Structure of the Molybdenum Site of Dimethyl Sulfoxide Reductase

Abstract

Molybdenum K-edge X-ray absorption and Mo(V) electron paramagentic resonance (EPR) spectroscopies have been used to probe the metal coordination in oxidized and reduced forms of both wild-type and a site-directed mutant of Rhodobacter sphaeroides dimethyl sulfoxide (DMSO) reductase. We confirm our earlier findings (George, G. N.; Hilton, J.; Rajagopalan, K. V. J. Am. Chem. Soc. 1996, 118, 1113−1117) that the molybdenum site of the oxidized Mo(VI) enzyme possesses one terminal oxygen ligand (MoO) at 1.68 Å, four thiolate ligands at 2.44 Å, and one oxygen at 1.92 Å and that the dithionite-reduced Mo(IV) enzyme possesses a desoxo species with three or four Mo−S at 2.33 Å and two different Mo−O ligands at 2.16 and 1.92 Å. Mo(V) EPR indicates the presence of one exchangeable oxygen ligand, most likely an Mo−OH, in the signal-giving species, probably originating from the MoO of the oxidized enzyme (Em8.5(IV/V) = +37 mV, Em8.5(V/VI) = +83 mV). The addition of dimethyl sulfide, in the reverse of the physiological reaction, reduces the enzyme. In this form, the enzyme contains a desoxo active site with four Mo−S at 2.36 Å and two different Mo−O ligands at 1.94 and 2.14 Å. Recombinant wild-type R. sphaeroides DMSO reductase expressed in Escherichia coli initially has a dioxo structure (two MoO at 1.72 Å and four Mo−S at 2.48 Å) but assumes the wild-type Mo(VI) structure after a cycle of reduction and reoxidation. The site-directed Ser147→Cys mutant possesses a monooxo active site in the oxidized state (MoO at 1.70 Å) with five sulfur ligands (at 2.40 Å), consistent with cysteine 147 coordination to Mo. The dithionite reduced form of the mutant possesses a desoxo site also with five Mo−S ligands (at 2.37 Å) and one Mo−O at 2.12 Å. The variant has substantially different Mo(V) EPR and electrochemistry (Em8.5(IV/V) = −43 mV, Em8.5(V/VI) = +106 mV). The active-site structure and catalytic mechanism of DMSO reductase are discussed in the light of these results.