Abstract
This article describes a novel method for predicting ligand-binding sites of proteins. This method uses only 8 structural properties as input vector to train 9 random forest classifiers which are combined to predict binding residues. These predicted binding residues are then clustered into some predicted ligand-binding sites. According to our measurement criterion, this method achieved a success rate of 0.914 in the bound state dataset and 0.800 in the unbound state dataset, which are better than three other methods: Q-SiteFinder, SCREEN and Moritas method. It indicates that the proposed method here is successful for predicting ligand-binding sites.
Keywords: ligand-binding site prediction, patch-based residue characterization, random forests, Q-SiteFinder, SCREEN, Morita's method, X-ray crystallography, NMR, hydrophobicity, pocket depth, jackknife test, ASA, Feature vector for residue, PSAIA, Solvation energyligand-binding site prediction, patch-based residue characterization, random forests, Q-SiteFinder, SCREEN, Morita's method, X-ray crystallography, NMR, hydrophobicity, pocket depth, jackknife test, ASA, Feature vector for residue, PSAIA, Solvation energy
Related Books
.jpeg)
1st Biotechnology World Congress - 2012
Decolorization by Thanatephorus Cucumeris Dec 1
Industrial Applications of Soil Microbes
The Future of Agriculture: IoT, AI and Blockchain Technology for Sustainable Farming
Handbook of Integrated Weed Management for Major Field Crops
Practical Biochemistry
Anticancer Drugs Sourced from Marine Life
Opportunities for Biotechnology Research and Entrepreneurship
Diseases of Ornamental, Aromatic and Medicinal Plants
Diabetes and Breast Cancer: An Analysis of Signaling Pathways
13