# Catalytic relevance of a quinol anion in biological energy conversion by respiratory complex I

**Authors:** Oleksii Zdorevskyi, Johannes Laukkanen, Vivek Sharma

PMC · DOI: 10.1039/d5sc07500a · Chemical Science · 2026-01-30

## TL;DR

This paper reveals that a negatively charged quinol anion plays a key role in the energy conversion process of respiratory complex I in mitochondria.

## Contribution

The study provides new insights into the anionic nature of the semiquinone species and its role in proton pumping during redox reactions in complex I.

## Key findings

- The semiquinone species in complex I is anionic and can be trapped in the active site chamber.
- The two-electron reduction of ubiquinone produces a metastable ubiquinol anion that drives proton pumping.
- A conserved histidine undergoes tautomeric changes during protonic rearrangements in the active site.

## Abstract

Redox chemistry of quinones is an essential component of life on Earth. In the mitochondrial electron transport chain, the ubiquinone molecule is reduced to ubiquinol by respiratory complex I to drive the synthesis of ATP. By performing both classical and hybrid QM/MM simulations on high-resolution cryo-EM structures, including quantitative free energy calculations, we show that the semiquinone species in complex I is anionic in nature and can be trapped in the active site chamber for its subsequent reduction. Two-electron reduction of ubiquinone yields a metastable ubiquinol anion, which is electrostatically pushed by 15–20 Å towards the exit of the ubiquinone binding chamber to drive the proton pump of complex I. As part of the two-electron reduction of ubiquinone, protonic rearrangements take place in the active site in which a highly conserved histidine converts from its one tautomeric state to another. The combined findings challenge the currently held views on quinone redox chemistry of respiratory complex I and provide a detailed and testable mechanistic picture of the proton-coupled electron transfer reaction at its active site under wild-type and mutant conditions.

Quinol anion in respiratory complex I.

## Linked entities

- **Chemicals:** ubiquinol (PubChem CID 9962735)

## Full-text entities

- **Chemicals:** ubiquinone (MESH:D014451), ubiquinol (MESH:C003741), quinol anion (-), quinone (MESH:C004532), quinones (MESH:D011809), ATP (MESH:D000255), proton (MESH:D011522)

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12890310/full.md

## References

67 references — full list in the complete paper: https://tomesphere.com/paper/PMC12890310/full.md

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Source: https://tomesphere.com/paper/PMC12890310