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LNGCN: A Distance-Aware Dynamics Network for Protein-Protein Interaction Prediction

Xiao, Y.; Zheng, Y.; Hua, Y.; Peng, J.; Liu, J.; Qu, Y.; Xu, J.; Fu, R.; Qian, Q.; Zhao, M.; Zhang, X.; Zhao, J.; Yao, Y.; Kosar, M.; Ke, Y.; Chi, Y.

2026-05-04 bioinformatics
10.64898/2026.04.30.721835 bioRxiv
Show abstract

High-throughput accurate protein-protein interaction (PPI) prediction is foundational to systems-level biological understanding, disease mechanism dissection, and structure-based drug discovery. Traditional graph convolutional networks (GCNs) are limited by discrete information propagation, layer-wise representation homogenization, and absent continuous-time state evolution, failing to capture residues 3D spatial hierarchical dynamic binding patterns. We present LNGCN, a hybrid framework integrating liquid neural networks with GCNs, which encodes residue radial distances as node-level driving terms for continuous updates with hierarchical probabilistic calibration. On standard benchmarks, LNGCN achieves 90% relative AUPRC improvement over PIPR, outperforms RF2-PPI on 1 : 10 imbalanced datasets, and retains 0.9324 AUPRC on held-out yeast test data. LNGCN further demonstrates biological utility in phosphorylation-dependent SHP2 signaling, FGF23-FGFR1c--Klotho ternary assembly, Tdk1 oligomeric-state-dependent interactions, and experimentally validated TPR-mediated candidates. By capturing state-dependent interaction changes, LNGCN provides a scalable framework for PPI screening, candidate prioritization, and future residue-level dynamic PPI trajectory modeling.

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