Graph neural networks with multiple prior knowledge for multi-omics data analysis
With the development of biotechnology, a large amount of multi-omics data have been collected for precision medicine. There exists multiple graph-based prior biological knowledge about omics data, such as gene-gene interaction networks. Recently, there has been an increasing interest in introducing...
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sg-ntu-dr.10356-1711012023-10-13T15:36:38Z Graph neural networks with multiple prior knowledge for multi-omics data analysis Xiao, Shunxin Lin, Huibin Wang, Conghao Wang, Shiping Rajapakse, Jagath Chandana School of Computer Science and Engineering Engineering::Computer science and engineering Multi-Omics Data Graph Neural Networks With the development of biotechnology, a large amount of multi-omics data have been collected for precision medicine. There exists multiple graph-based prior biological knowledge about omics data, such as gene-gene interaction networks. Recently, there has been an increasing interest in introducing graph neural networks (GNNs) into multi-omics learning. However, existing methods have not fully exploited these graphical priors since none have been able to integrate knowledge from multiple sources simultaneously. To solve this problem, we propose a multi-omics data analysis framework by incorporating multiple prior knowledge into graph neural network (MPK-GNN). To the best of our knowledge, this is the first attempt to introduce multiple prior graphs into multi-omics data analysis. Specifically, the proposed method contains four parts: (1) a feature-level learning module to aggregate information from prior graphs; (2) a projection module to maximize the agreement among prior networks by optimizing a contrastive loss; (3) a sample-level module to learn a global representation from input multi-omics features; (4) a task-specific module to flexibly extend MPK-GNN for various downstream multi-omics analysis tasks. Finally, we verify the effectiveness of the proposed multi-omics learning algorithm on the cancer molecular subtype classification task. Experimental results show that MPK-GNN outperforms other state-of-the-art algorithms, including multi-view learning methods and multi-omics integrative approaches. Submitted/Accepted version This work was supported in part by the National Natural Science Foundation of China under Grants U21A20472 and 62276065, in part by the National Key Research and Development Plan of China under Grant 2021YFB3600503, and in part by the China Scholarship Council under Grant 202106650030. 2023-10-13T04:28:54Z 2023-10-13T04:28:54Z 2023 Journal Article Xiao, S., Lin, H., Wang, C., Wang, S. & Rajapakse, J. C. (2023). Graph neural networks with multiple prior knowledge for multi-omics data analysis. IEEE Journal of Biomedical and Health Informatics, 27(9), 4591-4600. https://dx.doi.org/10.1109/JBHI.2023.3284794 2168-2194 https://hdl.handle.net/10356/171101 10.1109/JBHI.2023.3284794 37307177 2-s2.0-85162634697 9 27 4591 4600 en IEEE Journal of Biomedical and Health Informatics © 2023 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/JBHI.2023.3284794. application/pdf |
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Engineering::Computer science and engineering Multi-Omics Data Graph Neural Networks |
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Engineering::Computer science and engineering Multi-Omics Data Graph Neural Networks Xiao, Shunxin Lin, Huibin Wang, Conghao Wang, Shiping Rajapakse, Jagath Chandana Graph neural networks with multiple prior knowledge for multi-omics data analysis |
| description |
With the development of biotechnology, a large amount of multi-omics data have been collected for precision medicine. There exists multiple graph-based prior biological knowledge about omics data, such as gene-gene interaction networks. Recently, there has been an increasing interest in introducing graph neural networks (GNNs) into multi-omics learning. However, existing methods have not fully exploited these graphical priors since none have been able to integrate knowledge from multiple sources simultaneously. To solve this problem, we propose a multi-omics data analysis framework by incorporating multiple prior knowledge into graph neural network (MPK-GNN). To the best of our knowledge, this is the first attempt to introduce multiple prior graphs into multi-omics data analysis. Specifically, the proposed method contains four parts: (1) a feature-level learning module to aggregate information from prior graphs; (2) a projection module to maximize the agreement among prior networks by optimizing a contrastive loss; (3) a sample-level module to learn a global representation from input multi-omics features; (4) a task-specific module to flexibly extend MPK-GNN for various downstream multi-omics analysis tasks. Finally, we verify the effectiveness of the proposed multi-omics learning algorithm on the cancer molecular subtype classification task. Experimental results show that MPK-GNN outperforms other state-of-the-art algorithms, including multi-view learning methods and multi-omics integrative approaches. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Xiao, Shunxin Lin, Huibin Wang, Conghao Wang, Shiping Rajapakse, Jagath Chandana |
| format |
Article |
| author |
Xiao, Shunxin Lin, Huibin Wang, Conghao Wang, Shiping Rajapakse, Jagath Chandana |
| author_sort |
Xiao, Shunxin |
| title |
Graph neural networks with multiple prior knowledge for multi-omics data analysis |
| title_short |
Graph neural networks with multiple prior knowledge for multi-omics data analysis |
| title_full |
Graph neural networks with multiple prior knowledge for multi-omics data analysis |
| title_fullStr |
Graph neural networks with multiple prior knowledge for multi-omics data analysis |
| title_full_unstemmed |
Graph neural networks with multiple prior knowledge for multi-omics data analysis |
| title_sort |
graph neural networks with multiple prior knowledge for multi-omics data analysis |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171101 |
| _version_ |
1781793758105305088 |