Dayun Liu scite author profile

Dayun Liu

5Publications

60Citation Statements Received

73Citation Statements Given

How they've been cited

How they cite others

162

Affiliations

Central South University

Publications

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SMALF: miRNA-disease associations prediction based on stacked autoencoder and XGBoost

et al. 2021

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Background Identifying miRNA and disease associations helps us understand disease mechanisms of action from the molecular level. However, it is usually blind, time-consuming, and small-scale based on biological experiments. Hence, developing computational methods to predict unknown miRNA and disease associations is becoming increasingly important. Results In this work, we develop a computational framework called SMALF to predict unknown miRNA-disease associations. SMALF first utilizes a stacked autoencoder to learn miRNA latent feature and disease latent feature from the original miRNA-disease association matrix. Then, SMALF obtains the feature vector of representing miRNA-disease by integrating miRNA functional similarity, miRNA latent feature, disease semantic similarity, and disease latent feature. Finally, XGBoost is utilized to predict unknown miRNA-disease associations. We implement cross-validation experiments. Compared with other state-of-the-art methods, SAMLF achieved the best AUC value. We also construct three case studies, including hepatocellular carcinoma, colon cancer, and breast cancer. The results show that 10, 10, and 9 out of the top ten predicted miRNAs are verified in MNDR v3.0 or miRCancer, respectively. Conclusion The comprehensive experimental results demonstrate that SMALF is effective in identifying unknown miRNA-disease associations.

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MGATMDA: Predicting Microbe-Disease Associations via Multi-Component Graph Attention Network

Liu¹,

Liu²,

Yi³

et al. 2022

IEEE/ACM Trans. Comput. Biol. and Bioinf.

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PMDFI: Predicting miRNA–Disease Associations Based on High-Order Feature Interaction

Ming-yan

Liu

et al. 2021

Front. Genet.

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MicroRNAs (miRNAs) are non-coding RNA molecules that make a significant contribution to diverse biological processes, and their mutations and dysregulations are closely related to the occurrence, development, and treatment of human diseases. Therefore, identification of potential miRNA–disease associations contributes to elucidating the pathogenesis of tumorigenesis and seeking the effective treatment method for diseases. Due to the expensive cost of traditional biological experiments of determining associations between miRNAs and diseases, increasing numbers of effective computational models are being used to compensate for this limitation. In this study, we propose a novel computational method, named PMDFI, which is an ensemble learning method to predict potential miRNA–disease associations based on high-order feature interactions. We initially use a stacked autoencoder to extract meaningful high-order features from the original similarity matrix, and then perform feature interactive learning, and finally utilize an integrated model composed of multiple random forests and logistic regression to make comprehensive predictions. The experimental results illustrate that PMDFI achieves excellent performance in predicting potential miRNA–disease associations, with the average area under the ROC curve scores of 0.9404 and 0.9415 in 5-fold and 10-fold cross-validation, respectively.

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GCNSDA: Predicting snoRNA-disease associations via graph convolutional network

Liu

Luo

Zheng

et al. 2021

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LGCMDS: Predicting miRNA-Drug Sensitivity based on Light Graph Convolution Network

et al. 2021

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Dayun Liu

SMALF: miRNA-disease associations prediction based on stacked autoencoder and XGBoost

MGATMDA: Predicting Microbe-Disease Associations via Multi-Component Graph Attention Network

PMDFI: Predicting miRNA–Disease Associations Based on High-Order Feature Interaction

GCNSDA: Predicting snoRNA-disease associations via graph convolutional network

LGCMDS: Predicting miRNA-Drug Sensitivity based on Light Graph Convolution Network

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