Localization of cytochrome c-binding domain on NADPH-cytochrome P-450 reductase.

A covalent complex between purified rat liver microsomal NADPH-cytochrome P-450 reductase and horse cytochrome c was formed through cross-linking studies with 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide at low ionic strength. The purified cross-linked derivative shows that this product is a 1:1 complex containing one molecule each of the flavoprotein and cytochrome. The covalent complex had almost completely blocked the electron transfer from NADPH to exogenous cytochrome c or the rabbit liver microsomal cytochrome P-450 induced by phenobarbital, indicating that the cross-linked cytochrome c covers the electron-accepting site of the reductase. These results suggest that the covalently cross-linked derivative is a valid model of the noncovalent electron transfer complex. Although the exact number and site of the cross-linked location were not determinable, in cytochrome c the amide bond originates from Lys-13 and in reductase it might be at any one of six different side chain carboxyl groups in the two neighboring cluster acidic residues, Asp-207, -208, and -209, and Glu-213, Glu-214, and Asp-215. It is therefore proposed that the six clustered carboxyl groups on reductase are in an exposed location near the area where one heme edge comes close to the molecular surface.