Maintenance of the secondary structure of horse cytochrome c during the conversion process of monomers to oligomers by addition of ethanol.

We have previously shown that polymerization of cytochrome c (cyt c) occurs by successively domain swapping its C-terminal α-helix in the presence of ethanol. However, the factors that govern the conversion process of monomers to domain-swapped oligomers remain unknown. We found that oligomeric cyt c is produced in the presence of ethanol and the oligomers precipitate due to low solubility. The optical absorption spectra revealed that in the presence of 30-40% ethanol, the Met-heme coordination in cyt c is dissociated. However, according to circular dichroism and small-angle X-ray scattering measurements, the α-helical structure of cyt c is maintained in solution with a little perturbation and the radius of gyration increases slightly but without dissociation of the C-terminal α-helix from the rest of the protein by the addition of ethanol. Solid-state nuclear magnetic resonance spectra showed that oligomeric cyt c in the precipitate also retains most of its α-helical structure. In the transmission electron microscopic image of the precipitate obtained by the addition of ethanol to cyt c, spherical particles with diameters of about 3 nm were detected. These results indicate that oligomeric cyt c forms through a state with the Met80 region locally unfolded, while maintaining the secondary structure, possibly an open monomer.