Purification and characterization of a 7Fe ferredoxin from Streptomyces griseus

Abstract

A ferredoxin has been purified from Streptomyces griseus grown in soybean flour-containing medium. The homogeneous protein has a molecular weight near 14,000 as determined by both PAGE and size exclusion chromatography. The iron and labile sulfide content is 6-7 atoms/mole protein. EPR spectroscopy of native S. griseus ferredoxin shows an isotropic signal at g = 2.01 which is typical of [3Fe-4S]1+ clusters and which quantitates to 0.9 spin/mole. Reduction of the ferredoxin by excess dithionite at pH 8.0 produces an EPR silent state with a small amount of a g = 1.95 type signal. Photoreduction in the presence of deazaflavin generates a signal typical of [4Fe-4S]1+ clusters at much higher yields (0.4-0.5 spin/mole) with major features at g-values of 2.06, 1.94, 1.90 and 1.88. This latter EPR signal is most similar to that seen for reduced 7Fe ferredoxins, which contain both a [3Fe-4S] and [4Fe-4S] cluster. In vitro reconstitution experiments demonstrate the ability of the S. griseus ferredoxin to couple electron transfer between spinach ferredoxin reductase and S. griseus cytochrome P-450soy for NADPH-dependent substrate oxidation. This represents a possible physiological function for the S. griseus ferredoxin, which if true, would be the first functional role demonstrated for a 7Fe ferredoxin.