The effect of protons on the axial ligand coordination and on structural aspects of the protein moiety of cytochrome c' ' from Methylophilus methylotrophus, an obligate methylotroph, has been investigated down to very low pH (i.e., 0.3). The unusual resistance of this cytochrome to very low pH values has been exploited to carry out this study in comparison with horse heart cytochrome c. The experiments were undertaken at a constant phosphate concentration to minimize the variation of ionic strength with pH. The pH-linked effects have been monitored at 23 degrees C in the oxidized forms of both cytochromes by following the variations in the electronic absorption, circular dichroism and resonance Raman spectra. This approach has enabled the conformational changes of the heme surroundings to be monitored and compared with the concomitant overall structural rearrangements of the molecule. The results indicate that horse heart cytochrome c undergoes a first conformational change at around pH 2.0. This event is possibly related to the cleavage of the Fe-Met80 bond and a likely coordination of a H(2)O molecule as a sixth axial ligand. Conversely, in cytochrome c" from M. methylotrophus, a variation of the axial ligand coordination occurs at a pH that is about 1 unit lower. Further, it appears that a concerted cleavage of both His ligands takes place, suggesting indeed that the different axial ligands present in horse heart cytochrome c (Met/His) and in cytochrome c" from M. methylotrophus (His/His) affect the heme conformational changes.