Jason J. Reddick scite author profile

[reaction: see text] The relative rates of Michael additions of 2'-(phenethyl)thiol to representative vinyl sulfonyl Michael acceptors were measured. The dependence of the reactivity of the Michael acceptor on the nature of the sulfonyl R substituent was determined in order to evaluate the effect of these substituents on the inactivation kinetics of comparably substituted vinyl sulfonyl cysteine protease inhibitors. The rates of these Michael additions vary over 3 orders of magnitude, with phenyl vinyl sulfonate esters (R = OPh) being ca. 3000-fold more reactive than N-benzyl vinyl sulfonamides (R = NHBn).

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The mechanism of action of bacimethrin, a naturally occurring thiamin antimetabolite

Reddick

Saha

Lee

et al. 2001

Bioorganic & Medicinal Chemistry Letters

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Mechanistic Studies on Thiamin Phosphate Synthase: Evidence for a Dissociative Mechanism

2001

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Thiamin phosphate synthase catalyzes the coupling of 4-methyl-5-(beta-hydroxyethyl)thiazole phosphate (Thz-P) and 4-amino-5-(hydroxymethyl)-2-methylpyrimidine pyrophosphate (HMP-PP) to give thiamin phosphate. In this paper, we demonstrate that 4-amino-5-(hydroxymethyl)-2-(trifluoromethyl)pyrimidine pyrophosphate (CF(3)-HMP-PP) is a very poor substrate [k(cat)(CH(3)) > 7800k(cat)(CF(3))] and that 4-amino-5-(hydroxymethyl)-2-methoxypyrimidine pyrophosphate (CH(3)O-HMP-PP) is a good substrate [k(cat)(OCH(3)) > 2.8k(cat)(CH(3))] for the enzyme. We also demonstrate that the enzyme catalyzes positional isotope exchange. These observations are consistent with a dissociative mechanism (S(N)1 like) for thiamin phosphate synthase in which the pyrimidine pyrophosphate dissociates to give a reactive pyrimidine intermediate which is then trapped by the thiazole moiety.

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Crystal Structure of Thiamin Phosphate Synthase from Bacillus subtilis at 1.25 Å Resolution^,

et al. 1999

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The crystal structure of Bacillus subtilis thiamin phosphate synthase complexed with the reaction products thiamin phosphate and pyrophosphate has been determined by multiwavelength anomalous diffraction phasing techniques and refined to 1.25 A resolution. Thiamin phosphate synthase is an alpha/beta protein with a triosephosphate isomerase fold. The active site is in a pocket formed primarily by the loop regions, residues 59-67 (A loop, joining alpha3 and beta2), residues 109-114 (B loop, joining alpha5 and beta4), and residues 151-168 (C loop, joining alpha7 and beta6). The high-resolution structure of thiamin phosphate synthase complexed with its reaction products described here provides a detailed picture of the catalytically important interactions between the enzyme and the substrates. The structure and other mechanistic studies are consistent with a reaction mechanism involving the ionization of 4-amino-2-methyl-5-hydroxymethylpyrimidine pyrophosphate at the active site to give the pyrimidine carbocation. Trapping of the carbocation by the thiazole followed by product dissociation completes the reaction. The ionization step is catalyzed by orienting the C-O bond perpendicular to the plane of the pyrimidine, by hydrogen bonding between the C4' amino group and one of the terminal oxygen atoms of the pyrophosphate, and by extensive hydrogen bonding and electrostatic interactions between the pyrophosphate and the enzyme.

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Structural Characterization of the Enzyme−Substrate, Enzyme−Intermediate, and Enzyme−Product Complexes of Thiamin Phosphate Synthase^,

et al. 2001

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Thiamin phosphate synthase catalyzes the formation of thiamin phosphate from 4-amino-5-(hydroxymethyl)-2-methylpyrimidine pyrophosphate and 5-(hydroxyethyl)-4-methylthiazole phosphate. Several lines of evidence suggest that the reaction proceeds via a dissociative mechanism. The previously determined crystal structure of thiamin phosphate synthase in complex with the reaction products, thiamin phosphate and magnesium pyrophosphate, provided a view of the active site and suggested a number of additional experiments. We report here seven new crystal structures primarily involving crystals of S130A thiamin phosphate synthase soaked in solutions containing substrates or products. We prepared S130A thiamin phosphate synthase with the intent of characterizing the enzyme-substrate complex. Surprisingly, in three thiamin phosphate synthase structures, the active site density cannot be modeled as either substrates or products. For these structures, the best fit to the electron density is provided by a model that consists of independent pyrimidine, pyrophosphate, and thiazole phosphate fragments, consistent with a carbenium ion intermediate. The resulting carbenium ion is likely to be further stabilized by proton transfer from the pyrimidine amino group to the pyrophosphate to give the pyrimidine iminemethide, which we believe is the species that is observed in the crystal structures.

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Jason J. Reddick

Relative Rates of Michael Reactions of 2‘-(Phenethyl)thiol with Vinyl Sulfones, Vinyl Sulfonate Esters, and Vinyl Sulfonamides Relevant to Vinyl Sulfonyl Cysteine Protease Inhibitors

The mechanism of action of bacimethrin, a naturally occurring thiamin antimetabolite

Mechanistic Studies on Thiamin Phosphate Synthase: Evidence for a Dissociative Mechanism

Crystal Structure of Thiamin Phosphate Synthase from Bacillus subtilis at 1.25 Å Resolution^,

Structural Characterization of the Enzyme−Substrate, Enzyme−Intermediate, and Enzyme−Product Complexes of Thiamin Phosphate Synthase^,

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Jason J. Reddick

Relative Rates of Michael Reactions of 2‘-(Phenethyl)thiol with Vinyl Sulfones, Vinyl Sulfonate Esters, and Vinyl Sulfonamides Relevant to Vinyl Sulfonyl Cysteine Protease Inhibitors

The mechanism of action of bacimethrin, a naturally occurring thiamin antimetabolite

Mechanistic Studies on Thiamin Phosphate Synthase: Evidence for a Dissociative Mechanism

Crystal Structure of Thiamin Phosphate Synthase from Bacillus subtilis at 1.25 Å Resolution,

Structural Characterization of the Enzyme−Substrate, Enzyme−Intermediate, and Enzyme−Product Complexes of Thiamin Phosphate Synthase,

Contact Info

Product

Resources

About

Crystal Structure of Thiamin Phosphate Synthase from Bacillus subtilis at 1.25 Å Resolution^,

Structural Characterization of the Enzyme−Substrate, Enzyme−Intermediate, and Enzyme−Product Complexes of Thiamin Phosphate Synthase^,