Concerted Two-Electron Reduction of Ubiquinone in Respiratory Complex i

Authors

Muhammad A. Hagras, University of California, Davis
Alexei A. Stuchebrukhov, University of California, Davis

Document Type

Article

Publication Title

Journal of Physical Chemistry B

Abstract

Respiratory complex I catalyzes two-electron/two-proton reduction of a ubiquinone (Q) substrate bound at its Q-binding pocket; upon reduction, ubiquinole carries electrons further down the electron transport chain. The mechanism of this two-electron transfer reaction is poorly understood. Here we consider a hypothetical scheme in which two electrons transfer together with two protons in a concerted fashion. On one side, a coupled electron/proton transfer occurs from the reduced N2 FeS cluster and protonated His38 residue, respectively, while on the other side a hydrogen atom transfer occurs from the neutral Tyr87 residue, generating a tyrosyl radical. A method to evaluate the coupling matrix element that corresponds to a concerted tunneling of two electrons was developed. Overall, our calculations indicate that the concerted reaction is feasible, in which case a transient tyrosyl radical is formed during the catalytic cycle of the enzyme.

First Page

5265

Last Page

5273

DOI

10.1021/acs.jpcb.9b04082

Publication Date

6-27-2019

Recommended Citation

Hagras, Muhammad A. and Stuchebrukhov, Alexei A., "Concerted Two-Electron Reduction of Ubiquinone in Respiratory Complex i" (2019). Basic Sciences Faculty Publications. 107. https://doi.org/10.1021/acs.jpcb.9b04082
https://collections.uhsp.edu/basic-sciences_pubs/107