1. Mutational effects on the spectroscopic properties and biological activities of oxidized bovine adrenodoxin, and their structural implications.
- Author
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Beckert, Vita, Schrauber, Hannelore, Bernhardt, Rita, Van Dijk, Alard A., Kakoschke, Christel, and Wray, Victor
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FERREDOXIN-NADP reductase ,CYTOCHROMES ,CYTOCHROME P-450 ,CYTOCHROME c ,PHYSIOLOGICAL oxidation ,BIOCHEMISTRY - Abstract
Of the aromatic ¹H-NMR signals of oxidized bovine adrenodoxin only those of His56 showed intrinsic chemical shift changes upon replacement of Tyr82 by Ser or Leu, that must arise from a loss of a through-space ring-current effect of the tyrosine ring in these mutants. Thus, of the three His residues contained in adrenodoxin, His56 is closest to Tyr82, and hence to the highly acidic determinant region of adrenodoxin that is the interaction site for adrenodoxin reductase and P-450. The strong dependence of the fluorescence intensity of Tyr82 on the residue in position 56 supported this observation. As a consequence of this, the effects of replacement of His56 by Gln or Thr on cytochrome c reduction and cytochromes P-450
11β (CYP11B1)-dependent and P-450sec (CYP11A1)-dependent substrate conversions were studied. No influence on Vmax values was observed for all reactions mediated by the mutants, implying His56 does not play a decisive role in the intramolecular or intermolecular electron transfer. In contrast, the Km values were increased, as was the Ks value for binding of CYP11A1 to the [H56T]adrenodoxin. The secondary structure deduced from further NMR data of adrenodoxin was compared with that of other ferredoxins. Tyr82 is in a region of the molecule containing no secondary-structure elements. The data for Tyr82 are in keeping with the biological activities and suggests it is in a flexible, solvent-exposed region of the molecule. [ABSTRACT FROM AUTHOR]- Published
- 1995
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