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  2. Mucidin and strobilurin A are identical and inhibit electron transfer in the cytochrome bc1 complex of the mitochondrial respiratory chain at the same site as myxothiazol

Mucidin and strobilurin A are identical and inhibit electron transfer in the cytochrome bc1 complex of the mitochondrial respiratory chain at the same site as myxothiazol

  • Biochemistry. 1986 Feb 25;25(4):775-80. doi: 10.1021/bi00352a006.
G Von Jagow G W Gribble B L Trumpower
Abstract

Mucidin and strobilurin A, antifungal Antibiotics isolated from the basidiomycetes Oudemansiella mucida and Strobiluris tenacellus, respectively, inhibit electron-transfer reactions in the cytochrome bc1 complex of the mitochondrial respiratory chain. The two compounds have identical effects on oxidation-reduction reactions of the cytochromes b and c1 in isolated succinate-cytochrome c reductase. They inhibit reduction of cytochrome c1 by succinate but do not inhibit reduction of cytochrome b. When added in combination with antimycin, either inhibitor blocks reduction of both cytochromes b and c1. Mucidin and strobilurin A differ from antimycin in that they inhibit, rather than promote, oxidant-induced reduction of cytochrome b. They also differ from antimycin in that they do not block reduction of cytochrome b by succinate when cytochrome c1 is previously reduced by ascorbate and they do not inhibit oxidation of cytochrome b by fumarate. These effects of mucidin and strobilurin A are, however, qualitatively identical with those of myxothiazol, an Antibiotic that inhibits respiration by binding to cytochrome b [Von Jagow, G., Ljungdahl, P. O., Graf, P., Ohnishi, T., & Trumpower, B. L. (1984) J. Biol. Chem. 259, 6319-6326]. Mucidin and strobilurin A have identical UV and mass spectra, and they elute together on high-pressure liquid chromatography. We thus conclude that these Antibiotics, although isolated from different bacteria, are structurally identical. Our results indicate that strobilurin A and mucidin inhibit electron transport at the same site as myxothiazol and not at the antimycin site, as previously reported [Subik, J., Behren, M., & Musilek, V. (1974) Biochem. Biophys. Res. Commun. 57, 17-22].

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