Shu Chuan Jao scite author profile

Human thioltransferase (TTase) is a 12 kDa thiol-disulfide oxidoreductase that appears to play a critical role in maintaining the redox environment of the cell. TTase acts as a potent and specific reducing agent for protein-S-S-glutathione mixed disulfides (protein-SSG) likely formed during oxidative stress or as redox intermediates in signal transduction pathways. Accordingly, the catalytic cycle of thioltransferase itself involves a covalent glutathionyl enzyme disulfide intermediate (TTase-C22-SSG). To understand the molecular basis of TTase specificity for the glutathione moiety, we engineered a quadruple Cys to Ser mutant of human TTase (C7S, C25S, C78S, and C82S) which retains only the active site cysteine residue (C22), and we solved its high-resolution NMR solution structure in the mixed disulfide intermediate with glutathione (QM-TTase-SSG). This mutant which cannot form a C22-S-S-C25 intramolecular disulfide displays the same catalytic efficiency (Vmax/KM) and specificity for glutathionyl mixed disulfide substrates as wild-type TTase, indicating that the Cys-25-SH moiety is not required for catalysis or glutathionyl specificity. The structure of human thioltransferase is characterized by a thioredoxin-like fold which comprises a four-stranded central beta-sheet flanked on each side by alpha-helices. The disulfide-adducted glutathione in the TTase-SSG complex has an extended conformation and is localized in a cleft near the protein surface encompassing the residues from helices-alpha2,alpha3, the active site loop, and the loop connecting helix-alpha3 and strand-beta3. Numerous van der Waals and electrostatic interactions between the protein and the glutathione moiety are identified as contributing to stabilization of the complex and confering the substrate specificity. Comparison of the human thioltransferase with other thiol-disulfide oxidoreductases reveals structural and functional differences.

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Computational and Mutational Analysis of Human Glutaredoxin (Thioltransferase): Probing the Molecular Basis of the Low pK_a of Cysteine 22 and Its Role in Catalysis^,^,

Jao

et al. 2006

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Human glutaredoxin (GRx), also known as thioltransferase, is a 12 kDa thiol-disulfide oxidoreductase that is highly selective for reduction of glutathione-containing mixed disulfides. The apparent pK(a) for the active site Cys22 residue is approximately 3.5. Previously we observed that the catalytic enhancement by glutaredoxin could be ascribed fully to the difference between the pK(a) of its Cys22 thiol moiety and the pK(a) of the product thiol, each acting as a leaving group in the enzymatic and nonenzymatic reactions, respectively [Srinivasan et al. (1997), Biochemistry 36, 3199-3206]. Continuum electrostatic calculations suggest that the low pK(a) of Cys22 results primarily from stabilization of the thiolate anion by a specific ion-pairing with the positively charged Lys19 residue, although hydrogen bonding interactions with Thr21 also appear to contribute. Variants of Lys19 were considered to further assess the predicted role of Lys19 on the pK(a) of Cys22. The variants K19Q and K19L were generated by molecular modeling, and the pK(a) value for Cys22 was calculated for each variant. For K19Q, the predicted Cys22 pK(a) is 7.3, while the predicted value is 8.3 for K19L. The effects of the mutations on the interaction energy between the adducted glutathionyl moiety and GRx were roughly estimated from the van der Waals and electrostatic energies between the glutathionyl moiety and proximal protein residues in a mixed disulfide adduct of GRx and glutathione, i.e., the GRx-SSG intermediate. The values for the K19 mutants differed by only a small amount compared to those for the wild type enzyme intermediate. Together, the computational analysis predicted that the mutant enzymes would have markedly reduced catalytic rates while retaining the glutathionyl specificity displayed by the wild type enzyme. Accordingly, we constructed and characterized the K19L and K19Q mutants of two forms of the GRx enzyme. Each of the mutants retained glutathionyl specificity as predicted and displayed diminution in activity, but the decreases in activity were not to the extent predicted by the theoretical calculations. Changes in the respective Cys22-thiol pK(a) values of the mutant enzymes, as shown by pH profiles for iodoacetamide inactivation of the respective enzymes, clearly revealed that the K19-C22 ion pair cannot fully account for the low pK(a) of the Cys22 thiol. Additional contributions to stabilization of the Cys22 thiolate are likely donated by Thr21 and the N-terminal partial positive charge of the neighboring alpha-helix.

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A Multilaboratory Comparison of Calibration Accuracy and the Performance of External References in Analytical Ultracentrifugation

et al. 2015

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Analytical ultracentrifugation (AUC) is a first principles based method to determine absolute sedimentation coefficients and buoyant molar masses of macromolecules and their complexes, reporting on their size and shape in free solution. The purpose of this multi-laboratory study was to establish the precision and accuracy of basic data dimensions in AUC and validate previously proposed calibration techniques. Three kits of AUC cell assemblies containing radial and temperature calibration tools and a bovine serum albumin (BSA) reference sample were shared among 67 laboratories, generating 129 comprehensive data sets. These allowed for an assessment of many parameters of instrument performance, including accuracy of the reported scan time after the start of centrifugation, the accuracy of the temperature calibration, and the accuracy of the radial magnification. The range of sedimentation coefficients obtained for BSA monomer in different instruments and using different optical systems was from 3.655 S to 4.949 S, with a mean and standard deviation of (4.304 ± 0.188) S (4.4%). After the combined application of correction factors derived from the external calibration references for elapsed time, scan velocity, temperature, and radial magnification, the range of s-values was reduced 7-fold with a mean of 4.325 S and a 6-fold reduced standard deviation of ± 0.030 S (0.7%). In addition, the large data set provided an opportunity to determine the instrument-to-instrument variation of the absolute radial positions reported in the scan files, the precision of photometric or refractometric signal magnitudes, and the precision of the calculated apparent molar mass of BSA monomer and the fraction of BSA dimers. These results highlight the necessity and effectiveness of independent calibration of basic AUC data dimensions for reliable quantitative studies.

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Shu Chuan Jao

Reactivity of the Human Thioltransferase (Glutaredoxin) C7S, C25S, C78S, C82S Mutant and NMR Solution Structure of Its Glutathionyl Mixed Disulfide Intermediate Reflect Catalytic Specificity^,

Computational and Mutational Analysis of Human Glutaredoxin (Thioltransferase): Probing the Molecular Basis of the Low pK_a of Cysteine 22 and Its Role in Catalysis^,^,

A Multilaboratory Comparison of Calibration Accuracy and the Performance of External References in Analytical Ultracentrifugation

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Shu Chuan Jao

Reactivity of the Human Thioltransferase (Glutaredoxin) C7S, C25S, C78S, C82S Mutant and NMR Solution Structure of Its Glutathionyl Mixed Disulfide Intermediate Reflect Catalytic Specificity,

Computational and Mutational Analysis of Human Glutaredoxin (Thioltransferase): Probing the Molecular Basis of the Low pKa of Cysteine 22 and Its Role in Catalysis,,

A Multilaboratory Comparison of Calibration Accuracy and the Performance of External References in Analytical Ultracentrifugation

Contact Info

Product

Resources

About

Reactivity of the Human Thioltransferase (Glutaredoxin) C7S, C25S, C78S, C82S Mutant and NMR Solution Structure of Its Glutathionyl Mixed Disulfide Intermediate Reflect Catalytic Specificity^,

Computational and Mutational Analysis of Human Glutaredoxin (Thioltransferase): Probing the Molecular Basis of the Low pK_a of Cysteine 22 and Its Role in Catalysis^,^,