Graph convolutional network based virus-human protein-protein interaction prediction for novel viruses
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Tarih
2022-08-13Yazar
Koca, Mehmet BurakNourani, Esmaeil
Abbasoğlu, Ferda
Karadeniz, İlknur
Sevilgen, Fatih Erdoğan
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Koca, M. B., Nourani, E., Abbasoğlu, F., Karadeniz, İ. & Sevilgen, F. E. (2022). Graph convolutional network based virus-human protein-protein interaction prediction for novel viruses. Computational Biology and Chemistry, 101, 1-14. doi:10.1016/j.compbiolchem.2022.107755Özet
Computational identification of human-virus protein-protein interactions (PHIs) is a worthwhile step towards understanding infection mechanisms. Analysis of the PHI networks is important for the determination of path-ogenic diseases. Prediction of these interactions is a popular problem since experimental detection of PHIs is both time-consuming and expensive. The available methods use biological features like amino acid sequences, molecular structure, or biological activities for prediction. Recent studies show that the topological properties of proteins in protein-protein interaction (PPI) networks increase the performance of the predictions. The basic network projections, random-walk-based models, or graph neural networks are used for generating topologically enriched (hybrid) protein embeddings. In this study, we propose a three-stage machine learning pipeline that generates and uses hybrid embeddings for PHI prediction. In the first stage, numerical features are extracted from the amino acid sequences using the Doc2Vec and Byte Pair Encoding method. The amino acid embeddings are used as node features while training a modified GraphSAGE model, which is an improved version of the graph convolutional network. Lastly, the hybrid protein embeddings are used for training a binary interaction classifier model that predicts whether there is an interaction between the given two proteins or not. The proposed method is evaluated with comprehensive experiments to test its functionality and compare it with the state-of-art methods. The experimental results on the benchmark dataset prove the efficiency of the proposed model by having a 3–23% better area under curve (AUC) score than its competitors.
Kaynak
Computational Biology and ChemistryCilt
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