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Theoretical Study of the Mechanisms of Substrate Recognition by Catalase

2001; American Chemical Society; Volume: 123; Issue: 39 Linguagem: Inglês

10.1021/ja010512t

1943-2984

Susana G. Kalko, Josep Lluis Gelpí, Ignacio Fita, Modesto Orozco,

Electrochemical sensors and biosensors

A variety of theoretical methods including classical molecular interaction potentials, classical molecular dynamics, and activated molecular dynamics have been used to analyze the substrate recognition mechanisms of peroxisomal catalase from Saccharomyces cerevisiae. Special attention is paid to the existence of channels connecting the heme group with the exterior of the protein. On the basis of these calculations a rationale is given for the unique catalytic properties of this enzyme, as well as for the change in enzyme efficiency related to key mutations. According to our calculations the water is expected to be a competitive inhibitor of the enzyme, blocking the access of hydrogen peroxide to the active site. The main channel is the preferred route for substrate access to the enzyme and shows a cooperative binding to hydrogen peroxide. However, the overall affinity of the main channel for H2O2 is only slightly larger than that for H2O. Alternative channels connecting the heme group with the monomer interface and the NADP(H) binding site are detected. These secondary channels might be important for product release.