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Pseudomonas Phage Banzai: Genomic and Functional Analysis of Novel Pbunavirus with Lytic Activity Against Pseudomonas aeruginosa

Title:	Pseudomonas Phage Banzai: Genomic and Functional Analysis of Novel Pbunavirus with Lytic Activity Against Pseudomonas aeruginosa
Authors:	Andrei V. Chaplin; Nina N. Sykilinda; George A. Skvortsov; Konstantin S. Troshin; Anna A. Vasilyeva; Sofia A. Shuraleva; Artem A. Malkov; Vladislav S. Simonov; Boris A. Efimov; Lyudmila I. Kafarskaia; Konstantin A. Miroshnikov; Anna A. Kuznetsova; Peter V. Evseev
Source:	Viruses ; Volume 17 ; Issue 8 ; Pages: 1088
Publisher Information:	Multidisciplinary Digital Publishing Institute
Publication Year:	2025
Collection:	MDPI Open Access Publishing
Subject Terms:	phage; Pbunavirus; Lindbergviridae; phage evolution; Pseudomonas aeruginosa; phage genomics; phage therapy; antimicrobial resistance
Description:	Antibiotic-resistant Pseudomonas aeruginosa presents a critical global health challenge, particularly in hospital-acquired infections. Bacteriophages offer a promising therapeutic avenue due to their ability to target and lyse resistant strains. This study characterizes Pseudomonas phage Banzai, a newly isolated Pbunavirus (family Lindbergviridae) with lytic activity against multiple P. aeruginosa isolates, including multidrug-resistant strains. Genomic analysis revealed a 66,189 bp genome, lacking antibiotic resistance or virulence factors, and suggested a headful packaging mechanism and the presence of a bidirectional component in the replication. In vivo experiments using Galleria mellonella showed therapeutic potential, significantly improving larval survival (87% at 24 h). Host range analysis revealed activity against 13 of 30 P. aeruginosa isolates, including members of O1, O3, O5 and O6 in silico predicted serogroups. Phylogenomic analyses place phage Banzai within the genus Pbunavirus, sharing 94.8% intergenomic similarity with its closest relatives, supporting its classification as a novel species. These findings highlight phage Banzai as a potential candidate for phage therapy, demonstrating genomic stability, a strictly lytic lifestyle, and in vivo efficacy.
Document Type:	text
File Description:	application/pdf
Language:	English
Relation:	Bacterial Viruses; https://dx.doi.org/10.3390/v17081088
DOI:	10.3390/v17081088
Availability:	https://doi.org/10.3390/v17081088
Rights:	https://creativecommons.org/licenses/by/4.0/
Accession Number:	edsbas.79A18038
Database:	BASE