Abstract
The growing concern about multi-drug resistant pathogenic bacteria has led to a renewed interest in the study of bacteriophages as antimicrobials and as therapeutic agents against infectious diseases (phage therapy). Phages to be used for this purpose have to be subjected to in-depth genomic characterization. It is essential to ascribe specific functions to phage genes, which will give information to unravel phage biology and to ensure the lack of undesirable genes, such as virulence and antibiotic resistance genes. Here, we describe a simple protocol for the selection of phage mutants carrying random deletions along the phage genome. Theoretically, any DNA region might be removed with the only requirement that the phage particle viability remains unaffected. This technique is based on the instability of phage particles in the presence of chelating compounds. A fraction of the phage population naturally lacking DNA segments will survive the treatment. Within the context of phages as antimicrobials, this protocol is useful to select lytic variants from temperate phages. In terms of phage efficiency, virulent phages are preferred over temperate ones to remove undesirable bacteria. This protocol has been used to obtain gene mutations that are involved in the lysogenic cycle of phages infecting Gram-positive bacteria (Staphylococcus and Lactobacillus).
Highlights
The isolation and characterization of phage deletion mutants is a widely used tool for the analysis of gene function and regulation
We report an easy and rapid way to isolate phage deletion mutants based on the instability of phage particles in the presence of chelating agents, such as EDTA (Ethylenediaminetetraacetic acid), sodium citrate, or sodium pyrophosphate
The protocol described here allows for the selection of phages carrying random DNA deletions, and, in addition, the subsequent isolation of those mutations affecting the lysis-lysogeny functions. This protocol was tested on S. aureus phages phiH5 and phiA72, but it can be applied to other phages infecting Gram-positive bacteria
Summary
The isolation and characterization of phage deletion mutants is a widely used tool for the analysis of gene function and regulation. Deletions ranged from 0.5 to 3.5 kb and were all located in one of two genomic regions, comprising up to 7.9 kb, which were dispensable for lytic development Those phages carrying deletions in the lysogeny module showed a “clear lysis plaque” phenotype and were unable to lysogenize their host [10]. This method was useful to select lytic derivative mutants from the Staphylococcus aureus temperate phages phiH5 and phiA72. The protocol described here allows for the selection of phages carrying random DNA deletions, and, in addition, the subsequent isolation of those mutations affecting the lysis-lysogeny functions This protocol was tested on S. aureus phages phiH5 and phiA72, but it can be applied to other phages infecting Gram-positive bacteria. This straightforward methodology allows for the selection of lytic variants from temperate phages in a very short period of time
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