Studies on electron paramagnetic resonance spectra manifested by a respiratory chain hydrogen carrier.

The high-potential iron-sulfur protein (HiPIP) center of succinate dehydrogenase has an electron paramagnetic resonance (epr) signal in the oxidized form, centered at g = 2.01, and under certain conditions this epr signal is accompanied by absorbances at g = 2.04, g = 1.99, and g = 1.96. These absorbances have been attributed to a spin-spin interaction of paramagnetic species, the semiquinone form of ubiquinone being involved (Ruzicka et al., Proc. Nat. Acad. Sci. USA72, 2886). In the present work this magnetic interaction is studied further; it is concluded that of the three possible species (HiPIP, Flavin H and UQ?H (ubiquinone)) which may interact with UQ?H; a second UQ? most likely partner for the interaction. Nonetheless, the HiPIP center of succinate dehydrogenase also plays a role in the interaction by acting as a “magnetic relaxer” of one or both of the interacting UQ?Hs. The physiological reaction of that part of the ubiquinone pool associated with the succinate dehydrogenase (on the matrix side of the inner mitochondrial membrane) is UQH₂ ? UQ?H + H⁺ + e^?. This is in line with recent postulates of the mechanism of ubiquinone mediation in electron transfer.