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A new era for electron bifurcation
- Peters, John W;
- Beratan, David N;
- Bothner, Brian;
- Dyer, R Brian;
- Harwood, Caroline S;
- Heiden, Zachariah M;
- Hille, Russ;
- Jones, Anne K;
- King, Paul W;
- Lu, Yi;
- Lubner, Carolyn E;
- Minteer, Shelley D;
- Mulder, David W;
- Raugei, Simone;
- Schut, Gerrit J;
- Seefeldt, Lance C;
- Tokmina-Lukaszewska, Monika;
- Zadvornyy, Oleg A;
- Zhang, Peng;
- Adams, Michael WW
- et al.
Published Web Location
https://doi.org/10.1016/j.cbpa.2018.07.026Abstract
Electron bifurcation, or the coupling of exergonic and endergonic oxidation-reduction reactions, was discovered by Peter Mitchell and provides an elegant mechanism to rationalize and understand the logic that underpins the Q cycle of the respiratory chain. Thought to be a unique reaction of respiratory complex III for nearly 40 years, about a decade ago Wolfgang Buckel and Rudolf Thauer discovered that flavin-based electron bifurcation is also an important component of anaerobic microbial metabolism. Their discovery spawned a surge of research activity, providing a basis to understand flavin-based bifurcation, forging fundamental parallels with Mitchell's Q cycle and leading to the proposal of metal-based bifurcating enzymes. New insights into the mechanism of electron bifurcation provide a foundation to establish the unifying principles and essential elements of this fascinating biochemical phenomenon.
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