Three-dimensional structure of ubiquinol: Cytochrome C reductase from Neurospora mitochondria determined by electron microscopy of membrane crystals

Membrane crystals have been prepared from mitochondrial ubiquinol: cytochrome c reductase by mixing the enzyme-Triton complex with phospholipid-Triton micelles and subsequently removing the Triton. The electron micrographs of the negatively stained crystals diffract to 2·5 nm, with unit cell dimensions of 13·7 nm by 17·4 nm. The enzyme is arranged in a two-sided plane group P22₁2₁, i.e. alternate molecules span the bilayer in an up and down manner. By combining tilted views of the membrane crystals, a low-resolution three-dimensional structure of the enzyme has been calculated. The structure shows that the enzyme is a dimer, the monomers being related by a 2-fold axis running perpendicular to the membrane. The monomeric units of the enzyme are elongated, extending approximately 15 nm across the membrane. The protein is unequally distributed with about 30% of the total mass located in the bilayer, 50% in a section which extends 7 nm from one side of the bilayer and 20% in a section which extends 3 nm from the opposite side of the bilayer. The two monomeric units are in contact only in the membraneous section. This structure is compared with a model of the enzyme which is derived from biochemical properties of the isolated subunits.