2008
DOI: 10.1002/chem.200800946
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Glutathione Transferase: New Model for Glutathione Activation

Abstract: Glutathione transferases are enzymes of the cellular detoxification system that metabolize a vast spectrum of xenobiotic and endobiotic toxic compounds. They are homodimers or heterodimers and each monomer has an active center composed of a G-site in which glutathione (GSH) binds and an H-site for the electrophilic substrate. When GSH binds to the G-site, the pKa value of its thiol group drops by 2.5 units; this promotes its deprotonation and, therefore, produces a strong nucleophilic thiolate that is able to … Show more

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Cited by 62 publications
(46 citation statements)
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“…In the Atu GSTH1-1/Nb-GSH complex, the conserved residues Arg34, Glu85, Ser86, Gln68 and Asn120' appear to form the proposed electron-sharing network. Based on Quantum mechanics/Molecular mechanics (QM/MM) calculations it was recently proposed [37] that the GSH activation by GSTs is accomplished by a water-assisted proton-transfer mechanism that takes into account the suggested roles of the GSH γ-glutamyl carboxylate group and the active-site water molecules. According to this mechanism, a water molecule acting as a bridge is able to transfer the proton from the GSH thiol group to the GSH γ-glutamyl carboxylate group.…”
Section: Resultsmentioning
confidence: 99%
“…In the Atu GSTH1-1/Nb-GSH complex, the conserved residues Arg34, Glu85, Ser86, Gln68 and Asn120' appear to form the proposed electron-sharing network. Based on Quantum mechanics/Molecular mechanics (QM/MM) calculations it was recently proposed [37] that the GSH activation by GSTs is accomplished by a water-assisted proton-transfer mechanism that takes into account the suggested roles of the GSH γ-glutamyl carboxylate group and the active-site water molecules. According to this mechanism, a water molecule acting as a bridge is able to transfer the proton from the GSH thiol group to the GSH γ-glutamyl carboxylate group.…”
Section: Resultsmentioning
confidence: 99%
“…The pK a of the α-carboxylate, in turn, is undoubtedly lowered by the side-on, out-of-plane interaction with the guanidinium of Arg-38 (torsion angle 45.9°), which is itself engaged in solvent-mediated interactions with the main-chain carboxyl groups of Ala-43 and Arg-60. This architecture is highly reminiscent of the "electron-sharing network" that is functionally conserved in all classes of soluble GSTs for the same purpose (32), and the use of a bridging water molecule to transfer the thiol proton to the α-carboxylate of GSH has been shown to be energetically favorable within an alpha class soluble GST (33). Crucially, density for this water is absent for the Phenix (34) refined bis-phenyl GSH complex (PDB ID code 4AL1), in which the relative occupancies to GSH were refined as 0.87:0.13, respectively.…”
Section: Significancementioning
confidence: 99%
“…Furthermore, in the URE2p class, an Asn seems to be essential for the activation of the thiolate of GSH [19]. In addition, a model for GSH activation which involves a water molecule and the GSH glutamyl a-carboxylate group has been proposed [20].…”
Section: Introductionmentioning
confidence: 99%