Abstract

The kinetics of the redox reaction of sperm whale and pig oxymyoglobins (MbO2) with ferricytochrome C (CytC) from pig heart has been studied in the pH range 5–8. Also, the effects of histidine (His) modification and of the complexing of both myoglobins with Zn2+, on the electron transfer rate, has been investigated. It has been shown that pig MbO2 reduces Cyt C much more effectively than sperm whale MbO2. The pH dependence of the reaction rate is shown to result from the influence of two histidines, His 12(A10) and His 119(GH1), in the case of sperm whale myoglobin and only of His GH1 in the case of pig MbO2. The protonation of His A10 at pH<7.5 decreases the rate of the reaction with Cyt C whereas the ionization of His GH1, on the contrary, increases the electron transfer rate 10–30 times (atI=0.03). The His residues of Cyt C are shown to have no effect on the reaction. Complexing of His GH1 with a zinc ion strongly inhibits the reaction of both sperm whale and pig MbO2 with Cyt C. The reaction of the zinc-MbO2 complexes, as distinct from the intact oxymyoglobins, becomes independent of pH and ionic strength. Unlike His A10, His GH1 plays a very important role in the formation of the electron transfer complexes, and is probably directly involved in the charge transfer step. Based on the data obtained, the reactive site of the Mb surface has been identified in the A-GH region. The spatial arrangement of the charged groups in the reactive sites of the two myoglobins has been obtained. The solvent accessibilities of all amino acid residues situated there have been calculated, according to Lee and Richards. In order to explain the different reactivities of sperm whale and pig myoglobins, their electrostatic properties and the steric features of the contact sites have been compared.

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