Spectral Analysis of Cytochrome c: Effect of Heme Conformation, Axial Ligand, Peripheral Substituents, and Local Electric Fields

We present in this work low-temperature visible absorption spectra for recombinant Thermus thermophilus cytochrome c552. The Q-band presents a remarkable splitting at low temperature. We performed quantum chemical calculations to evaluate quantitatively the effect of heme conformation, axial ligand, peripheral substituents and local electric fields on the electronic spectra. In an attempt to find correlation between protein structure and spectral splitting, we carried out the same calculations on three other cytochrome c's: horse heart, tuna heart, and yeast. The quantum chemical calculations were performed at the INDO level with extensive configuration interaction. The electric field at the heme pocket was included in the calculations through a set of point charges fitting the actual electric field. The results obtained show clearly that all mentioned effects contribute to the observed spectral splitting in a complex nonadditive way.