Evidence for the presence of di- and triphospho pyridine nucleotide dehydrogenase derivatives as consistent contaminants of purified beef heart cytochrome-c oxidase

Abstract

Purified beef heart cytochrome-c oxidase preparations derived by three different laboratories contain NADH-K₃ Fe(CN)₆, NADH-nitrobluetetrazolium, and NADPH-nitrobluetetrazolium reductases. This is true of preparations exhibiting heme aa₃ to protein ratios considered indicative of an excellent purity. An apparent association of cytochrome-c oxidase and one or more of the contaminants persists through immunodiffusion and nondenaturing electrophoresis and, in addition, in one instance copurification of NADH-K₃ Fe(CN)₆ reductase and cytochrome-c oxidase to a constant ratio of specific activities was demonstrated. Cytochrome-c oxidase can be freed of the contaminants by equilibration with an NAD⁺-affinity matrix. As a concomitant of equilibration with the matrix, theK _M of cytochrome-c oxidase for ferrocytochrome-c is invariably decreased. Rate constants at low ferrocytochrome-c concentrations are consistently enhanced in all oxidase preparations upon equilibration with the NAD⁺ matrix. However, the effects of such equilibrations on the extrapolatedV _max varies from one preparation to another. Polyacrylamide gel electrophoresis in SDS-urea systems establishes that each of the preparations contains a minimum of three contaminants, each of an apparent formula weight of greater than 40,000 Daltons. NADH-NBT reductase was found to have a formula weight of approximately 46,000 Daltons. Their properties establish that NADH-K₃ Fe(CN)₆ and NADH-NBT reductases are separate proteins; the separate identity of NADPH-NBT reductase has not yet been determined.