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Structure-Aware Multimodal Deep Learning for Drug–Protein Interaction Prediction

Penglei Wang, Shuangjia Zheng, Yize Jiang, Chengtao Li, Junhong Liu, Chang Wen, Atanas Patronov, Dahong Qian, Hongming Chen, Yuedong Yang

2022Journal of Chemical Information and Modeling79 citationsDOI

Abstract

Identifying drug-protein interactions (DPIs) is crucial in drug discovery, and a number of machine learning methods have been developed to predict DPIs. Existing methods usually use unrealistic data sets with hidden bias, which will limit the accuracy of virtual screening methods. Meanwhile, most DPI prediction methods pay more attention to molecular representation but lack effective research on protein representation and high-level associations between different instances. To this end, we present the novel structure-aware multimodal deep DPI prediction model, STAMP-DPI, which was trained on a curated industry-scale benchmark data set. We built a high-quality benchmark data set named GalaxyDB for DPI prediction. This industry-scale data set along with an unbiased training procedure resulted in a more robust benchmark study. For informative protein representation, we constructed a structure-aware graph neural network method from the protein sequence by combining predicted contact maps and graph neural networks. Through further integration of structure-based representation and high-level pretrained embeddings for molecules and proteins, our model effectively captures the feature representation of the interactions between them. As a result, STAMP-DPI outperformed state-of-the-art DPI prediction methods by decreasing 7.00% mean square error (MSE) in the Davis data set and improving 8.89% area under the curve (AUC) in the GalaxyDB data set. Moreover, our model is an interpretable model with the transformer-based interaction mechanism, which can accurately reveal the binding sites between molecules and proteins.

Topics & Concepts

Computer scienceBenchmark (surveying)Artificial intelligenceMachine learningRepresentation (politics)Artificial neural networkData miningMean squared errorProtein structure predictionData setFeature learningTest setDeep learningDrug discoveryTraining setSet (abstract data type)GraphPattern recognition (psychology)Protein structureBioinformaticsTheoretical computer scienceMathematicsPolitical sciencePoliticsNuclear magnetic resonancePhysicsGeographyStatisticsLawProgramming languageBiologyGeodesyComputational Drug Discovery MethodsBioinformatics and Genomic NetworksProtein Structure and Dynamics
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