Differential exposure of components of cytochrome b-c1 region in beef heart mitochondria and electron transport particles.

The reduction of cyctochromes c + c1 by durohydroquinone and ferrocyanide in electron transport particles (ETP) and intact cytochrome c-depleted beef heart mitochondria has been studied. At least 94% of the ETP are in an inverted orientation. Durohydroquinone reduces 80% of c + c1 in ETP but less than 20% in mitochondria; sonication of mitochondria allows reduction of cytochromes c + c1 (80%). Addition of ferrocyanide (effective redox potential +245 mV) to electron transport particles results in 30% reduction of cytochromes c + c1. Addition of ferrocyanide to intact cytochrome c-depleted mitochondria does not reduce cytochrome c1; treatment with N,N,N',N'-tetramethylphenylenediamine, Triton X-100, or sonic oscillation results in 30% reduction of cytochromes c + c1. The Km value of ferrocyanide oxidase for K-ferrocyanide is pH-dependent in ETP only, increasing with increasing pH. The extent of reduction of cytochrome c1 is also pH-dependent in ETP only, the extent of reduction increasing with decreasing pH. On the basis of these data cytochrome c1 is exposed to the matrix face and cytochrome c is exposed to the cytoplasmic face. No redox center other than cytochrome c in the segment between the antimycin site and cytochrome c is exposed on the C-side.