The X-ray crystal structures of two metal ligand mutants of azurin from Pseudomonas aeruginosa have been solved. In both mutants (His117Gly and His46Gly azurin) one of the copper coordinating... Show moreThe X-ray crystal structures of two metal ligand mutants of azurin from Pseudomonas aeruginosa have been solved. In both mutants (His117Gly and His46Gly azurin) one of the copper coordinating histidine residues is replaced by a glycine, creating an empty space in the coordination sphere of the copper ion. The crystal structure of His117Gly azurin at 2.4 Angstrom resolution showed that this mutant had undergone partial oxidation at the disulfide bridge between Cys3 and Cys26 and full oxidation at the copper ligand Cys112. There is no copper present in the crystallized form and the bulky group of the oxidized cysteine at position 112 causes large structural rearrangements in the protein structure, especially in the loops connecting the beta-sheets. In the structure of the wild-type holo-azurin from P. aeruginosa the hydrophobic patch is important for the packing of the azurin molecules into dimers which then arrange into tetramers. The completely different packing of the apo-His117Gly mutant can be explained by the disruption bf the hydrophobic patch area by the mutation-induced main-chain conformational change of residues 112 to 115. The structure of apo-His46Gly azurin at 2.5 Angstrom resolution is the same as the wild-type structure except for the immediate environment at the site of the mutation. In the His46Gly structure water molecules are found at positions that in the wild-type structure are occupied by the imidazole ring of His46 and the copper ion. The imidazole ring of His117 is shifted by about 1 Angstrom towards the surface of the protein, similar to that observed for 50% of the molecules in the wild-type apo-azurin structure. This shift causes a slight rearrangement of the monomers within the tetramer such that one local dyad becomes a crystallographic dyad parallel to the c-axis. This leads to a change in the space group from P2(1)2(1)2(1) to P2(1)2(1)2. (C) 1997 Academic Press Limited. Show less
The blue copper protein azurin from Pseudomonas aeruginosa contains a single Trp residue that is believed to be involved in the inducible intramolecular electron transfer from a disulphide group to... Show moreThe blue copper protein azurin from Pseudomonas aeruginosa contains a single Trp residue that is believed to be involved in the inducible intramolecular electron transfer from a disulphide group to the copper centre. This residue shows in fluorescence spectra the highest energy emission of tryptophan-containing compounds at room temperature, which is explained by its rigid and highly hydrophobic environment. In order to investigate the role of the Trp residue in electron transfer and the influence of its environment, two mutations (I7S and F11OS) were introduced that were thought to increase the polarity and the mobility in its environment. The crystal structures of these mutants were solved at 2.2 Angstrom and 2.3 Angstrom resolution, respectively These provide a structural basis for the changes observed in fluorescence spectra compared with the wild-type protein. We conclude from our results that these changes are not caused by a change in the dynamics of the Trp residue itself, but exclusively by an increased effective dielectric constant of the microenvironment of Trp48 and by changes in mobility of the mutated residues. (C) 1996 Academic Press Limited Show less
Coremans, J.W.A.; Gastel, M. van; Poluektov, O.G.; Groenen, E.J.J.; Blaauwen, T. den; Pouderoyen, G. van; ... ; Messerschmidt, A. 1995
We report electron-nuclear double-resonance experiments on a single crystal of azurin at 95 GHz and electron-spin-echo envelope-modulation experiments on frozen solutions of azurin and of the H117G... Show moreWe report electron-nuclear double-resonance experiments on a single crystal of azurin at 95 GHz and electron-spin-echo envelope-modulation experiments on frozen solutions of azurin and of the H117G mutant at 9 GHz. The hyperfine and quadrupole tensors of the two remote nitrogens of the histidine ligands of copper are assigned and discussed. A third nucleus is found to contribute to the echo-modulation spectrum and this probably concerns an amide nitrogen of the peptide backbone. Show less
