Litcius/Paper detail

DGHNN: a deep graph and hypergraph neural network for pan-cancer related gene prediction

Bing Li, Xin Xiao, Chao Zhang, Ming Xiao, Le Zhang

2025Bioinformatics11 citationsDOIOpen Access PDF

Abstract

MOTIVATION: Studies on pan-cancer related genes play important roles in cancer research and precision therapy. With the richness of research data and the development of neural networks, several successful methods that take advantage of multiomics data, protein interaction networks, and graph neural networks to predict cancer genes have emerged. However, these methods also have several problems, such as ignoring potentially useful biological data and providing limited representations of higher-order information. RESULTS: In this work, we propose a pan-cancer related gene predictive model, the DGHNN, which takes biological pathways into consideration, applies a deep graph and hypergraph neural network to encode the higher-order information in the protein interaction network and biological pathway, introduces skip residual connections into the deep graph and hypergraph neural network to avoid problems with training the deep neural network, and finally uses a feature tokenizer and transformer for classification. The experimental results show that the DGHNN outperforms other methods and achieves state-of-the-art model performance for pan-cancer related gene prediction. AVAILABILITY AND IMPLEMENTATION: The DGHNN is available at https://github.com/skytea/DGHNN.

Topics & Concepts

HypergraphENCODEArtificial neural networkComputer scienceGraphArtificial intelligenceBiological networkDeep learningMachine learningInteraction networkData miningComputational biologyGeneTheoretical computer scienceBiologyGeneticsMathematicsDiscrete mathematicsBioinformatics and Genomic NetworksFerroptosis and cancer prognosisAdvanced Graph Neural Networks
DGHNN: a deep graph and hypergraph neural network for pan-cancer related gene prediction | Litcius