Abstract
E.p.r. (electron-paramagnetic-resonance) spectra of ubisemiquinone (QH) organic radicals and all of the known iron-sulphur centres were studied in normal and ‘nickle-plated’ pigeon heart mitochondria, submitochondrial particles and submitochondrial particles from which succinate dehydrogenase had been removed. Incubation of pigeon heart mitochondria, submitochondrial particles or succinate dehydrogenase-depleted submitochondrial particles with substrate in the presence of pure O2 results in the accumulation of Q-H. In mitochondria, the e.p.r. spectrum of Q-H is characterized by in-homogeneous line broadening. A heterogeneous population of semiquinones appears to be partly responsible for these effects in mitochondria. Additon of Ni(II) to mitochondria renders saturation of the Q-H resonance more difficult. On the other hand, the resonance in either submitochondrial particles or succinate dehydrogenase-depleted particles is narrower than the same spectrum in mitochondria, and saturates like a homogeneous line. The presence of Ni(II) in either of these preparations, further, has no effect on either the A-H spectrum or the saturation curve. Therefore QH appears to be situated on the exterior surface of the mitochondrion. Likewise, the e.p.r. spectra and saturation curves of iron-sulphur centre N-2 exhibit characteristics of inhomogeneous line broadening, not only in intact mitochondria but also in both submitochondrial particles and succinate dehydrogenase-depleted particles. Because of the small pool size of centre N-2, this effect is likely to arise from a spin interaction with some other component in the membrane. Ni(II) has no effect on the saturation in centre N-2 in mitochondria or submitochondrial particles, and only a marginal effect in the succinate dehydrogenase-depleted preparation. These results are indeterminate with respect to the position of centre N-2 in the membrane; but suggest that its distance from the succinate dehydrogenase binding site is on the order of 1 nm. All of the other ferredoxin-type iron-sulphur centres in both preparations were not affected by paramagnetic ions. Homogeneous e.p.r. spectra and saturation curves are observed for both of the HiPIP-type (high-potential iron-sulphur protein-type) iron-sulphur centres in mitochondrial centres S-3 and bc-3. Addition of No(II) to intact mitochondria results in a dipolar interaction with centre bc-3. No effect was observed on centre S-3 in either preparation. A comprehensive model is presented for the structure of the respiratory electron-transport system in mitochondria, based on e.p.r. relaxation studies in the present and the preceding paper. There is no direct evidence for transmembrane electron flow through any of the known energy-coupling sites in mitochondria, so that direct hydrogen atom transfer across the membrane (as a combination of H+ translocation coupled to electron flow) does not occur…

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