Comparison of the Respiratory Chain ofNeurospora crassaWild Type and the mi‐Mutants mi‐1 and mi‐3

Abstract

Mitochondria from maternally inherited mutants ofNeurospora crassami‐1 (poky) and mi‐3 were examined with respect to the components of the respiratory chain, their properties and arrangement. Furthermore the sites of oxidative phosphorylation were localized. An evaluation procedure which permits the quantitative determination of the variousb‐type andc‐type cytochromes is given. All mutant mitochondria contain the same cytochromes as wild type mitochondria, such as cytochromea,a₃, cytochromecandc₁and cytochromeb₅₆₂andb₅₅₆(the indices refer to the maxima at low temperature). Yet the molar ratios of the cytochromes;a:c:c₁:b₅₆₂:b₅₅₆differ widely: in the wild type the ratios are 1.0:2.9:1.0:0.9:0,9; in mi‐1 the ratios are c₁varies slightly from 0.34 in, the wild type to 0.39 in mi‐1 and 0.32 in mi‐3. The main feature of the cytochrome pattern in mi‐1 is a very low content of cytochromea,a₃andb₅₆₂; besides that the content of cytochromecis increased by one third of the normal value. In mi‐3 only the content of cytochromea,a₃is diminished. The comparatively low content of ubiquinone in the wild type is increased 8‐fold in mi‐1 and 5‐fold in mi‐3. The content of mitochondria1 NAD remains largely unchanged. Both mitochondria from mi‐1 and mi‐3 show antimycin‐ and cyanide‐insensitive respiration. The share of uninhibited respiration depends on the activity of the different dehydrogenases and on the ratio of the capacities of both oxidase pathways. The insensitive respiration decreases with the age of the hyphae culture. The ADP/O ratio in mi‐I mitochondria is lowered, due to the cyanide‐insensitive oxidase pathway. This pathway is found to include one phosphorylation step with substrates linked to endogenous NADH. Exogenous NADH and NADPH are oxidized similarly to succinate, involving two phosphorylation sites on the cyanide‐sensitive path but no phosphorylation site on the insensitive path. Inhibitors distinguish the two oxidase pathways: the normal pathway is sensitive to cyanide and antimycin, the second pathway to salicylhydroxamate. NAD‐linked and ubiquinone‐linked substrates are oxidized by both pathways whereas tetramethyl‐p‐phenylenediamine plus ascorbate is oxidized only by the normal cyanide‐sensitive pathway. The redox state of ubiquinone in relation to antimycin and salicylhydroxamate indicates participation of ubiquinone in both paths of the mi‐1 mutant. In wild type, cytochromeb₅₆₂is largely oxidized in anaerobic uncoupled state but can be reduced to about 60–70% by ATP, whereas cytochromeb₅₅₆is largely reduced under both conditions. Cytochromeb₅₆₂is completely reduced in the antimycin‐inhibited state and becomes oxidized on reduction of cytochromec_l. In analogy to mammalian mitochondria cytochromeb₅₆₂is defined as cytochrorneb_Tand cytochromeb₅₅₆as cytochromeb_K. In contrast to the wild type, cytochromeb₅₅₆in mi‐1 remains largely oxidized even with antimycin present. Titration with antimycin gives nonlinear curves with a titer of complete inhibition at about equimolar ratio of antimycin to cytochromeb_T. In the mi‐1 mutant the antimycin titer strongly decreases parallel to the loss of cytochromeb_T.