Characterization of cyanide-insensitive respiration in mitochondria and submitochondrial particles of Moniliella tomentosa

Abstract

Mitochondria and submitochondrial particles of the osmophilic yeast-like fungus Moniliella tomentosa may respire by means of two pathways: a normal cytochrome pathway, sensitive to cyanide and antimycin A, and an alternative pathway, which is insensitive to these inhibitors but is specifically inhibited by salicylhydroxamic acid. The affinities of both oxidases for succinate and NADH as substrates, for O₂ as terminal electron acceptor, and for AMP as stimulator of the alternative oxidase were determined. 1. Submitochondrial particles of M. tomentosa may also respire by means of a cyanide-sensitive and/or cyanide-insensitive system. 2. The activities of both oxidases as compared with the total activity are roughly the same in submitochondrial particles as in the original mitochondria. 3. The terminal oxidase of the cyanide-insensitive pathway requires a 10-fold higher O₂ concentration for saturation than does cytochrome c oxidase. 4. The apparent K_m for succinate is about 3 times higher for the alternative than for the normal oxidase when measured in mitochondria, and 4–10 times higher when measured in submitochondrial particles. The apparent K_m for NADH is roughly the same for both oxidases. 5. The apparent K_m values of both oxidases for succinate are always lower in submitochondrial particles than in mitochondria. 6. The apparent K_m for AMP, acting as a stimulator of the alternative oxidase, is the same (25μm) in mitochondria as in sub-mitochondrial particles. These results are discussed in the light of the structure and localization of the components of the alternative oxidase.