Your search keyword '"Boeckaerts, Dimitri"' showing total 2 results

1. Prediction of Klebsiella phage-host specificity at the strain level.

Author

Boeckaerts, Dimitri, Stock, Michiel, Ferriol-González, Celia, Oteo-Iglesias, Jesús, Sanjuán, Rafael, Domingo-Calap, Pilar, De Baets, Bernard, and Briers, Yves

Subjects

KLEBSIELLA, BACTERIAL proteins, PROTEIN receptors, BACTERIAL diseases, BACTERIOPHAGES, MACHINE learning

Abstract

Phages are increasingly considered promising alternatives to target drug-resistant bacterial pathogens. However, their often-narrow host range can make it challenging to find matching phages against bacteria of interest. Current computational tools do not accurately predict interactions at the strain level in a way that is relevant and properly evaluated for practical use. We present PhageHostLearn, a machine learning system that predicts strain-level interactions between receptor-binding proteins and bacterial receptors for Klebsiella phage-bacteria pairs. We evaluate this system both in silico and in the laboratory, in the clinically relevant setting of finding matching phages against bacterial strains. PhageHostLearn reaches a cross-validated ROC AUC of up to 81.8% in silico and maintains this performance in laboratory validation. Our approach provides a framework for developing and evaluating phage-host prediction methods that are useful in practice, which we believe to be a meaningful contribution to the machine-learning-guided development of phage therapeutics and diagnostics. Bacterial viruses (phages) are promising alternatives to treat antibiotic-resistant bacterial infections, but finding matching phages against bacteria of interest is challenging. Here, Boeckaerts et al. present a machine learning approach that predicts phage-bacteria pairs at the strain level for Klebsiella pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

2. Predicting bacteriophage hosts based on sequences of annotated receptor-binding proteins.

Author

Boeckaerts, Dimitri, Stock, Michiel, Criel, Bjorn, Gerstmans, Hans, De Baets, Bernard, and Briers, Yves

Subjects

*BACTERIOPHAGES, *CARRIER proteins, *BACTERIAL diseases, *ANTIBIOTICS, *ESCHERICHIA coli

Abstract

Nowadays, bacteriophages are increasingly considered as an alternative treatment for a variety of bacterial infections in cases where classical antibiotics have become ineffective. However, characterizing the host specificity of phages remains a labor- and time-intensive process. In order to alleviate this burden, we have developed a new machine-learning-based pipeline to predict bacteriophage hosts based on annotated receptor-binding protein (RBP) sequence data. We focus on predicting bacterial hosts from the ESKAPE group, Escherichia coli, Salmonella enterica and Clostridium difficile. We compare the performance of our predictive model with that of the widely used Basic Local Alignment Search Tool (BLAST). Our best-performing predictive model reaches Precision-Recall Area Under the Curve (PR-AUC) scores between 73.6 and 93.8% for different levels of sequence similarity in the collected data. Our model reaches a performance comparable to that of BLASTp when sequence similarity in the data is high and starts outperforming BLASTp when sequence similarity drops below 75%. Therefore, our machine learning methods can be especially useful in settings in which sequence similarity to other known sequences is low. Predicting the hosts of novel metagenomic RBP sequences could extend our toolbox to tune the host spectrum of phages or phage tail-like bacteriocins by swapping RBPs. [ABSTRACT FROM AUTHOR]

Published

2021