A photo‐chemically induced dynamic nuclear polarization NMR study on rabbit and bovine cytochrome b5

Abstract

Although it has been indicated that proteins with chromophoric groups are not suitable for photo-chemically induced dynamic nuclear polarization (photo-CIDNP) measurements, we have successfully obtained these spectra for a heme protein, cytochrome b₅. The characteristics of the spectra differed in some points from those so far reported. The intensities of the signals in the aromatic region were very weak, while those of the β-methylene protons of one histidine and one tryptophan were extremely strong in comparison with the aromatic protons. It was demonstrated, on the basis of the photo-CIDNP spectrum, that one of seven histidines, all three tyrosines and a single tryptophan of the rabbit soluble cytochrome b₅ are exposed on the surface of the protein. The results of comparison of the photo-CIDNP spectra for the rabbit soluble and intact, and bovine intact, cytochrome b₅ led us to the conclusion that the conformation of the hydrophilic, catalytic part of cytochrome b₅ is quite similar among these three proteins. In the presence of Chaps micelles, bovine intact cytochrome b₅ was in monomeric form and the histidine signals disappeared from its photo-CIDNP spectrum. When bovine intact cytochrome b₅ was reconstituted into egg yolk phosphatidylcholine liposomes, although separate signals due to the protein part were observed in the normal ¹H-NMR spectrum, no photo-CIDNP signal could be detected. The normal spectrum suggests that the conformation of the protein embedded in liposomes is similar to that of the oligomeric form without lipids or a detergent.