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Dissecting the structural determinants of the stability of cholesterol oxidase containing covalently bound flavin.

The Journal of biological chemistry (2005-04-09)
Laura Caldinelli, Stefania Iametti, Alberto Barbiroli, Francesco Bonomi, Dimitrios Fessas, Gianluca Molla, Mirella S Pilone, Loredano Pollegioni
RÉSUMÉ

Cholesterol oxidase from Brevibacterium sterolicum is a monomeric flavoenzyme catalyzing the oxidation and isomerization of cholesterol to cholest-4-en-3-one. This protein is a class II cholesterol oxidases, with the FAD cofactor covalently linked to the enzyme through the His(69) residue. In this work, unfolding of wild-type cholesterol oxidase was compared with that of a H69A mutant, which does not covalently bind the flavin cofactor. The two protein forms do not show significant differences in their overall topology, but the urea-induced unfolding of the H69A mutant occurred at significant lower urea concentrations than wild-type (approximately 3 versus approximately 5 M, respectively), and the mutant protein had a melting temperature approximately 10-15 degrees C lower than wild-type in thermal denaturation experiments. The different sensitivity of the various spectroscopic features used to monitor protein unfolding indicated that in both proteins a two-step (three-state) process occurs. The presence of an intermediate was more evident for the H69A mutant at 2 m urea, where catalytic activity and tertiary structure were lost, and new hydrophobic patches were exposed on the protein surface, resulting in protein aggregation. Comparative analysis of the changes occurring upon urea and thermal treatment of the wild-type and H69A protein showed a good correlation between protein instability and the elimination of the covalent link between the flavin and the protein. This covalent bond represents a structural device to modify the flavin redox potentials and stabilize the tertiary structure of cholesterol oxidase, thus pointing to a specific meaning of the flavin binding mode in enzymes that carry out the same reaction in pathogenic versus non-pathogenic bacteria.

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Sigma-Aldrich
Cholesterol Oxidase from Streptomyces sp., lyophilized powder, ≥20 units/mg protein
Sigma-Aldrich
Cholesterol Oxidase from Brevibacterium, lyophilized powder, ≥50 units/mg protein, recombinant, expressed in E. coli
Sigma-Aldrich
Cholesterol Oxidase from microorganisms, aqueous solution, ≥30 units/mg protein (biuret)