Bovine cytochrome c oxidase structures enable O₂ reduction with minimization of reactive oxygens and provide a proton-pumping gate

The O₂ reduction site of cytochrome c oxidase (CcO), comprising iron (Fea₃) and copper (CuB) ions, is probed by x-ray structural analyses of CO, NO, and CN⁻ derivatives to investigate the mechanism of the complete reduction of O₂. Formation of the Formula derivative contributes to the trigonal plana...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 107; no. 17; pp. 7740 - 7745
Main Authors Muramoto, Kazumasa, Ohta, Kazuhiro, Shinzawa-Itoh, Kyoko, Kanda, Katsumasa, Taniguchi, Maki, Nabekura, Hiroyuki, Yamashita, Eiki, Tsukihara, Tomitake, Yoshikawa, Shinya
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 27.04.2010
National Acad Sciences
Subjects
Animals
Biological Sciences
Carbon Monoxide - metabolism
Cattle
Cell Respiration
Copper - chemistry
Cytochromes
Electron Transport Complex IV - chemistry
Electron Transport Complex IV - metabolism
Electrons
Iron - chemistry
Ligands
Models, Molecular
Molecular Structure
Molecules
Nitric Oxide - metabolism
Oxidases
Oxidation
Oxidation-Reduction
Oxygen - chemistry
Oxygen - metabolism
Physical Sciences
Protons
Pumping
Reactive Oxygen Species - metabolism
Ungulates
Water channels
X-Ray Diffraction
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Summary:The O₂ reduction site of cytochrome c oxidase (CcO), comprising iron (Fea₃) and copper (CuB) ions, is probed by x-ray structural analyses of CO, NO, and CN⁻ derivatives to investigate the mechanism of the complete reduction of O₂. Formation of the Formula derivative contributes to the trigonal planar coordination of Formula and displaces one of its three coordinated imidazole groups while a water molecule becomes hydrogen bonded to both the CN⁻ ligand and the hydroxyl group of Tyr244. When O₂ is bound to Formula , it is negatively polarized (Formula ), and expected to induce the same structural change induced by CN⁻. This structural change allows Formula to receive three electron equivalents nonsequentially from Formula , Formula , and Tyr-OH, providing complete reduction of O₂ with minimization of production of active oxygen species. The proton-pumping pathway of bovine CcO comprises a hydrogen-bond network and a water channel which extend to the positive and negative side surfaces, respectively. Protons transferred through the water channel are pumped through the hydrogen-bond network electrostatically with positive charge created at the Fea center by electron donation to the O₂ reduction site. Binding of CO or NO to Formula induces significant narrowing of a section of the water channel near the hydrogen-bond network junction, which prevents access of water molecules to the network. In a similar manner, O₂ binding to Formula is expected to prevent access of water molecules to the hydrogen-bond network. This blocks proton back-leak from the network and provides an efficient gate for proton-pumping.
Bibliography:Edited by Douglas C Rees, Caltech/HHMI, Pasadena, CA, and approved March 10, 2010 (received for review September 12, 2009)
Author contributions: T.T. and S.Y. designed research; K.M., K.O., K.S.-I., K.K., M.T., H.N., E.Y., T.T., and S.Y. performed research; K.M., K.O., K.K., M.T., H.N., E.Y., and T.T. analyzed data; and K.M., T.T., and S.Y. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0910410107