Proton nuclear magnetic resonance investigation of adrenodoxin

Bovine, porcine and sheep adrenodoxin, and the trypsin‐resistant form of bovine adrenodoxin have been studied by one‐ and two‐dimensional 1 H‐NMR spectroscopy. Assignment of the resonances for all the aromatic amino acids with resolved aromatic resonances have been made by correlating NMR spectra with the amino acid sequences from various species. Slowly exchanging amide protons and downfield shifted α‐protons of His10 and Phe11 suggest possible involvement in β‐sheet structure. The effects on the assigned resonances due to the specific spin‐lable with a nitroxide radical at Cys95 have been analyzed on a two‐dimensional 1 H‐NMR spectrum. The present results provide evidence for a structural similarity with a model for the structure of adrenodoxin based on a sequence alignment with that of Spirulina platensis ferredoxin, for which X‐ray crystallographic data is available. ɛ‐Methyl groups of Met120 and Met122 have been assigned by comparing 1 H‐NMR spectra of adrenodoxin with those of the trypsin‐resistant form of adrenodoxin which is specifically cleaved at Arg115. ɛ‐Methyl groups of Met120 and Met122 have an exceptionally long longitudinal relaxation time compared with those of valyl and leucyl methyl groups, suggesting that the COOH‐terminal peptide spanning over 13 amino acids rotates rather freely in the solvent.