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Pharmaceuticals, Vol. 11, Pages 45: Novel N4-Like Bacteriophages of Pectobacterium atrosepticum

Pharmaceuticals, Vol. 11, Pages 45: Novel N4-Like Bacteriophages of Pectobacterium atrosepticum

Pharmaceuticals doi: 10.3390/ph11020045

Authors: Colin Buttimer Hanne Hendrix Alan Lucid Horst Neve Jean-Paul Noben Charles Franz Jim O’Mahony Rob Lavigne Aidan Coffey

Pectobacterium atrosepticum is an economically important phytopathogen that is responsible for potato blackleg and soft rot, and for which current control strategies are limited. In this study, stem samples of potato crops exhibiting blackleg were taken from three farms in Co. Cork, Ireland, and they were found to be infected with P. atrosepticum. Three closely related bacteriophages (phages) that are specific to this phytopathogen were isolated and characterized, namely vB_PatP_CB1, vB_PatP_CB3, and vB_PatP_CB4 (abbreviated as CB1, CB3, and CB4). Both CB1 and CB3 were determined to infect 12 strains and CB4 10 strains of the 19 strains of P. atrosepticum tested. Morphology, latent periods, burst sizes, and their stability at various temperatures and pHs were also examined. Genome sequencing of the three phages revealed that they shared a minimum nucleotide identity of 93% with each other. Their genomes exhibited an Enquartavirinae genome organization, possessing several conserved proteins that were associated with phages of this group, like the type species Escherichia virus N4. Tandem electrospray ionization-mass spectrometry (ESI-MS/MS) allowed for the identification of ten structural proteins that form the virion of CB1, six that are conserved in phage N4. Biocontrol experiments demonstrated that the phages suppress soft rot formation upon co-inoculation with P. atrosepticum on whole tubers. The results of this study indicate that CB1 related phages could be good candidates for phage-based control.

Authors:   Buttimer, Colin ; Hendrix, Hanne ; Lucid, Alan ; Neve, Horst ; Noben, Jean-Paul ; Franz, Charles ; O’Mahony, Jim ; Lavigne, Rob ; Coffey, Aidan
Journal:   Pharmaceuticals
Volume:   11
edition:   2
Year:   2018
Pages:   45
DOI:   10.3390/ph11020045
Publication date:   14-May-2018
Facts, background information, dossiers
  • structural proteins
  • stability
  • samples
  • electrospray ionization
  • crops
  • BioControl
More about Molecular Diversity Preservation International
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