Novel Bacteriophage KG853 Exhibits Potent Lytic Activity and Biofilm Inhibition Against <em>Pseudomonas aeruginosa</em>
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2024
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76
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This study reports the isolation and characterization of a novel bacteriophage, KG853, specifically targeting Pseudomonas aeruginosa ATCC 27853. Morphological analysis using transmission electron microscopy revealed that bacteriophage KG853 belongs to the Bruynoghevirus genus. The phage demonstrated favorable characteristics for potential therapeutic applications, including a short latent period of 30 minutes and a large burst size of 136 plaque-forming units (PFU) per cell. KG853 exhibited stability across various temperatures and pH values, indicating its robustness under various environmental conditions. Genomic analysis showed that KG853 possesses a circular DNA genome of 45,390 base pairs with a GC content of 52.2%. No lysogenic or virulence genes were detected among the 84 open reading frames annotated in the genome, suggesting its safety for potential therapeutic use. Phylogenetic analysis revealed that phage KG853 is closely related to phage PaP3. Notably, KG853 demonstrated the ability to inhibit the formation of 4-hour biofilms by P. aeruginosa, a critical virulence factor in many infections. Host range analysis showed that KG853 is specific to P. aeruginosa, an important characteristic for targeted therapy. These findings suggest that bacteriophage KG853 represents a promising candidate for combating drug-resistant P. aeruginosa infections. Its specific host range, robust physical characteristics, lack of harmful genes, and anti-biofilm activity make it a potential alternative to conventional antibiotics. Further research is warranted to explore its efficacy in in vivo models and potential clinical applications.
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Bacteriophage KG853, Pseudomonas aeruginosa, Pseudomonas phage, biofilm inhibition, phage therapy, drug-resistant
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The Israeli Journal of Aquaculture - Bamidgeh
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