Abstract

The work is a continuation of earlier studies on the stability of proteins and the factors that affect their unfolding and refolding reactions. Central to the studies is the use of mutants of the protein T4 lysozyme that permit us to assay the effects of individual amino acids on the equilibrium and rates of the folding reaction. We also perform variations of temperature, pH, ionic strength, and the concentration of denaturants and other substances so that we can develop complete thermodynamic and kinetic models. Our program is directed toward four aspects of this problem: 1. The study of low temperature unfolding. We have completed a study on one mutant, C3T54, and wish to look at the effects of mutations on the stability and kinetics of the unfolding and refolding reaction. 2. Studies of the interaction of proteins with water and denaturing agents. 3. Studies of the limited proteolysis of temperature-sensitive and other mutants in order to evaluate the local instabilities produced by mutations. 4. The continuation of our collaboration on families of mutants that have been generated in the laboratories of B. Matthews and F. Dahlquist. Their groups do the structural, dynamic and genetic studies while we specialize in thermodynamics, spectroscopy and kinetics.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM020195-35
Application #
3269935
Study Section
Molecular and Cellular Biophysics Study Section (BBCA)
Project Start
1978-04-01
Project End
1993-03-31
Budget Start
1992-04-01
Budget End
1993-03-31
Support Year
35
Fiscal Year
1992
Total Cost
Indirect Cost

  Institution

Name
University of Oregon
Department
Type
Organized Research Units
DUNS #
948117312
City
Eugene
State
OR
Country
United States
Zip Code
97403

  Publications

Schellman, J A (1994) The thermodynamics of solvent exchange. Biopolymers 34:1015-26
Qian, H (1994) A thermodynamic model for the helix-coil transition coupled to dimerization of short coiled-coil peptides. Biophys J 67:349-55
Anderson, D E; Hurley, J H; Nicholson, H et al. (1993) Hydrophobic core repacking and aromatic-aromatic interaction in the thermostable mutant of T4 lysozyme Ser 117-->Phe. Protein Sci 2:1285-90
Qian, H (1993) Single-residue substitution in homopolypeptides: perturbative helix-coil theory at a single site. Biopolymers 33:1605-16
Scholtz, J M; Qian, H; Robbins, V H et al. (1993) The energetics of ion-pair and hydrogen-bonding interactions in a helical peptide. Biochemistry 32:9668-76
Chen, B L; Baase, W A; Nicholson, H et al. (1992) Folding kinetics of T4 lysozyme and nine mutants at 12 degrees C. Biochemistry 31:1464-76
Bell, J A; Becktel, W J; Sauer, U et al. (1992) Dissection of helix capping in T4 lysozyme by structural and thermodynamic analysis of six amino acid substitutions at Thr 59. Biochemistry 31:3590-6
Hurley, J H; Baase, W A; Matthews, B W (1992) Design and structural analysis of alternative hydrophobic core packing arrangements in bacteriophage T4 lysozyme. J Mol Biol 224:1143-59
Daopin, S; Alber, T; Baase, W A et al. (1991) Structural and thermodynamic analysis of the packing of two alpha-helices in bacteriophage T4 lysozyme. J Mol Biol 221:647-67
Dao-pin, S; Soderlind, E; Baase, W A et al. (1991) Cumulative site-directed charge-change replacements in bacteriophage T4 lysozyme suggest that long-range electrostatic interactions contribute little to protein stability. J Mol Biol 221:873-87

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