Abstract
Abstract Electron spin resonance (ESR) spectra of Cu(II) and Co(II) derivatives of human, monkey, and bovine carbonic anhydrases and their anion complexes are reported. The ESR signals of most of the Cu(II) derivatives indicate a coordination geometry with axial symmetry. Copper carbonic anhydrase complexes appear to have one coordination site filled by a monodentate ligand from solution. This ligand causes increasing electron delocalization from the copper ion in the order CH3COO- l OCN- l ethoxzolamide l HCO3- l azosulfamide l H2O l N3- l SH- l CN- as indicated by decreasing values of g||. The presence of highly resolved nitrogen superhyperfine structure in the spectra of the cyanide complexes of Cu(II) human carbonic anhydrases B and C identifies at least 2 equivalent nitrogen atoms as ligands to the metal ion. Carboxymethylation of the human B enzyme modifies the coordination site, but appears to leave the metal ligands unchanged. A new 2:1 cyanide complex of Co(II) carbonic anhydrase is described with an intense ESR signal typical of low spin Co(II) in an axially symmetrical environment. This is in contrast to the broad, weak absorption of the cobalt enzyme and its 1:1 anion complexes which we have examined and which appear to be high spin Co(II). While the ESR spectra of the Cu(II) and Co(II) carbonic anhydrase complexes which show intense signals are best explained by a square planar or five-coordinate square pyramidal geometry, the geometry of these inactive derivatives probably deviates from that of the catalytically active complex. These studies suggest that there is some flexibility of the ligands at the active site and that certain metal ions or anions may force deviation from the active highly distorted four-coordinate geometry.
Highlights
A new 2 : 1 cyanide complex of Co(I1) carbonic anhydrase is described with an intense Electron spin resonance (ESR) signal typical of low spin Co(I1) in an axially symmetrical environment. This is in contrast to the broad, weak absorption of the cobalt enzyme and its 1: 1 anion complexes which we have examined and which appear to be high spin Co(I1)
The present paper reports a detailed electron spin resonance study of the cobalt and copper derivatives of carbonic anhydrase
The ESR spectra of the Cu(I1) derivatives of human carbonic anhydrase R and C are characterized by g and A values that are typical of commonly occurring square-planar or tetragonally distorted octahedral Cu(I1) complexes with small molecules as ligands. [33,34,35]
Summary
Enzymes and Chemicals-The preparations of human, bovine, and monkey carbonic anhydrase and their metal derivatives have been described previously [4, 10,11,12]. In the preparation of samples of Cu(I1) carbonic anhydrase for electron spin resonance measurements care must be taken that any excess copper is removed by extensive dialysis of the enzyme against metal-free buffer. We have observed that the presence of excess enzymebound Cu(I1) can obscure even the very well resolved superhyperfine structure of the CN- complexes, the resulting signal being broad and asymmetrical in the gl region. In the case of the Cu(I1) enzyme and the other anion complexes, the signal from this extraneous enzyme-bound Cu(I1) closely overlaps that of the act.ive sit.e Cu(II), obscuring the characteristic differences between the various complexes.
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