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Pair potentials for protein folding: Choice of reference states and sensitivity of predicted native states to variations in the interaction schemes

Published online by Cambridge University Press:  01 February 1999

MARCOS R. BETANCOURT  and
D. THIRUMALAI
MARCOS R. BETANCOURT
Affiliation:
Institute for Physical Science and Technology, University of Maryland, College Park, Maryland 20742
D. THIRUMALAI
Affiliation:
Institute for Physical Science and Technology, University of Maryland, College Park, Maryland 20742 Department of Chemistry and Biochemistry, University of Maryland, College Park, Maryland 20742
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Abstract

We examine the similarities and differences between two widely used knowledge-based potentials, which are expressed as contact matrices (consisting of 210 elements) that gives a scale for interaction energies between the naturally occurring amino acid residues. These are the Miyazawa–Jernigan contact interaction matrix M and the potential matrix S derived by Skolnick J et al., 1997, Protein Sci 6:676–688. Although the correlation between the two matrices is good, there is a relatively large dispersion between the elements. We show that when Thr is chosen as a reference solvent within the Miyazawa and Jernigan scheme, the dispersion between the M and S matrices is reduced. The resulting interaction matrix B gives hydrophobicities that are in very good agreement with experiment. The small dispersion between the S and B matrices, which arises due to differing reference states, is shown to have dramatic effect on the predicted native states of lattice models of proteins. These findings and other arguments are used to suggest that for reliable predictions of protein structures, pairwise additive potentials are not sufficient. We also establish that optimized protein sequences can tolerate relatively large random errors in the pair potentials. We conjecture that three body interaction may be needed to predict the folds of proteins in a reliable manner.

Keywords

inter-residue pair potentialsnative state sensitivity to perturbationsprotein foldingprotein stabilityquasi-chemical approximation
Type
Research Article
Information
Protein Science , Volume 8 , Issue 2 , February 1999 , pp. 361 - 369
Copyright
© 1999 The Protein Society

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