Molecular Docking Improvement: Coefficient Adaptive Genetic Algorithms for Multiple Scoring Functions


In this paper, a coefficient adaptive scoring method of molecular docking is presented to improve the docking accuracy with multiple available scoring functions. Based on force-field scoring function, we considered hydrophobic and deformation as well in the proposed method, Instead of simple combination with fixed weights, coefficients of each factor are adaptive in searching procedure. In order to improve the docking accuracy and stability, knowledge-based scoring function is used as another scoring factor. Genetic algorithm with the multi-population evolution and entropy-based searching technique with narrowing down space is used to solve the optimization model for molecular docking. To evaluate the method, we carried out a numerical experiment with 134 proteinligand complexes of the publicly available GOLD test set. The results validated that it improved the docking accuracy over the individual force-field scoring. In addition, analyses were given to show the disadvantage of individual scoring model. Through the comparison with other popular docking software, the proposed method showed higher accuracy. Among more than 77% of the complexes, the docked results were within 1.0 Å according to RootMean-Square Deviation (RMSD) of the X-ray structure. The average computing time obtained here is 563.9 s.

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@inproceedings{Li2014MolecularDI, title={Molecular Docking Improvement: Coefficient Adaptive Genetic Algorithms for Multiple Scoring Functions}, author={Zhengfu Li and Xicheng Wang and Keqiu Li and Junfeng Gu and Ling Kang}, year={2014} }