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Publication Type : Journal Article
Thematic Areas : Center for Computational Engineering and Networking (CEN)
Source : Scientific Reports volume 8, Article number: 1697 (2018)
Url : https://www.nature.com/articles/s41598-018-19752-w
Campus : Coimbatore
School : Computational Engineering and Networking
Center : Center for Computational Engineering and Networking, Computational Engineering and Networking
Department : Center for Computational Engineering and Networking (CEN)
Verified : No
Year : 2021
Abstract : Antimicrobial peptides (AMPs) are promising candidates in the fight against multidrug-resistant pathogens owing to AMPs’ broad range of activities and low toxicity. Nonetheless, identification of AMPs through wet-lab experiments is still expensive and time consuming. Here, we propose an accurate computational method for AMP prediction by the random forest algorithm. The prediction model is based on the distribution patterns of amino acid properties along the sequence. Using our collection of large and diverse sets of AMP and non-AMP data (3268 and 166791 sequences, respectively), we evaluated 19 random forest classifiers with different positive:negative data ratios by 10-fold cross-validation. Our optimal model, AmPEP with the 1:3 data ratio, showed high accuracy (96%), Matthew’s correlation coefficient (MCC) of 0.9, area under the receiver operating characteristic curve (AUC-ROC) of 0.99, and the Kappa statistic of 0.9. Descriptor analysis of AMP/non-AMP distributions by means of Pearson correlation coefficients revealed that reduced feature sets (from a full-featured set of 105 to a minimal-feature set of 23) can result in comparable performance in all respects except for some reductions in precision. Furthermore, AmPEP outperformed existing methods in terms of accuracy, MCC, and AUC-ROC when tested on benchmark datasets.
Cite this Research Publication : Pratiti Bhadra, Jielu Yan, Jinyan Li, Simon Fong & Shirley W. I. Siu, "AmPEP: Sequence-based prediction of antimicrobial peptides using distribution patterns of amino acid properties and random forest" Scientific Reports volume 8, Article number: 1697 (2018)