Thermodynamic redox behavior of the heme centers in A-type heme-copper oxygen reductases: comparison between the two subfamilies.

The study of the thermodynamic redox behavior of the hemes from two members of the A family of heme-copper oxygen reductases, Paracoccus denitrificans aa3 (A1 subfamily) and Rhodothermus marinus caa3 (A2 subfamily) enzymes, is presented. At different pH values, midpoint reduction potentials and interaction potentials were obtained in the framework of a pairwise model for two interacting redox centers. In both enzymes, the hemes have different reduction potentials. For the A1-type enzyme, it was shown that heme a has a pH-dependent midpoint reduction potential, whereas that of heme a3 is pH independent. For the A2-type enzyme the opposite was observed. The midpoint reduction potential of heme c from subunit II of the caa3 enzyme was determined by fitting the data with a single-electron Nernst curve, and it was shown to be pH dependent. The results presented here for these A-type enzymes are compared with those previously obtained for representative members of the B and C families.