Properties of Arg481 mutants of the aa3-type cytochrome c oxidase from Rhodobacter sphaeroides suggest that neither R481 nor the nearby D-propionate of heme a3 is likely to be the proton loading site of the proton pump.

Cytochrome c oxidase utilizes the energy from electron transfer and reduction of oxygen to water and pumps protons across the membrane, generating a proton motive force. A large body of biochemical work has shown that all the pumped protons enter the enzyme through the D-channel, which is apparent in X-ray structures as a chain of water molecules connecting D132 at the cytoplasmic surface of the enzyme to E286, near the enzyme active site. The exit pathway utilized by pumped protons beyond this point and leading to the bacterial periplasm is not known. Also not known is the proton loading site (or sites) which undergoes changes in pKa in response to the chemistry at the enzyme active site and drives the proton pump mechanism. In this paper, we examine the role of R481, a highly conserved arginine that forms an ion pair with the D-propionate of heme a3. The R481H, R481N, R481Q, and R481L mutants were examined. The R481H mutant oxidase is ∼18% active and pumps protons with ∼40% of the stoichiometry of the w...