StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach
Anticancer peptides (ACPs) have been emerged as a potential safe therapeutic agent for treating cancer. Identifying novel ACPs is crucial for understanding deep insight their functional mechanisms and vaccine production. Conventional wet-lab technological methods for finding ACPs are overpriced, slo...
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th-mahidol.736572022-08-04T10:53:45Z StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach Muhammad Arif Saeed Ahmed Fang Ge Muhammad Kabir Yaser Daanial Khan Dong Jun Yu Maha Thafar Taif University University of Management and Technology Lahore Mahidol University Nanjing University of Science and Technology Chemical Engineering Chemistry Computer Science Anticancer peptides (ACPs) have been emerged as a potential safe therapeutic agent for treating cancer. Identifying novel ACPs is crucial for understanding deep insight their functional mechanisms and vaccine production. Conventional wet-lab technological methods for finding ACPs are overpriced, slow, and resource-intensive. Thus, fast and accurate ACPs prediction through computational approach is highly desired because of massive peptide sequences accumulated in the post-genomic era. Recently, several intelligent statistical approaches have been designed for discriminating ACPs from non-ACPs. Although remarkable achievements have been accomplished, available methods still have inadequate feature descriptors and learning algorithms, thereby restricting the predictive performance. To address this, we develop a novel predictor called Stack-ACPred for the correct identification of ACPs. More specifically, the proposed method possesses three nominal feature encoding strategies i.e., evolutionary-profile and physicochemical information as segmented position-specific scoring matrix (SegPSSM), pseudo (PsePSSM), and extended pseudo amino acid composition (PseAAC). The extracted features are serially fused and further optimized through a powerful support vector machine recursive feature elimination and correlation bias reduction (SVM-RFE + CBR) algorithm. The optimal selected attributes are provided to build the stacking-base ensemble model for targeting effective ACPs. The proposed StackACPred attained 84.45% and 86.21% accuracy based on ACP740 and ACP240 datasets with 5-fold cross-validation test, which was 2.97% and 0.79% higher than other existing studies, respectively. The empirical outcomes of our developed automated tool demonstrate the excellent discriminative power for annotating large scale ACPs in particular and other peptides in general. 2022-08-04T03:49:08Z 2022-08-04T03:49:08Z 2022-01-15 Article Chemometrics and Intelligent Laboratory Systems. Vol.220, (2022) 10.1016/j.chemolab.2021.104458 18733239 01697439 2-s2.0-85120007814 https://repository.li.mahidol.ac.th/handle/123456789/73657 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85120007814&origin=inward |
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Chemical Engineering Chemistry Computer Science Muhammad Arif Saeed Ahmed Fang Ge Muhammad Kabir Yaser Daanial Khan Dong Jun Yu Maha Thafar StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
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Anticancer peptides (ACPs) have been emerged as a potential safe therapeutic agent for treating cancer. Identifying novel ACPs is crucial for understanding deep insight their functional mechanisms and vaccine production. Conventional wet-lab technological methods for finding ACPs are overpriced, slow, and resource-intensive. Thus, fast and accurate ACPs prediction through computational approach is highly desired because of massive peptide sequences accumulated in the post-genomic era. Recently, several intelligent statistical approaches have been designed for discriminating ACPs from non-ACPs. Although remarkable achievements have been accomplished, available methods still have inadequate feature descriptors and learning algorithms, thereby restricting the predictive performance. To address this, we develop a novel predictor called Stack-ACPred for the correct identification of ACPs. More specifically, the proposed method possesses three nominal feature encoding strategies i.e., evolutionary-profile and physicochemical information as segmented position-specific scoring matrix (SegPSSM), pseudo (PsePSSM), and extended pseudo amino acid composition (PseAAC). The extracted features are serially fused and further optimized through a powerful support vector machine recursive feature elimination and correlation bias reduction (SVM-RFE + CBR) algorithm. The optimal selected attributes are provided to build the stacking-base ensemble model for targeting effective ACPs. The proposed StackACPred attained 84.45% and 86.21% accuracy based on ACP740 and ACP240 datasets with 5-fold cross-validation test, which was 2.97% and 0.79% higher than other existing studies, respectively. The empirical outcomes of our developed automated tool demonstrate the excellent discriminative power for annotating large scale ACPs in particular and other peptides in general. |
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Taif University |
| author_facet |
Taif University Muhammad Arif Saeed Ahmed Fang Ge Muhammad Kabir Yaser Daanial Khan Dong Jun Yu Maha Thafar |
| format |
Article |
| author |
Muhammad Arif Saeed Ahmed Fang Ge Muhammad Kabir Yaser Daanial Khan Dong Jun Yu Maha Thafar |
| author_sort |
Muhammad Arif |
| title |
StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
| title_short |
StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
| title_full |
StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
| title_fullStr |
StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
| title_full_unstemmed |
StackACPred: Prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
| title_sort |
stackacpred: prediction of anticancer peptides by integrating optimized multiple feature descriptors with stacked ensemble approach |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/73657 |
| _version_ |
1763493357051445248 |