Abstract

The catalytic mechanism for the conversion of carbon dioxide to hydrogen carbonate by a cadmium containing carbonic anhydrase was explored at density functional level employing two different models to simulate the active center of the enzyme. In the first model, the histidine residues around the metal ion were replaced with imidazole groups. Instead, in the second one, the simplest model was extended introducing two amino acidic residues generally present in the neighbor of enzyme and a deep water molecule. The results showed that cadmium carbonic anhydrase follows a reaction mechanism that is favored thermodynamically but not kinetically with respect to that of the most usual zinc-containing enzyme, both in a vacuum and in a protein environment.