Abstract

BackgroundEvaluation of protein structure is based on trustworthy potential function. The total potential of a protein structure is approximated as the summation of all pair-wise interaction potentials. Knowledge-based potentials (KBP) are one type of potential functions derived by known experimentally determined protein structures. Although several KBP functions with different methods have been introduced, the key interactions that capture the total potential have not studied yet.ResultsIn this study, we seek the interaction types that preserve as much of the total potential as possible. We employ a procedure based on the principal component analysis (PCA) to extract the significant and key interactions in native protein structures. We call these interactions as principal interactions and show that the results of the model that considers only these interactions are very close to the full interaction model that considers all interactions in protein fold recognition. In fact, the principal interactions maintain the discriminative power of the full interaction model. This method was evaluated on 3 KBPs with different contact definitions and thresholds of distance and revealed that their corresponding principal interactions are very similar and have a lot in common. Additionally, the principal interactions consisted of 20 % of the full interactions on average, and they are between residues, which are considered important in protein folding.ConclusionsThis work shows that all interaction types are not equally important in discrimination of native structure. The results of the reduced model based on principal interactions that were very close to the full interaction model suggest that a new strategy is needed to capture the role of remaining interactions (non-principal interactions) to improve the power of knowledge-based potential functions.

Highlights

  • Evaluation of protein structure is based on trustworthy potential function

  • We show that the principal interactions perform well in the identification of native structure, close to the same discriminatory power as the full interaction model

  • We are able to demonstrate that the principal interactions maintain the discriminative power of the full interaction model

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Summary

Introduction

Evaluation of protein structure is based on trustworthy potential function. The total potential of a protein structure is approximated as the summation of all pair-wise interaction potentials. Knowledge-based potentials (KBP) are one type of potential functions derived by known experimentally determined protein structures. One of the key challenges in structural bioinformatics is to promote an understanding of the structure of the complex network of non-covalent interactions in proteins that significantly contribute to the three-dimensional structure [1]. The structure and the amino acid sequence of proteins need to simplify to make analysis tractable [2]. Anfinsen [4] believed that information of amino acid sequence is sufficient to determine the native fold of a protein. The determination of essential amino acids and their interactions in native protein structures is an important issue that needs to be addressed

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