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Fusion of multi-source relationships and topology to infer lncRNA-protein interactions

Xinyu Zhang, Mingzhe Liu, Zhen Li, Linlin Zhuo, Xiangzheng Fu, Quan Zou

2024Molecular Therapy — Nucleic Acids26 citationsDOIOpen Access PDF

Abstract

Long non-coding RNAs (lncRNAs) are important factors involved in biological regulatory networks. Accurately predicting lncRNA-protein interactions (LPIs) is vital for clarifying lncRNA's functions and pathogenic mechanisms. Existing deep learning models have yet to yield satisfactory results in LPI prediction. Recently, graph autoencoders (GAEs) have seen rapid development, excelling in tasks like link prediction and node classification. We employed GAE technology for LPI prediction, devising the FMSRT-LPI model based on path masking and degree regression strategies and thereby achieving satisfactory outcomes. This represents the first known integration of path masking and degree regression strategies into the GAE framework for potential LPI inference. The effectiveness of our FMSRT-LPI model primarily relies on four key aspects. First, within the GAE framework, our model integrates multi-source relationships of lncRNAs and proteins with LPN's topological data. Second, the implemented masking strategy efficiently identifies LPN's key paths, reconstructs the network, and reduces the impact of redundant or incorrect data. Third, the integrated degree decoder balances degree and structural information, enhancing node representation. Fourth, the PolyLoss function we introduced is more appropriate for LPI prediction tasks. The results on multiple public datasets further demonstrate our model's potential in LPI prediction.

Topics & Concepts

Computer scienceInferenceKey (lock)Node (physics)Masking (illustration)Representation (politics)RegressionCoding (social sciences)Source codeData miningPath (computing)Artificial intelligenceGraphMachine learningTheoretical computer scienceMathematicsComputer networkVisual artsLawPoliticsOperating systemStatisticsPolitical scienceArtComputer securityStructural engineeringEngineeringCancer-related molecular mechanisms researchRNA and protein synthesis mechanismsGenomics and Phylogenetic Studies
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