Reduction of the Ferrous α-Verdoheme−Cytochrome b5 Complex

Abstract

The ferrous alpha-verdoheme-cytochrome b(5) complex, [Fe(II)(verdoheme)](+), has been prepared and characterized spectroscopically. Anaerobic addition of excess sodium dithionite to [Fe(II)(verdoheme)](+) at pH 10 produces a one-electron-reduced species with spectroscopic characteristics that suggest a ferrous hexacoordinated verdoheme pineutral radical best formulated as a [Fe(II)(verdoheme*)] --> [Fe(I)(verdoheme)] resonance hybrid. At lower pH values (7.0 and 8.0) the one-electron-reduced species is shown to disproportionate to produce the resting state [Fe(II)(verdoheme)](+) complex and the two-electron-reduced [Fe(II)(verdoheme:)](-) anion. The latter might also be formulated as a resonance hybrid [Fe(I)(verdoheme*)](-) --> [Fe(II)(verdoheme:)](-). The disproportionation reaction becomes very slow as the pH is raised above 9.0. Exposure of the one-electron- or two-electron-reduced verdoheme complexes of cytochrome b(5) to O(2) results in rapid and quantitative reoxidation to the resting state [Fe(II)(verdoheme)](+) complex.