(1R,6R)-2-Succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate (SHCHC) synthase, also called MenD, participates in the menaquinone (vitamin K2) biosynthetic pathway. The enzyme is a part of the superfamily of ThDP-dependent enzymes; however, it is the only enzyme known to catalyze a Stetter-like 1,4-addition of a ThDP adduct to the beta-carbon of an unsaturated carboxylate. This is the first reported crystallization of the apoenzyme and holoenzyme forms of MenD. The apoenzyme crystals were obtained by sitting-drop vapour diffusion with 70% MPD. However, the crystals were too small to collect diffraction data and a search for better conditions was not successful. Single crystals of the holoenzyme with ThDP and Mn2+ as cofactors were obtained by the hanging-drop vapour-diffusion method with 35% ethylene glycol as precipitant. Diffraction data were collected on a cryocooled crystal to a resolution of 2.0 A at BioCARS, Advanced Photon Source (APS), Chicago, IL, USA. The crystal was found to belong to space group P2(1)2(1)2(1), with unit-cell parameters a = 106.86, b = 143.06, c = 156.85 A, alpha = beta = gamma = 90 degrees.
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(1R,6R)-2-Succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate (SHCHC) synthase (MenH) is an alpha/beta fold enzyme containing a catalytically essential serine-histidine-aspartate triad typical of serine proteases but catalyzes a pyruvate elimination reaction initiated by alpha-proton abstraction in the menaquinone biosynthetic pathway of Escherichia coli. In this study, we identify the active site residues in the synthase through sequence analysis and structural modeling and study their mechanistic roles in MenH catalysis. Steady-state kinetic characterization of site-directed mutants of the active site residues shows that three conserved arginine residues (Arg-90, Arg-124, and Arg-168) likely form ionic salt bridges with three carboxylate groups of the substrate in the Michaelis complex and that the side-chain polar groups of the conserved tyrosine (Tyr-85) and tryptophan (Trp-147) residues likely donate hydrogen bonds to form an "oxyanion hole".
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