The first single-stranded DNA virus targeting Pectobacterium belongs to the family Microviridae and demonstrates a broad host range to Pectobacterium brasiliense soft rot pathogens
Pedersen, Julie Stenberg ; Carstens, Alexander Byth ; Rothgardt, Magnus ; Viry, Anouk ; Hille, Frank ; Franz, Charles M A P ; Kot, Witold ; Egorov, Artyom LU
; Atkinson, Gemma
LU
and Hansen, Lars Hestbjerg
(2026)
In Archives of Virology
171(3).
p.1-14
- Abstract
UNLABELLED:
Pectobacterium brasiliense (
Pbr) is known to be one of the most virulent
Pectobacterium species and is generally widely distributed across the globe, especially known for causing soft rot in potato-tubers and black leg in potato-plants. Currently no treatment mechanism exists, and many studies have focused on alternative treatment approaches such as biocontrol agents. Several studies have used phages targeting
Pectobacterium species as effective biocontrol agents. This study is the first description of a single-stranded DNA phage belonging to the family
Microviridaethat targets
Pectobacterium. The novel Pectobacterium phage Mimer is proposed to belong to a new genus within the subfamily... (More)UNLABELLED:
Pectobacterium brasiliense (
Pbr) is known to be one of the most virulent
Pectobacterium species and is generally widely distributed across the globe, especially known for causing soft rot in potato-tubers and black leg in potato-plants. Currently no treatment mechanism exists, and many studies have focused on alternative treatment approaches such as biocontrol agents. Several studies have used phages targeting
Pectobacterium species as effective biocontrol agents. This study is the first description of a single-stranded DNA phage belonging to the family
Microviridaethat targets
Pectobacterium. The novel Pectobacterium phage Mimer is proposed to belong to a new genus within the subfamily
Bullavirinae in the family
Microviridae. Phage Mimer has a genome size of 5879 nt with twelve predicted gene products. Seven out of twelve gene products could be assigned with a function based on either amino acid sequence or structural similarity. Gene synteny and phylogenetic analyses suggest that phage Mimer is part of the subfamily
Bullavirinae. Phage Mimer proved to infect a broad range of
Pbr isolates but showed a poor adsorption rate as only 17% of phage particles adsorbed within 10 min on the isolation host. Growth kinetics showed phage Mimer to have a latent period of 65 min and an average burst size of approximately 79 virions per cell. Phage Mimer is the first ssDNA phage targeting Pectobacterium and could be a promising biocontrol agent with great therapeutic potential, based on both the small genome size and the well-known genome architecture of model phage phiX174.
SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00705-026-06543-2.
(Less)
- author
- Pedersen, Julie Stenberg
; Carstens, Alexander Byth
; Rothgardt, Magnus
; Viry, Anouk
; Hille, Frank
; Franz, Charles M A P
; Kot, Witold
; Egorov, Artyom
LU
; Atkinson, Gemma
LU
and Hansen, Lars Hestbjerg
- organization
- publishing date
- 2026-02-25
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Archives of Virology
- volume
- 171
- issue
- 3
- article number
- 97
- pages
- 1 - 14
- publisher
- Springer
- external identifiers
-
- pmid:41739249
- scopus:105031190993
- ISSN
- 1432-8798
- DOI
- 10.1007/s00705-026-06543-2
- language
- English
- LU publication?
- yes
- id
- 9a87de83-351b-48be-b187-b9a7e4f4c51e
- date added to LUP
- 2026-03-27 12:40:57
- date last changed
- 2026-06-06 11:09:49
@article{9a87de83-351b-48be-b187-b9a7e4f4c51e,
abstract = {{<p>UNLABELLED: <br>
Pectobacterium brasiliense (<br>
Pbr) is known to be one of the most virulent <br>
Pectobacterium species and is generally widely distributed across the globe, especially known for causing soft rot in potato-tubers and black leg in potato-plants. Currently no treatment mechanism exists, and many studies have focused on alternative treatment approaches such as biocontrol agents. Several studies have used phages targeting <br>
Pectobacterium species as effective biocontrol agents. This study is the first description of a single-stranded DNA phage belonging to the family <br>
Microviridaethat targets <br>
Pectobacterium. The novel Pectobacterium phage Mimer is proposed to belong to a new genus within the subfamily <br>
Bullavirinae in the family <br>
Microviridae. Phage Mimer has a genome size of 5879 nt with twelve predicted gene products. Seven out of twelve gene products could be assigned with a function based on either amino acid sequence or structural similarity. Gene synteny and phylogenetic analyses suggest that phage Mimer is part of the subfamily<br>
Bullavirinae. Phage Mimer proved to infect a broad range of <br>
Pbr isolates but showed a poor adsorption rate as only 17% of phage particles adsorbed within 10 min on the isolation host. Growth kinetics showed phage Mimer to have a latent period of 65 min and an average burst size of approximately 79 virions per cell. Phage Mimer is the first ssDNA phage targeting Pectobacterium and could be a promising biocontrol agent with great therapeutic potential, based on both the small genome size and the well-known genome architecture of model phage phiX174.<br>
</p><p>SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00705-026-06543-2.</p>}},
author = {{Pedersen, Julie Stenberg and Carstens, Alexander Byth and Rothgardt, Magnus and Viry, Anouk and Hille, Frank and Franz, Charles M A P and Kot, Witold and Egorov, Artyom and Atkinson, Gemma and Hansen, Lars Hestbjerg}},
issn = {{1432-8798}},
language = {{eng}},
month = {{02}},
number = {{3}},
pages = {{1--14}},
publisher = {{Springer}},
series = {{Archives of Virology}},
title = {{The first single-stranded DNA virus targeting Pectobacterium belongs to the family Microviridae and demonstrates a broad host range to Pectobacterium brasiliense soft rot pathogens}},
url = {{http://dx.doi.org/10.1007/s00705-026-06543-2}},
doi = {{10.1007/s00705-026-06543-2}},
volume = {{171}},
year = {{2026}},
}