The First Pseudomonas Phage vB_PseuGesM_254 Active against Proteolytic Pseudomonas gessardii Strains

Bacteria of the genus, including the subgroup, play an important role in the environmental microbial communities. Psychrotolerant isolates of can produce thermostable proteases and lipases. When contaminating refrigerated raw milk, these bacteria spoil it by producing enzymes resistant to pasteuriza...

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Bibliographic Details
Published in:Viruses 2024-09, Vol.16 (10), p.1561
Main Authors: Morozova, Vera, Babkin, Igor, Mogileva, Alina, Kozlova, Yuliya, Tikunov, Artem, Bardasheva, Alevtina, Fedorets, Valeria, Zhirakovskaya, Elena, Ushakova, Tatiana, Tikunova, Nina
Format: Article
Language:English
Subjects:
Animals
Bacteria
Bacterial genetics
Environmental aspects
environmental P. fluorescens complex
Food contamination
Genes
Genetic aspects
genome inversion
Genome, Viral
Genomes
Genomic analysis
Host Specificity
Identification and classification
Low temperature
Maximum likelihood method
Metabolism
Metabolites
Microbial contamination
Microorganisms
Milk
Milk - microbiology
Milk - virology
Myoviridae - classification
Myoviridae - genetics
Myoviridae - isolation & purification
Myoviridae - physiology
myovirus
Pasteurization
Pathogens
Phages
Phylogenetics
Phylogeny
Proteolysis
proteolytic activity
Proteomics
Pseudomonas
Pseudomonas - virology
Pseudomonas bacteriophage
Pseudomonas gessardii
Pseudomonas Phages - classification
Pseudomonas Phages - genetics
Pseudomonas Phages - isolation & purification
Sediments
Strains (organisms)
Taxonomy
Temperature
Citations: Items that this one cites
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Summary:Bacteria of the genus, including the subgroup, play an important role in the environmental microbial communities. Psychrotolerant isolates of can produce thermostable proteases and lipases. When contaminating refrigerated raw milk, these bacteria spoil it by producing enzymes resistant to pasteurization. One possible way to prevent spoilage of raw milk is to use lytic phages specific to undesirable isolates. The first phage, vB_PseuGesM_254, was isolated and characterized, which is active against several proteolytic strains. This lytic myophage can infect and lyse its host strain at 24 °C and at low temperature (8 °C); so, it has the potential to prevent contamination of raw milk. The vB_PseuGesM_254 genome, 95,072 bp, shows a low level of intergenomic similarity with the genomes of known phages. Comparative proteomic ViPTree analysis indicated that vB_PseuGesM_254 is associated with a large group of phages that are members of the and subfamilies and the genus. The alignment constructed using ViPTree shows that the vB_PseuGesM_254 genome has a large inversion between ~53,100 and ~70,700 bp, which is possibly a distinctive feature of a new taxonomic unit within this large group of phages.
ISSN:1999-4915
1999-4915
DOI:10.3390/v16101561