2000
DOI: 10.1002/1097-0134(20010201)42:2<192::aid-prot60>3.0.co;2-#
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Localization of the C‐terminus of rat glutathione S‐transferase A1‐1: Crystal structure of mutants W21F and W21F/F220Y

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Cited by 28 publications
(46 citation statements)
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“…The DSC and CD analyses clearly indicate that the low temperature asymmetry in the DSC scan is due mainly to the dynamic C-terminal helix of GSTA1-1, which becomes localized when ligand is bound. A greater degree of conformational heterogeneity for apo-GSTA1-1, compared with GSTA1-1 when the active-site is occupied, agrees well with previous crystallographic (45,46,50,51), NMR (47), and timeresolved fluorescence studies (12), and the data presented here. More interestingly, the DSC analysis based on modified Landau theory of phase transitions indicates that the low temperature asymmetry seen in the apo-GSTA1-1 DSC data is due to an increase in the number of accessible conformational substates accessible for sampling and that there are barrierless transitions between substates in the ensemble.…”
Section: Resultssupporting
confidence: 91%
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“…The DSC and CD analyses clearly indicate that the low temperature asymmetry in the DSC scan is due mainly to the dynamic C-terminal helix of GSTA1-1, which becomes localized when ligand is bound. A greater degree of conformational heterogeneity for apo-GSTA1-1, compared with GSTA1-1 when the active-site is occupied, agrees well with previous crystallographic (45,46,50,51), NMR (47), and timeresolved fluorescence studies (12), and the data presented here. More interestingly, the DSC analysis based on modified Landau theory of phase transitions indicates that the low temperature asymmetry seen in the apo-GSTA1-1 DSC data is due to an increase in the number of accessible conformational substates accessible for sampling and that there are barrierless transitions between substates in the ensemble.…”
Section: Resultssupporting
confidence: 91%
“…To investigate this predenaturation asymmetry further, similar studies were completed with addition of saturating concentrations of the product analog, S-hexyl glutathione, which is known to cause the C terminus to adopt a well defined conformation (45)(46)(47). Interestingly, the low temperature asymmetry features of the DSC trace of apo-GSTA1-1 were eliminated when S-hexyl GSH was bound, and the thermogram retained only the main unfolding transition, as observed in the absence of ligand, albeit shifted to a higher temperature.…”
Section: Resultsmentioning
confidence: 99%
“…The binding of S-hexylglutathione (S-hexyl-GSH) to GSTA1-1 has been shown to induce closure of the C terminus, with Tyr-9 pK a (ϳ9) remaining lower than the pK a of free tyrosine in solution (13,24,25). Here the emission spectra of W21F/F222W and Y9F/W21F/F222W were also obtained in the presence of saturating concentrations of S-hexyl-GSH.…”
Section: Resultsmentioning
confidence: 92%
“…The conjugation of GSH with a foreign compound generally results in the formation of a nontoxic product that can be readily eliminated. 6 In addition to their catalytic function, GSTs also serve as nonenzymatic binding proteins, known as ligandins, that interact with various lipophilic compounds that include steroid and thyroid hormones. Finally, reactive oxygen species can trigger apoptosis, programmed cell death, in cells.…”
Section: Introductionmentioning
confidence: 99%
“…The production of GSTs, by helping to protect the cell from oxidative damage caused by reactive oxygen species, assists in obviating the induction of apoptosis. 6 Cytochrome P450, especially the form CYP3A4 which predominates in hepatic tissue, has functions similar to that of GST. It metabolizes endogenous compounds and xenobiotics.…”
Section: Introductionmentioning
confidence: 99%