Abstract
1. Ferricytochrome c1 solution was reduced completely between pH 7 and 10 by illumination under anaerobic conditions. Photoreduction was not affected by the ionic strength of the medium. However, it did not take place at pH lower than 6 or higher than 10, or in the presence of p-hydroxymercuric benzoate. The ferricyanide-reoxidized photoreduced c1 was not further reduced upon illumination. The reductant was most probably a specific sulfhydryl group in the subunit containing the heme of the cytochrome since this subunit contained one less p-HMB-titratable group in the photoreduced sample than in the untreated preparation. 2. The photoreduced cytochrome c1 showed the same spectra as the native cytochrome, and was not reactive with carbon monoxide. The equilibrium constant of the reaction c12+ + c3+ equilibrium c13+ + c2+ for the photoreduced c1 was found to be slightly lower (Keq = 2.6) than that for the native c1 (Keq = 3.5). The antimycin A-sensitive electron acceptor activity of ferricyanide-reoxidized photoreduced c13+ catalyzed by succinate-cytochrome c reductase was about 80% of that of the native c1. 3. A somewhat simplified method for isolation of cytochrome c1 was developed. Anaerobic ammonium sulfate fractionation and calcium phosphate gel chromatography were still used in order to achieve the purity level of about 25 nmol of heme/mg of protein. The cytochrome c1 prepared by this procedure showed the same properties tested as that by the beta-mercaptoethanol method (Yu, C.A., Yu, L., and King, T.E. (1972) J. Biol. Chem. 247, 1012-1019).
Highlights
In order to understand electron transfer and energy transduction in mitochoudria, it is important to study as many properties as possible for all purified respiratory components. This is especially true for cytochrome cl because it is the immediate electron donor of cytochrome c
This paper reports the photoreduction of cytochrome cl
JVhen photoreduction was conducted in the presence of oxygen, the reduction rate of cytoclirome c1 was much slowrr aild rnasimal reduction was found to be only about 407; of that under anaerobic conditions
Summary
The antimycin A-sensitive electron acceptor activity of ferricyanide-reoxidized photoreduced c13+ catalyzed by succinate-cytochrome c reductase was about 80%. In order to understand electron transfer and energy transduction in mitochoudria, it is important to study as many properties as possible for all purified respiratory components. This is especially true for cytochrome cl because it is the immediate electron donor of cytochrome c. The latter happens to have been studied exhaustively by practically all available methods and the 3-dimensional structures for both the oxidized and reduced c. The small amount of precipitate formed during dialysis was removed by centrifugation
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