An improved random forest-based computational model for predicting novel miRNA-disease associations
Background: A large body of evidence shows that miRNA regulates the expression of its target genes at post-transcriptional level and the dysregulation of miRNA is related to many complex human diseases. Accurately discovering disease-related miRNAs is conductive to the exploring of the pathogenesis...
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sg-ntu-dr.10356-1421902020-06-17T04:06:23Z An improved random forest-based computational model for predicting novel miRNA-disease associations Yao, Dengju Zhan, Xiaojuan Kwoh, Chee-Keong School of Computer Science and Engineering Engineering::Computer science and engineering Disease miRNA Background: A large body of evidence shows that miRNA regulates the expression of its target genes at post-transcriptional level and the dysregulation of miRNA is related to many complex human diseases. Accurately discovering disease-related miRNAs is conductive to the exploring of the pathogenesis and treatment of diseases. However, because of the limitation of time-consuming and expensive experimental methods, predicting miRNA-disease associations by computational models has become a more economical and effective mean. Results: Inspired by the work of predecessors, we proposed an improved computational model based on random forest (RF) for identifying miRNA-disease associations (IRFMDA). First, the integrated similarity of diseases and the integrated similarity of miRNAs were calculated by combining the semantic similarity and Gaussian interaction profile kernel (GIPK) similarity of diseases, the functional similarity and GIPK similarity of miRNAs, respectively. Then, the integrated similarity of diseases and the integrated similarity of miRNAs were combined to represent each miRNA-disease relationship pair. Next, the miRNA-disease relationship pairs contained in the HMDD (v2.0) database were considered positive samples, and the randomly constructed miRNA-disease relationship pairs not included in HMDD (v2.0) were considered negative samples. Next, the feature selection based on the variable importance score of RF was performed to choose more useful features to represent samples to optimize the model’s ability of inferring miRNA-disease associations. Finally, a RF regression model was trained on reduced sample space to score the unknown miRNA-disease associations. The AUCs of IRFMDA under local leave-one-out cross-validation (LOOCV), global LOOCV and 5-fold cross-validation achieved 0.8728, 0.9398 and 0.9363, which were better than several excellent models for predicting miRNA-disease associations. Moreover, case studies on oesophageal cancer, lymphoma and lung cancer showed that 94 (oesophageal cancer), 98 (lymphoma) and 100 (lung cancer) of the top 100 disease-associated miRNAs predicted by IRFMDA were supported by the experimental data in the dbDEMC (v2.0) database. Conclusions: Cross-validation and case studies demonstrated that IRFMDA is an excellent miRNA-disease association prediction model, and can provide guidance and help for experimental studies on the regulatory mechanism of miRNAs in complex human diseases in the future. Published version 2020-06-17T04:06:23Z 2020-06-17T04:06:23Z 2019 Journal Article Yao, D., Zhan, X., & Kwoh, C.-K. (2019). An improved random forest-based computational model for predicting novel miRNA-disease associations. BMC Bioinformatics, 20(1), 624-. doi:10.1186/s12859-019-3290-7 1471-2105 https://hdl.handle.net/10356/142190 10.1186/s12859-019-3290-7 31795954 2-s2.0-85075933359 1 20 en BMC Bioinformatics © 2019 The Author(s). This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. application/pdf |
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Engineering::Computer science and engineering Disease miRNA Yao, Dengju Zhan, Xiaojuan Kwoh, Chee-Keong An improved random forest-based computational model for predicting novel miRNA-disease associations |
| description |
Background: A large body of evidence shows that miRNA regulates the expression of its target genes at post-transcriptional level and the dysregulation of miRNA is related to many complex human diseases. Accurately discovering disease-related miRNAs is conductive to the exploring of the pathogenesis and treatment of diseases. However, because of the limitation of time-consuming and expensive experimental methods, predicting miRNA-disease associations by computational models has become a more economical and effective mean. Results: Inspired by the work of predecessors, we proposed an improved computational model based on random forest (RF) for identifying miRNA-disease associations (IRFMDA). First, the integrated similarity of diseases and the integrated similarity of miRNAs were calculated by combining the semantic similarity and Gaussian interaction profile kernel (GIPK) similarity of diseases, the functional similarity and GIPK similarity of miRNAs, respectively. Then, the integrated similarity of diseases and the integrated similarity of miRNAs were combined to represent each miRNA-disease relationship pair. Next, the miRNA-disease relationship pairs contained in the HMDD (v2.0) database were considered positive samples, and the randomly constructed miRNA-disease relationship pairs not included in HMDD (v2.0) were considered negative samples. Next, the feature selection based on the variable importance score of RF was performed to choose more useful features to represent samples to optimize the model’s ability of inferring miRNA-disease associations. Finally, a RF regression model was trained on reduced sample space to score the unknown miRNA-disease associations. The AUCs of IRFMDA under local leave-one-out cross-validation (LOOCV), global LOOCV and 5-fold cross-validation achieved 0.8728, 0.9398 and 0.9363, which were better than several excellent models for predicting miRNA-disease associations. Moreover, case studies on oesophageal cancer, lymphoma and lung cancer showed that 94 (oesophageal cancer), 98 (lymphoma) and 100 (lung cancer) of the top 100 disease-associated miRNAs predicted by IRFMDA were supported by the experimental data in the dbDEMC (v2.0) database. Conclusions: Cross-validation and case studies demonstrated that IRFMDA is an excellent miRNA-disease association prediction model, and can provide guidance and help for experimental studies on the regulatory mechanism of miRNAs in complex human diseases in the future. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Yao, Dengju Zhan, Xiaojuan Kwoh, Chee-Keong |
| format |
Article |
| author |
Yao, Dengju Zhan, Xiaojuan Kwoh, Chee-Keong |
| author_sort |
Yao, Dengju |
| title |
An improved random forest-based computational model for predicting novel miRNA-disease associations |
| title_short |
An improved random forest-based computational model for predicting novel miRNA-disease associations |
| title_full |
An improved random forest-based computational model for predicting novel miRNA-disease associations |
| title_fullStr |
An improved random forest-based computational model for predicting novel miRNA-disease associations |
| title_full_unstemmed |
An improved random forest-based computational model for predicting novel miRNA-disease associations |
| title_sort |
improved random forest-based computational model for predicting novel mirna-disease associations |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142190 |
| _version_ |
1681056561087119360 |