and L. Timothy Laughlin scite author profile

The enzyme conferring resistance to the antibiotic fosfomycin [(1R,2S)-1,2-epoxypropylphosphonic acid] originally reported by Suarez and co-workers [Area, P., Hardisson, C., & Suarez, J. E. (1990) Antimicrob. Agents Chemother. 34, 844-848] is demonstrated in this study to be a metalloglutathione transferase. The apoenzyme is a dimer of 16 kDa subunits. Electron paramagnetic resonance spectroscopy and water proton nuclear magnetic resonance longitudinal relaxation rates suggest that each subunit contains a mononuclear Mn2+ center that interacts strongly with the substrate fosfomycin (Kd = 17 microM) more weakly with the product (Kd = 1.1 mM) and very weakly or not at all with GSH. Inhomogeneous broadening of the EPR signals of enzyme-bound Mn2+ in the presence of H2(17)O indicates that three of the coordination sites on the metal are occupied by water. Sequence alignments, three-dimensional structures, and mechanistic considerations suggest that FosA is related to at least two other metalloenzymes, glyoxalase I and the Mn2+- or Fe2+-containing extradiol dioxygenases. The mechanistic imperative driving the evolution of this previously unidentified superfamily of metalloenzymes is proposed to be bidentate coordination of a substrate or intermediate to the metal center in the enzyme-catalyzed reactions.

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Regiochemical and Stereochemical Course of the Reaction Catalyzed by the Fosfomycin Resistance Protein, FosA

Bernat

Laughlin

Armstrong

1998

J. Org. Chem.

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and L. Timothy Laughlin

Fosfomycin Resistance Protein (FosA) Is a Manganese Metalloglutathione Transferase Related to Glyoxalase I and the Extradiol Dioxygenases

Regiochemical and Stereochemical Course of the Reaction Catalyzed by the Fosfomycin Resistance Protein, FosA

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