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[Preprint]. 2024 Apr 12:2024.04.12.589144. [Version 1] doi: 10.1101/2024.04.12.589144

Essential and virulence-related protein interactions of pathogens revealed through deep learning

Ian R Humphreys, Jing Zhang, Minkyung Baek, Yaxi Wang, Aditya Krishnakumar, Jimin Pei, Ivan Anishchenko, Catherine A Tower, Blake A Jackson, Thulasi Warrier, Deborah T Hung, S Brook Peterson, Joseph D Mougous, Qian Cong, David Baker
PMCID: PMC11030334  PMID: 38645026

Abstract

Identification of bacterial protein–protein interactions and predicting the structures of the complexes could aid in the understanding of pathogenicity mechanisms and developing treatments for infectious diseases. Here, we developed a deep learning-based pipeline that leverages residue-residue coevolution and protein structure prediction to systematically identify and structurally characterize protein-protein interactions at the proteome-wide scale. Using this pipeline, we searched through 78 million pairs of proteins across 19 human bacterial pathogens and identified 1923 confidently predicted complexes involving essential genes and 256 involving virulence factors. Many of these complexes were not previously known; we experimentally tested 12 such predictions, and half of them were validated. The predicted interactions span core metabolic and virulence pathways ranging from post-transcriptional modification to acid neutralization to outer membrane machinery and should contribute to our understanding of the biology of these important pathogens and the design of drugs to combat them.

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