Interactions between spinach ferredoxin and other electron carriers: The involvement of a ferredoxin:Cytochrome c complex in the ferredoxin-linked cytochrome c reductase activity of ferredoxin:NADP + oxidoreductase

Abstract

The trinitrophenylation of a single amino group of spinach ferredoxin abolishes its ability to inhibit the diaphorase activity of the flavoprotein, ferredoxin:NADP oxidoreductase (EC 1.6.7.1); in contrast, the ability of ferredoxin to participate in the ferredoxin-linked cytochrome c reductase activity catalyzed by the flavoprotein is unaffected. Comparison with previously published results [Davis, D. J., and San Pietro, A. (1977) Biochem. Biophys. Res. Commun. 74, 33–40]indicates that the site of interaction between ferredoxin and the flavoprotein resulting in inhibition if diaphorase activity is responsible for the spectrally observable 1:1 complex between the two proteins and is identical to the site of ferredoxin involvement in NADP photoreduction. The role of ferredoxin in the ferredoxin-linked cytochrome c reductase activity of the flavoprotein has been reexamined under conditions were the entire electron-accepting system (rather than just the ferredoxin component) is rate limiting. The data support a mechanism by which ferredoxin can bind either to the flavoprotein or to cytochrome c, and the ferredoxin:cytochrome c complex serves as the true substrate for reduction by the flavoprotein. Furthermore, Chromatographic evidence is presented for the formation of complexes between ferredoxin and cytochrome c.