Discrete steps in dioxygen activation—The cytochrome oxidase/O2 reaction Gerald T. BabcockConstantine Varotsis OriginalPaper Pages: 71 - 80
Probing heart cytochromec oxidase structure and function by infrared spectroscopy W. S. CaugheyA. DongX. -J. Zhao OriginalPaper Pages: 81 - 91
Long-distance cofactor interactions in terminal oxidases studied by second-derivative absorption spectroscopy Robert A. Copeland OriginalPaper Pages: 93 - 102
Cytochromecaa 3 from the thermophilic bacteriumThermus thermophilus: A member of the heme-copper oxidase superfamily James A. FeeTatsuro YoshidaMichael W. Mather OriginalPaper Pages: 103 - 114
The sequence of electron carriers in the reaction of cytochromec oxidase with oxygen Bruce C. Hill OriginalPaper Pages: 115 - 120
Insight into the active-site structure and function of cytochrome oxidase by analysis of site-directed mutants of bacterial cytochromeaa 3 and cytochromebo Jonathan P. HoslerShelagh Ferguson-MillerRobert B. Gennis OriginalPaper Pages: 121 - 136
Protons, pumps, and potentials: Control of cytochrome oxidase Peter NichollsPeter Butko OriginalPaper Pages: 137 - 143
Functional binding of cardiolipin to cytochromec oxidase Neal C. Robinson OriginalPaper Pages: 153 - 163
Proton translocation in cytochromec oxidase: Redox linkage through proximal ligand exchange on cytochromea 3 Denis L. RousseauYuan-chin ChingJianling Wang OriginalPaper Pages: 165 - 176
Coordination dynamics of heme-copper oxidases. The ligand shuttle and the control and coupling of electron transfer and proton translocation William H. Woodruff OriginalPaper Pages: 177 - 188