Abstract
Rhodobacter sphaeroides f. sp. denitrificans biotin sulfoxide reductase (BSOR) catalyzes the reduction of d-biotin d-sulfoxide (BSO) to biotin, an important step in oxidized vitamin salvaging. In addition to BSO, the enzyme also catalyzes the reduction of a variety of other substrates, including methionine sulfoxide, with decreased efficiencies, suggesting a potential role as a general cell protector against oxidative damage. Recombinant BSOR, expressed as a glutathione S-transferase fusion protein, contains the molybdopterin guanine dinucleotide cofactor (MGD) as its sole prosthetic group, which is required for the reduction of BSO by either NADPH or reduced methyl viologen. Comparison of the amino acid sequences of BSOR and the closely related MGD-containing enzyme, dimethyl sulfoxide reductase, has indicated a number of conserved residues, including an active site serine residue, serine 121, which has been potentially identified as the fifth coordinating ligand of Mo in BSOR. Site-directed mutagenesis has been used to replace serine 121 with cysteine, threonine, or alanine residues in the BSOR sequence to asses the role of this residue in catalysis and/or Mo coordination. All three BSOR mutant proteins were expressed, purified to homogeneity, and demonstrated to contain both MGD by fluorescence spectroscopy and Mo by inductively coupled plasma mass spectrometry, similar to wild-type enzyme. However, all three mutant proteins were devoid of BSOR activity using either NADPH or reduced methyl viologen as the electron donor. These results strongly suggest that serine 121 in BSOR is essential for catalysis but is not essential for either Mo coordination or MGD binding.
Highlights
Biotin sulfoxide reductase (BSOR1, EC 1.8.4.-) catalyzes the reduction of d-biotin d-sulfoxide to d-biotin according to Scheme 1
These results strongly suggest that serine 121 in biotin sulfoxide reductase (BSOR) is essential for catalysis but is not essential for either Mo coordination or molybdopterin guanine dinucleotide cofactor (MGD) binding
0.00 a Specific activities were determined in 50 mM Tris buffer, pH 8 and are expressed as micromoles of NADPH consumed or BSO formed per minute per nanomole of BSOR
Summary
Biotin sulfoxide reductase (BSOR1, EC 1.8.4.-) catalyzes the reduction of d-biotin d-sulfoxide to d-biotin according to Scheme 1. BSOR is a member of the Me2SO reductase family of prokaryotic Mo-containing enzymes This family comprises a number of related molybdoenzymes that share the characteristic property of requiring a complex of Mo and two molybdopterin guanine dinucleotide (MGD) [7, 8] cofactors as their sole redoxactive prosthetic group and that catalyze the reduction of S and N-oxides of organic molecules. The presence of the bis(MGD) molybdenum cofactor was confirmed, as was the presence of four thiolate ligands and a mono-oxo site in the oxidized form and a des-oxo site in the reduced form of this enzyme [10, 11] This data has suggested that the coordination sphere of the Mo is very similar in both BSOR and Me2SO reductase
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