The oxidation-reduction characteristics of cytochrome b5 in hen liver microsomes.

Hen liver microsomes contained 0.20 nmol of cytochromeb₅ per mg of protein. Upon addition of NADH about 95% cytochrome b₅ was reduced very fast with a rate constant of 206 s^?1When ferricyanide was added to the reaction system the cytochrome stayed in the oxidized form until the ferricyanide reduction was almost completed. The reduced cytochrome b₅ in microsomes was oxidized very rapidly by ferricyanide. The rate constant of 4.5 × 10⁸m^?1 s^?1, calculated on the basis of assumption that ferricyanide reacts directly with the cytochrome, was found to be more than 100 times higher than that of the reaction between ferricyanide and soluble cytochrome b₅. To explain the results, therefore, the reverse electron flow from cytochrome b₅ to the flavin coenzyme in microsomes was assumed.By three independent methods the specific activity of the microsomes was measured at about 20 nmol of NADH oxidized per s per mg of protein and it was concluded that the reduction of the flavin coenzyme of cytochrome b₅ reductase by NADH is rate-limiting in the NADH-cytochrome b₅ and NADH-ferricyanide reductase reactions of hen liver microsomes. In the NADH-ferricyanide reductase reaction the apparent Michaelis constant for NADH was 2.8 μm and that for ferricyanide was too low to be measured. In the NADH-cytochrome c reductase reaction the maximum velocity was 2.86 nmol of cytochrome c reduced per s per mg of protein and the apparent Michaelis constant for cytochrome c was 3.8 μm.