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- Title
Computational Prediction of DrugTarget Interactions Using Chemical, Biological, and Network Features.
- Authors
Cao, Dong‐Sheng; Zhang, Liu‐Xia; Tan, Gui‐Shan; Xiang, Zheng; Zeng, Wen‐Bin; Xu, Qing‐Song; Chen, Alex F
- Abstract
Drugtarget interactions (DTIs) are central to current drug discovery processes. Efforts have been devoted to the development of methodology for predicting DTIs and drugtarget interaction networks. Most existing methods mainly focus on the application of information about drug or protein structure features. In the present work, we proposed a computational method for DTI prediction by combining the information from chemical, biological and network properties. The method was developed based on a learning algorithm-random forest (RF) combined with integrated features for predicting DTIs. Four classes of drugtarget interaction networks in humans involving enzymes, ion channels, G-protein-coupled receptors (GPCRs) and nuclear receptors, are independently used for establishing predictive models. The RF models gave prediction accuracy of 93.52 %, 94.84 %, 89.68 % and 84.72 % for four pharmaceutically useful datasets, respectively. The prediction ability of our approach is comparative to or even better than that of other DTI prediction methods. These comparative results demonstrated the relevance of the network topology as source of information for predicting DTIs. Further analysis confirmed that among our top ranked predictions of DTIs, several DTIs are supported by databases, while the others represent novel potential DTIs. We believe that our proposed approach can help to limit the search space of DTIs and provide a new way towards repositioning old drugs and identifying targets.
- Subjects
SYSTEMS biology; BIOLOGICAL systems; COMPUTATIONAL biology; BIOLOGICAL mathematical modeling; BIOLOGICAL networks
- Publication
Molecular Informatics, 2014, Vol 33, Issue 10, p669
- ISSN
1868-1743
- Publication type
Article
- DOI
10.1002/minf.201400009