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Letters in Organic Chemistry

Editor-in-Chief

ISSN (Print): 1570-1786
ISSN (Online): 1875-6255

Research Article

Prediction of Protein Folding Rates from the Amino Acid Sequencepredicted Backbone Torsion Angles

Author(s): Hui Liang, Lingling Wang, Ying Zhang, Changjiang Ding and Jun Lv*

Volume 14, Issue 9, 2017

Page: [648 - 654] Pages: 7

DOI: 10.2174/1570178614666170608130848

Price: $65

Abstract

Background: The prediction of protein folding rates is a necessary step towards understanding the principles of protein folding. Prediction of protein folding rates from 3D structures is more common and more accurate, but there are a few methods to accurately predict the folding rates from sequences. Therefore, it is important to develop an accurate method of predicting protein folding rates from sequences of proteins with unknown structures.

Objective: We proposed a highly accurate sequence-based prediction method to predict the rate of in-water protein folding directly from its primary structure, which does not need any information of its 3D fold.

Method: It uses ANGLOR to predict real-value of protein backbone torsion angles from amino acid sequences, and then calculate cumulative backbone torsion angles (CBTA). Our estimate is based on the Pearson correlation coefficient between the folding rate and the natural logarithm of predicted CBTA.

Results: The method achieves 79% correlation with experiment over all 100 “two-state” and “multistate” proteins (including two artificial peptides) studied up to now. This is better than the results of existing sequence-based prediction methods which include the effective length of the folding chain (Leff) and the number of predicted long-range contacts (LROpred).

Conclusion: We found a new parameter of protein folding rates, i.e., cumulative backbone torsion angles, and gave a highly accurate sequence-based method of predicting folding rates. On the one hand the CBTA is a coarse-grained description for distribution of protein backbone torsion angles which determines the basic topology structure of the protein, on the other hand, the CBTA is proportional to protein length. Therefore, a strong correlation exists between the CBTA and folding rate. This is the reason why we can successfully predict the folding rates from the amino acid sequence-predicted backbone torsion angles.

Keywords: Amino acid sequence, backbone torsion angle, correlation coefficient, folding rate, prediction, protein.

Graphical Abstract


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