Photoexcitation of the methionine-iron bond in iron(III) cytochrome c: Bimolecular reaction with NADH

When iron(III) cytochrome c aqueous solutions containing NADH are irradiated with polychromatic light (wavelength >280 nm), iron(II) cytochrome c and NAD+ in the stoichiometric ratio 2/1 are observed to be the principal reaction products, independently of the presence of oxygen; in addition, a minor process due to direct photodegradation of the nucleotide is observed. The selection of monochromatic 290 nm irradiation light (at which NADH has an absorbance minimum) and an adequate reactant concentration allowed parallel reactions to be minimized and new information to be obtained on the mechanism of the photoredox process. The experimental results are consistent with a reaction mechanism whereby NADH donates one electron to a "reactive intermediate" of the hemoprotein formed from the light-induced methionine-to-iron charge transfer excited state. In this process an NAD• radical is formed which, in deaerated solution, immediately reduces another molecule of the hemoprotein, and is itself...