Structure of Metal Site in Azurin, Met121 Mutants of Azurin, and Stellacyanin Investigated by 111mCd Perturbed Angular Correlation (PAC)

Eva Danielsen,Rogert Bauer,Lars Hemmingsen,Marie-Louise Andersen,Morten J Bjerrum,Tilman Butz,Wolfgang Tröger,Gerard W Canters,Carla W.G Hoitink,Göran Karlsson,Örjan Hansson,Albrecht Messerschmidt

doi:10.1074/jbc.270.2.573

Abstract

The geometries of the metal sites in cadmium-substituted azurins have been investigated by 111mCd perturbed angular correlation (PAC). The study includes wild type azurin as well as Met121 mutants of azurin, where methionine has been substituted by Ala, Asn, Asp, Gln, Glu, and Leu. The nuclear quadrupole interaction of wild type azurin analyzed in the angular overlap model is well described as coordination of His46, His117, and Cys112 and cannot be described by coordination of Met121 and/or Gly45. For most of the mutants, there exist two coordination geometries of the cadmium ion. With the exception of the Glu 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 Met121-->Gln mutant of Alcaligenes denitrificans azurin, indicating that the structures of the two metal sites are similar.

Highlights

Structure of Metal Site in Azurin, Met121 Mutants of Azurin, and Stellacyanin Investigated by llhnCd Perturbed Angular Correlation (PAC)*
The present paper addresses the question as to whether any conformational changes occur at the metal site in cadmium-substituted azurin upon substitution of the methionine residue with other amino acids
The use of Cd PAC on copper proteins has the advantage that cadmium with its d lO configuration might give some information on the behavior of Cu(!) not accessible by other spectroscopic techniques

Summary

Introduction

Structure of Metal Site in Azurin, Met121 Mutants of Azurin, and Stellacyanin Investigated by llhnCd Perturbed Angular Correlation (PAC)*. The geometries of the metal sites in cadmium-substituted azurins have been investigated by 111mCd perturbed angular correlation (PAC). 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

Methods

Results

Discussion

Conclusion