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  • Title: Electron transfer between cytochrome c and the isolated CuA domain: identification of substrate-binding residues in cytochrome c oxidase.
    Author: Lappalainen P, Watmough NJ, Greenwood C, Saraste M.
    Journal: Biochemistry; 1995 May 02; 34(17):5824-30. PubMed ID: 7727443.
    Abstract:
    Subunit II of cytochrome c oxidase has a C-terminal domain that is exposed to aqueous solution on membrane surface and contains a copper center called CuA. The central part of the cytochrome c binding site is thought to reside in this domain. We have expressed the subunit II fragment of the Paracoccus denitrificans cytochrome c oxidase in a soluble form and studied its interaction with cytochrome c by stopped-flow spectroscopy. The oxidation of cytochrome c by the CuA domain follows monophasic kinetics, indicating the presence of a single kinetically competent binding site. In low ionic strength medium, the domain oxidizes Paracoccus cytochrome c-550 and horse mitochondrial cytochrome c at the rates of 1.5 x 10(6) and 3 x 10(5) M-1 s-1, respectively. The reaction rates are strongly dependent on ionic strength, which must reflect electrostatic interactions within the complex. The KD for the complex between the bacterial cytochrome c and the domain is 1.6 microM; i.e., it is similar to that between the mitochondrial cytochrome c and the intact oxidase, suggesting that both contain the same catalytically competent binding site. Using site-directed mutagenesis, we have identified five conserved residues of the CuA domain that are involved in the cytochrome c binding. Mutations of glutamine 148, glutamate 154, aspartate 206, aspartate 221, or glutamate 246 lead to a 35-85% decrease in the rate of cytochrome c oxidation. The simultaneous substitution of three invariant carboxylic acids (aspartate 206, aspartate 221, and glutamate 246) leads to a 95% decrease in the reaction rate. Conversely, the reaction can be enhanced by removing a positive charge (lysine 219) from the CuA domain.
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