Identification of core active site residues of the sulfur oxygenase reductase fromAcidianus ambivalensby site-directed mutagenesis

Abstract

The sulfur oxygenase reductase (SOR) is the initial enzyme in the sulfur oxidation pathway of Acidianus ambivalens. The SOR is composed of 308 aa residues, three of which are cysteines, and contains a mononuclear non-heme iron site. Mutations of the suspected iron-binding residues H₈₆, H₉₀ and E₁₁₄ to alanine resulted in inactive enzyme with no iron incorporated, whereas an E₁₁₄D mutant showed 1% of wild type activity. The mutation of C₃₁ to alanine and serine caused inactivity of the enzyme, however, the iron content was the same as in the wild type. C₁₀₁A, C₁₀₄S/A, and C_101/104S/A double mutants caused a decrease in specific activity to 10–43% of the wild type while the C₁₀₁S mutant showed only 1% activity of the wild type. The drop in activity of the C₁₀₁S and E₁₁₄D mutants was accompanied with a proportional decrease in iron content. In all cases the oxygenase and reductase partial reactions were equally affected. It was concluded that the Fe site with H₈₆, H₉₀ and E₁₁₄ as ligands and C₃₁ constitute the core active site whereas C₁₀₁ and C₁₀₄ optimize reaction conditions.