| Abstract: | Two arylazidocytochrome c derivatives, one modified at lysine-13 and the second modified at lysine-22, were reacted with beef heart cytochrome c oxidase. The lysine-13 modified arylazidocytochrome c was found to cross-link both to the enzyme and with lipid bound to the cytochrome c oxidase complex. The lysine-22 derivative reacted only with lipids. Cross-linking to protein was through subunit II of the cytochrome c oxidase complex, as first reported by Bisson et al. Bisson, R., Azzi, A., Gutweniger, H., Colonna, R., Monteccuco, C., & Zanotti, A. (1978) J. Biol. Chem. 253, 1874]. Binding studies show that the cytochrome c derivative covalently bound to subunit II was in the high-affinity binding site for the substrate. Evidence is also presented to suggest that cytochrome c bound to the lipid was in the low-affinity binding site as defined by Ferguson-Miller et al. Ferguson-Miller, S., Brautigan, D. L., & Margoliash, E. (1976) J. Biol. Chem. 251, 1104]]. Covalent binding of the cytochrome c derivative into the high-affinity binding site was found to inhibit electron transfer even when native cytochrome c was added as a substrate. Inhibition was almost complete when 1 mol of the Lys-13 modified arylazidocytochrome c was covalently bound to the enzyme per cytochrome c oxidase dimer (i.e., congruent to 280 000 daltons). Covalent binding of either derivative with lipid (low-affinity site) had very little effect on the overall electron transfer activity of cytochrome c oxidase. These results are discussed in terms of current theories of cytochrome c-cytochrome c oxidase interactions. |
