The present work uses Cd-111m-perturbed angular correlations of gamma-rays (PAC) to investigate the structure of the metal site of the His117Gly mutant of Pseudomonas aeruginosa azurin in aqueous... Show moreThe present work uses Cd-111m-perturbed angular correlations of gamma-rays (PAC) to investigate the structure of the metal site of the His117Gly mutant of Pseudomonas aeruginosa azurin in aqueous solution and the effect on the structure upon addition of the following exogenous ligands: imidazole, 4-methyl imidazole, 1-methyl imidazole, 2-methyl imidazole and histidine. The nuclear quadrupole interaction of cadmium bound to the mutant without addition of exogenous ligands shows a strong pH dependence with three different nuclear quadrupole interactions consistent with two pK(a) values at about 7.2 and 8.6 at 2 degrees C. Addition of the imidazole derivatives resulted in a significant change in the PAC spectrum showing that they coordinate. This is in accordance with observations by EPR for the same mutant with copper at the metal site [den Blaauwen, T. & Canters, G. W. (1993) J. Am. Chem. Soc. 115, 1121-1129]. However, whereas EPR and ultraviolet/visual absorption show that the characteristics of the wild-type copper protein are regained by addition of the imidazole derivatives with the exception of the possible bidentates (histidine and histamine), the comparison of the PAC results to model calculations shows that the cadmium ion must be fourfold coordinated in most cases, probably binding an additional water or hydroxide ligand. A fourfold coordination is in contrast to cadmium-substituted wild-type azurin where PAC data inferred a threefold coordination by a Cys and two His residues. Show less
The geometries of the metal sites in cadmium-substituted azurins have been investigated by Cd-111m perturbed angular correlation (PAC), The study includes wild type azurin as well as Met(121)... Show moreThe geometries of the metal sites in cadmium-substituted azurins have been investigated by Cd-111m perturbed angular correlation (PAC), The study includes wild type azurin as well as Met(121) mutants of azurin, where methionine has been substituted by Ala, Asn, Asp, Gin, Glu, and Leu.The nuclear quadrupole interaction of wild type azurin analyzed in the angular overlap model is well described as coordination of His(46), His(117), and Cys(112) and cannot be described by coordination of Met(121) and/or Gly(45).For most of the mutants, there exist two coordination geometries of the cadmium ion, With the exception of the Gau and Asp mutants, one of the conformations is similar to the wild type conformation. The other coordination geometries are either best described by a coordinating water molecule close to the original methionine position or by coordination by the substituting amino acid, These experiments show that even though the methionine does not coordinate it plays an important role for the geometry of the metal site.The nuclear quadrupole interaction of stellacyanin was also measured, The value resembles the most prominent nuclear quadrupole interaction of the Met(121) --> Gin mutant of Alcaligenes denitrificans azurin, indicating that the structures of the two metal sites are similar. Show less
Tröger, W.; Butz, T.; Danielsen, E.; Bauer, R.; Thoenes, U.; Messerschmidt, A.; ... ; Blaauwen, T. den 1993
The nuclear quadrupole interaction (NQI) of Cd-111 substituted for Cu(II) on type-1 sites in blue copper proteins is characterized by high values of omega0 in the region of 300 Mrad/s, close to... Show moreThe nuclear quadrupole interaction (NQI) of Cd-111 substituted for Cu(II) on type-1 sites in blue copper proteins is characterized by high values of omega0 in the region of 300 Mrad/s, close to that for the catalytic zinc site in alcohol dehydrogenase. Type-I Cu has usually two sulfur ligands and two nitrogen ligands and in some cases an oxygen ligand in either a distorted tetrahedral geometry or in a trigonal bipyramidal geometry. The near tetrahedral arrangement together with the ligand sphere containing the same number of sulfur ligands explains the value of omega0 in the blue copper proteins. The present work determined the partial NQI for methionine using the known structure of azurin. This value was then used in the angular overlap model to calculate the NQI for ascorbate oxidase the structure of which is also known and gave good agreement with experiment. NQI data for laccase and stellacyanin the structures of which are unknown, are also given. Show less