Julie Stenberg Pedersen scite author profile

Background: Soft rot Pectobacteriaceae includes the genera Pectobacterium and Dickeya, which are important plant pathogens being responsible for diseases in a wide range of plant species, with potatoes as the main group. Both genera cause pre-and postharvest losses of potatoes, resulting in huge economic losses linked with the soft rot diseases. Materials and Methods: Organic waste was used to isolate phages, with Pectobacterium carotovorum subsp. carotovorum DSM 30170 as host. Complete genome sequencing, comparative genomics, and electron microscopy were used to characterize the phage. An adsorption assay was used to estimate adsorption rate. Twenty-three strains from the genera Pectobacterium and Dickeya were used to examine the host range of the phage. Results: Pectobacterium phage Jarilo represents a novel genus of bacteriophages within the family Autographiviridae, order Caudovirales. Jarilo possesses a double-stranded DNA genome of 40557 bp with a G+C% content of 50.08% and 50 predicted open reading frames. Gene synteny and products seem to be partly conserved between Pectobacterium phage Jarilo and Enterobacteria phage T7, but limited nucleotide similarity is found between Jarilo and other phages within the family Autographiviridae. The adsorption rate of phage Jarilo increased continuously for 1 h upon infection. Phage Jarilo was not able to infect any strains of P. carotovorum and Dickeya tested with the exception of the P. carotovorum strain used for isolation. However, phage Jarilo infected 10 of 16 Pectobacterium atrosepticum strains tested. Conclusion:We propose Pectobacterium phage Jarilo as the first member of a new genus of bacteriophages within the family Autographiviridae, order Caudovirales, displaying a broad host range within the genera of Pectobacterium.

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Isolation and complete genome sequencing of Pectobacterium phage Jarilo, representing a novel genus of bacteriophages within the subfamilyAutographivirinae

Pedersen

Carstens

Djurhuus

et al. 2020

Preprint

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Pectobacterium carotovorum is the causative agent of bacterial soft rot on various plant species. The use of phages for plant disease control have gained increased awareness over the past years. We here describe the isolation and characterization of Pectobacterium phage Jarilo, representing a novel genus of bacteriophages within the subfamily Autographivirinae. Jarilo possesses a double-stranded DNA genome of 40557 bp with a G+C% content of 50.08% and 50 predicted open reading frames (ORFs).Gene synteny and products seem to be somewhat conserved between Pectobacterium phage Jarilo and Enterobacteria phage T7, but limited nucleotide similarity is found between Jarilo and other phages within the subfamily Autographivirinae. We propose Pectobacterium phage Jarilo as the first member of a new genus of bacteriophages within the subfamily Autographivirinae.

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A Rare, VirulentClostridium perfringensBacteriophage Susfortuna Is the First Isolated Bacteriophage in a New Viral Genus

Pedersen

Kot

Plöger

et al. 2020

PHAGE

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Background: Clostridium perfringens is a well known swine pathogen. C. perfringens type A is considered the causative agent of enteric diseases in neonatal and weaned piglets. Phage therapy using C. perfringens phages in vivo has previously proved effective. Materials and Methods: Pig fecal samples were used to isolate phages, with Clostridium perfringens type A as host. Complete genome sequencing, comparative genomics, a proteome analysis and electron microscopy were used to characterize the phage. Results: Clostridium phage Susfortuna has a double-stranded DNA genome of 19,046 bp with a G+C% content of 29.2, inverted terminal repeats and 28 predicted coding sequences (CDSs). Putative functions could not be assigned to most of the CDSs (64.3%). Transmission electron microscopy of phage Susfortuna revealed an isometric head and a short protruding tail stub resembling the structure of the Podoviridae family. A proteome analysis of phage Susfortuna identified seven structural proteins, but only one could be assigned with a putative function. Conclusions: Based on the morphology, the inverted terminal repeats and the small genome size, phage Susfortuna belongs to subfamily Picovirinae within the Podoviridae family in the order Caudovirales. Together with C. perfringens bacteriophage CPD7, phage Susfortuna represent a new genus of bacteriophages with very limited DNA sequence similarity to other known C. perfringens phages. Despite the limited DNA sequence similarity, the gene synteny among putative structural genes of phage Susfortuna is conserved among several C. perfringens bacteriophages belonging to the Podoviridae family indicating a common ancestor.

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