Filling the catalytic site of cytochrome c oxidase with electrons -: Reduced Cub facilitates internal electron transfer to heme a3

In the reductive phase of its catalytic cycle, cytochrome c oxidase receives electrons from external electron donors. Two electrons have to be transferred into the catalytic center, composed of heme a(3) and Cu-B, before reaction with oxygen takes place. In addition, this phase of catalysis appears to be involved in proton translocation. Here, we report for the first time the kinetics of electron transfer to both heme a(3) and CuB during the transition from the oxidized to the fully reduced state. The state of reduction of both heme a(3) and CuB was monitored by a combination of EPR spectroscopy, the rapid freeze procedure, and the stopped-flow method. The kinetics of cytochrome c oxidase reduction by hexaamineruthenium under anaerobic conditions revealed that the rate-limiting step is the initial electron transfer to the catalytic site that proceeds with apparently identical rates to both heme a(3) and CuB. After CuB is reduced, electron transfer to oxidized heme a(3) is enhanced relative to the rate of entry of the first electron.