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Estimation of changes in side chain configurational entropy in binding and folding: General methods and application to helix formation (1994)

Lee, Kon Ho ; Xie, Dong ; Freire, Ernesto ; [et al.]

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 20 (1994), S. 68-84

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ISSN: 0887-3585

Keywords: side chain conformation ; protein folding ; protein binding ; helix formation ; helix stability ; Chemistry ; Biochemistry and Biotechnology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Theoretical estimations of changes in side chain configurational entropy are essential for understanding the different contributions to the overall thermodynamic behavior of important biological processes like folding and binding. The configurational entropy of any given side chain in any particular protein can be evaluated from the complete energy profile of the side chain. Calculations of the energy profiles can be performed using the side chain single bond dihedrals as the only independent variables as long as the structures at each value of the dihedrals are allowed to relax through small changes in the valence bond angles. The probabilities of different side chain conformers obtained from these energy profiles are very similar to the conformer populations obtained by analysis of side chain preferences in the proteins of the Protein Data Bank. Also, side chain conformational entropies obtained from the energy profiles agree extremely well with those obtained from the Protein Data Bank conformer populations. Changes in side chain configurational entropy in binding and folding can be computed as differences in conformational entropy because, in most cases, the frequency of the rotational oscillation around the energy minimum of any given conformer does not appear to change significantly in the reaction. Changes of side chain conformational entropy calculated in this way were compared with experimental values. The only available experimental data-the effect of side chain substitution on the stability of α-helices-were used for this comparison. The experimental values were corrected to subtract the solvent contributions. This comparison yields an excellent agreement between calculated and experimental values, validating not only the theoretical estimates but also the separability of the entropic contributions into configurational terms and solvation related terms. © 1994 Wiley-Liss, Inc.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/prot.340200108

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Structural energetics of peptide recognition: Angiotensin II/antibody binding (1993)

Murphy, Kenneth P. ; Xie, Dong ; Garcia, K. Christopher ; [et al.]

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 15 (1993), S. 113-120

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ISSN: 0887-3585

Keywords: thermodynamics ; calorimetry ; protein-hormone interaction ; drug design ; Chemistry ; Biochemistry and Biotechnology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: The ability to predict the strength of the association of peptide hormones or other ligands with their protein receptors is of fundamental importance in the fields of protein engineering and rational drug design. To form a tight complex between a flexible peptide hormone and its receptor, the large loss of configurational entropy must be overcome. Recently, the crystallographic structure of the complex between angiotensin II and the Fab fragment of a high affinity monoclonal antibody has been determined (Garcia, K. C., Ronco, P. M., Verroust, P. J., Brünger, A. T., Amzel, L. M. Three-dimensional structure of an angiotensin II-Fab complex at 3 Å: Hormone recognition by an anti-idiotypic antibody. Science 257:502-507, 1992). In this paper we present a study of the thermodynamics of the association by high sensitivity isothermal titration calorimetry. The results of the experiments indicate that at 30°C the binding is characterized by (1) a ΔH of -8.9 ± 0.7 kcal mol-1, (2) a ΔCp of -240 ± 20 cal K-1 mol-1, and (3) the release of 1.1 ± 0.1 protons per binding site in the pH range 6.0-7.3. Using these values and the previously determined binding constant in phosphate buffer, ΔG at 30°C is estimated as -11 kcal mol-1 and ΔS as 6.9 cal K-1 mol-1. The calorimetric data indicate that binding is favored both enthalpically and entropically. These results have been complemented by structural thermodynamic calculations. The calculated and experimentally determined thermodynamic quantities are in good agreement. Entropically, the loss of configurational entropy is more than compensated by the entropy gain from solvent release associated with the hydrophobic effect. Enthalpically, binding is favored by polar interactions (hydrogen bonding). Consequently, the problem of binding flexible hormones is solved in much the same way as the folding of an unstructured polypeptide chain into a globular protein. © 1993 Wiley-Liss, Inc.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/prot.340150203

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