[Potential difference across the membrane of subcellular particles. IV. Study of the part of the respiratory chain from FAD to cytochrome c by the ion penetration technic]

Abstract

Ability of mitochondria and submitochondrial particles (SMP) to generate a membrane potential on the addition of unpenetrating electron donors and acceptors and trimethylhydroquinone was used for specification of organization of the electron transfer chain. Ferri- and ferrocyanide added to mitochondria induce the membrane potential generation exchanging electrons only with cytochromes c or c1. Ferricyanide added to SMP induces the membrane potential taking electrons in three places: from NAD-H dehydrogenase, succinate dehydrogenase and in the presence of antimicyne A from cytochrome beta region. The difference of two sides of mitochondrial membrane is in agreement with the chemielectric hypothesis. According to this hypothesis protons from internal part of mitochondria are taken up to input H+-channel after electrons. That is why electrons come near the inner surface of the membrane and can be transferred from respiratory chain to water soluble acceptors. In output channels protons move under the action of intramembrane electrostatic field and in the direction of rising polarization of the medium. Protons are released to output channels while electrons are transferred to next carrier within the hydrophobic part of the membrane far from external surface of the membrane and cannot be transferred to water soluble acceptors.