Cytochrome c' from Rhodospirillum rubrum has been studied by proton magnetic resonance (NMR) at 270 MHz. The pH and temperature-dependence properties as well as proton water relaxation enhancement and bulk susceptibility measurements were examined. We conclude that the fifth ligand to the iron is histidine. The pH-dependent shift of the heme methyl resonances of the ferric protein shows pKa's at 5.8 and 8.7. The low-pH equilibrium causes only minor changes in the properties of the protein. However, the high-pH equilibrium causes large changes throughout the NMR spectra which correlate with the reported visible spectral changes. These NMR spectral changes are compared with the low-temperature EPR and Mössbauer spectroscopic data. Analyses of the NMR data show that a second histidine, which is present in the sequence of c' from R. rubrum but is not conserved in other cytochromes c', is not a "distal" histidine. The nature of the sixth ligand and the significance of the high-pH transition are discussed.
Cytochromes c from many eukaryotic and diverse prokaryotic organisms have been investigated and compared using high‐resolution nuclear magnetic resonance spectroscopy. Resonances have been assigned to a large number of specific groups, mostly in the immediate environment of the heme. This information, together with sequence data, has allowed a comparison of the heme environment and protein conformation for these cytochromes. All mitochondrial cytochromes c are found to be very similar to the cytochromes c2 from Rhodospirillaceae. In the smaller bacterial cytochromes, Pseudomonas aeruginosa cytochrome c551 and Euglena gracilis cytochrome c552, the orientation of groups near the heme is very similar, but the folding of the polypeptide chain is different. The heme environment of these two proteins is similar to that of the larger bacterial and mitochondrial cytochromes. Two low‐potential cytochromes, Desulfovibrio vulgaris cytochrome c553 and cytochrome c554 from a halotolerant micrococcus have heme environments which are not very similar to those of the other proteins reported here.
Nuclear magnetic resonance (NMR) spectroscopy was used to study Pseudomonas aeruginosa cytochrome c‐551. Assignments of resonances to specific residues have been made. A low‐resolution X‐ray structure was used to aid assignments. A structural comparison was made between P. aeruginosa cytochrome c‐551 and mammalian cytochrome c, based on comparisons of NMR data.
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