franziska F   Di Luca Andrea A   Friedrich Thorsten T   Kaila Ville R I VRI  

Journal of the American Chemical Society 20200730 32


The respiratory complex I transduces redox energy into an electrochemical proton gradient in aerobic respiratory chains, powering energy-requiring processes in the cell. However, despite recently resolved molecular structures, the mechanism of this gigantic enzyme remains poorly understood. By combining large-scale quantum and classical simulations with site-directed mutagenesis and biophysical experiments, we show here how the conformational state of buried ion-pairs and water molecules control  ...[more]

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