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Factor graph-aggregated heterogeneous network embedding for disease-gene association prediction

Ming He, Chen Huang, Bo Liu, Yadong Wang, Junyi Li

2021BMC Bioinformatics20 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Exploring the relationship between disease and gene is of great significance for understanding the pathogenesis of disease and developing corresponding therapeutic measures. The prediction of disease-gene association by computational methods accelerates the process. RESULTS: Many existing methods cannot fully utilize the multi-dimensional biological entity relationship to predict disease-gene association due to multi-source heterogeneous data. This paper proposes FactorHNE, a factor graph-aggregated heterogeneous network embedding method for disease-gene association prediction, which captures a variety of semantic relationships between the heterogeneous nodes by factorization. It produces different semantic factor graphs and effectively aggregates a variety of semantic relationships, by using end-to-end multi-perspectives loss function to optimize model. Then it produces good nodes embedding to prediction disease-gene association. CONCLUSIONS: Experimental verification and analysis show FactorHNE has better performance and scalability than the existing models. It also has good interpretability and can be extended to large-scale biomedical network data analysis.

Topics & Concepts

InterpretabilityComputer scienceScalabilitySemantic similarityHeterogeneous networkGene interactionGene regulatory networkGraphData miningDiseaseEmbeddingComputational biologyMachine learningArtificial intelligenceGeneTheoretical computer scienceBiologyGeneticsMedicineWireless networkGene expressionWirelessPathologyTelecommunicationsDatabaseBioinformatics and Genomic NetworksGenetic Associations and EpidemiologyAdvanced Graph Neural Networks
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