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Advances in phage–host interaction prediction: <i>in silico</i> method enhances the development of phage therapies

Wanchun Nie, Tianyi Qiu, Yiwen Wei, Hao Ding, Zhixiang Guo, Jingxuan Qiu

2024Briefings in Bioinformatics28 citationsDOIOpen Access PDF

Abstract

Phages can specifically recognize and kill bacteria, which lead to important application value of bacteriophage in bacterial identification and typing, livestock aquaculture and treatment of human bacterial infection. Considering the variety of human-infected bacteria and the continuous discovery of numerous pathogenic bacteria, screening suitable therapeutic phages that are capable of infecting pathogens from massive phage databases has been a principal step in phage therapy design. Experimental methods to identify phage-host interaction (PHI) are time-consuming and expensive; high-throughput computational method to predict PHI is therefore a potential substitute. Here, we systemically review bioinformatic methods for predicting PHI, introduce reference databases and in silico models applied in these methods and highlight the strengths and challenges of current tools. Finally, we discuss the application scope and future research direction of computational prediction methods, which contribute to the performance improvement of prediction models and the development of personalized phage therapy.

Topics & Concepts

In silicoPhage therapyComputational biologyBacteriophageIdentification (biology)Phage typingBiologyHost (biology)Computer scienceBacteriaGeneticsEscherichia coliGeneBotanyBacteriophages and microbial interactionsGenomics and Phylogenetic StudiesRNA and protein synthesis mechanisms
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