Removal of the heme iron from cytochrome c to generate porphyrin cytochrome c relieves the quenching of porphyrin fluorescence and enhances the fluorescence of the single tryptophan residue and the 4 tyrosine residues. The intensity of the porphyrin fluorescence is not perturbed by denaturation of the protein at neutral pH using either urea or guanidine hydrochloride. However, the amplitude of tryptophan fluorescence is increased by these denaturants from 5 to about 85% of a model tryptophan residue using solutions of 2 microM tryptophan. In contrast to cytochrome c, the tryptophan fluorescence amplitude of denatured porphyrin cytochrome c is independent of pH over the range pH 3.0 to 7.4. Acidification of solutions of either native or denatured porphyrin cytochrome c markedly alters both the visible absorbance and fluorescence of the protein consistent with protonation of two pyrrole nitrogens on the porphyrin. Preliminary analysis of the spectral changes occurring in the acid transition suggests the presence of an intermediate form having only one of these two pyrrole nitrogens protonated.