Abstract

E. coli thioredoxin is a highly efficient catalyst for both the reduction of disulfides as well as the oxidation of dithiols for both protein and small molecule substrates. Previous research from other laboratories have used NMR chemical shift titration to determine the pK values for the two active site cysteines Cys 32 and Cys 35 as well as for the nearby buried Asp 26. Due to the marked interaction between these sites interpretation of this data has been controversial. Although these previous experiments have been carried out on the reduced form of the protein which is germane to the initial attack of Cys 32 on a target disulfide, to understand the nucleophilicity of the buried Cys 35 thiol pH titrations are needed for a model of the mixed disulfide intermediate. These titrations have demonstrated the marked dependence of the Cys 35 resonances on the Asp 26 titration (rather than due to the titration of Cys 32 as earlier interpreted). The pK of Cys 35 in this derivative differs appreciably from earlier estimates. Standard enzyme kinetics studies have indicated that the rate of reduction of the enzyme by small molecule dithiols is faster than 1 s-1 at pH 7. By poising the redox potential of the solution to match that of E. coli thioredoxin, magnetization transfer experiments are being carried out so as to determine the unidirectional rate constants for the redox transition. NOESY mixing series have been collected on the [75%-2H]Cys32 carbamido derivative above and below the Asp26 pK for structural analysis.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
2P41RR002301-16
Application #
6309118
Study Section
Project Start
2000-04-15
Project End
2005-02-28
Budget Start
1998-10-01
Budget End
1999-09-30
Support Year
16
Fiscal Year
2000
Total Cost
$7,533
Indirect Cost

  Institution

Name
University of Wisconsin Madison
Department
Type
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715

  Publications

Travers, Timothy; López, Cesar A; Van, Que N et al. (2018) Molecular recognition of RAS/RAF complex at the membrane: Role of RAF cysteine-rich domain. Sci Rep 8:8461
Thomas, Nathan E; Wu, Chao; Morrison, Emma A et al. (2018) The C terminus of the bacterial multidrug transporter EmrE couples drug binding to proton release. J Biol Chem 293:19137-19147
Assadi-Porter, Fariba M; Radek, James; Rao, Hongyu et al. (2018) Multimodal Ligand Binding Studies of Human and Mouse G-Coupled Taste Receptors to Correlate Their Species-Specific Sweetness Tasting Properties. Molecules 23:
Wijayatunga, Nadeeja N; Sams, Valerie G; Dawson, John A et al. (2018) Roux-en-Y gastric bypass surgery alters serum metabolites and fatty acids in patients with morbid obesity. Diabetes Metab Res Rev 34:e3045
Assadi-Porter, Fariba M; Reiland, Hannah; Sabatini, Martina et al. (2018) Metabolic Reprogramming by 3-Iodothyronamine (T1AM): A New Perspective to Reverse Obesity through Co-Regulation of Sirtuin 4 and 6 Expression. Int J Mol Sci 19:
Dominguez, Eddie; Zarnowski, Robert; Sanchez, Hiram et al. (2018) Conservation and Divergence in the Candida Species Biofilm Matrix Mannan-Glucan Complex Structure, Function, and Genetic Control. MBio 9:
Franco, Aldo; Dovell, Sanaz; Möller, Carolina et al. (2018) Structural plasticity of mini-M conotoxins - expression of all mini-M subtypes by Conus regius. FEBS J 285:887-902
Wales, Jessica A; Chen, Cheng-Yu; Breci, Linda et al. (2018) Discovery of stimulator binding to a conserved pocket in the heme domain of soluble guanylyl cyclase. J Biol Chem 293:1850-1864
Selen Alpergin, Ebru S; Bolandnazar, Zeinab; Sabatini, Martina et al. (2017) Metabolic profiling reveals reprogramming of lipid metabolic pathways in treatment of polycystic ovary syndrome with 3-iodothyronamine. Physiol Rep 5:
Mong, Surin K; Cochran, Frank V; Yu, Hongtao et al. (2017) Heterochiral Knottin Protein: Folding and Solution Structure. Biochemistry 56:5720-5725

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