Decoding phage-host interactions: a machine learning approach to predict strain-specific infections

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Abstract

Abstract The use of bacteriophages for biological control of bacterial infections is a promising approach to combat antimicrobial resistant bacteria. Prediction of phage-bacteria interactions is key to identify sensitive bacterial strains to phage therapy. Since these interactions are governed by multiple biological mechanisms, it is not a simple task to predict the outcome of a phage infection, which varies even among strains from the same species. In this study, machine learning-based models capable of predicting the host range of phages from sequencing data were developed. Models were trained using phage-bacteria protein-protein interactions (PPI), predicted from PPI databases, and a host-range dataset obtained from experimental assays with 10 Salmonella enterica and 3 Escherichia coli bacteriophages. The performance of prediction models differed among bacteriophages, ranging from 78–92% of accuracy in the case of Salmonella and 84–94% in Escherichia phages. Results demonstrated the effectiveness of using PPI as a feature to design ML models for phage-bacteria phenotype prediction.

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last seen: 2026-05-20T01:45:00.602351+00:00