Abstract:
Pectobacterium carotovorum is an economically important phytopathogen
and has been identified as the major causative agent of bacterial soft rot in carrots.
Control of this phytopathogen is vital to minimizing carrot harvest losses. As fully effi-
cient control measures to successfully avoid the disease are unavailable, the phage-
mediated biocontrol of the pathogen has recently gained scientific attention. In this
study, we present a comprehensive characterization of the P. carotovorum phage
vB_PcaM_P7_Pc (abbreviated as P7_Pc) that was isolated from infected carrot samples
with characteristic soft rot symptoms, which were obtained from storage facilities at
market places in Gampaha District, Sri Lanka. P7_Pc is a myovirus, and it exhibits
growth characteristics of an exclusively lytic life cycle. It showed visible lysis against
four of the tested P. carotovorum strains and one Pectobacterium aroidearum strain.
This phage also showed a longer latent period (125 min) than other related phages;
however, this did not affect its high phage titter (.1010 PFU/mL). The final assembled
genome of P7_Pc is 147,299 bp in length with a G1C content of 50.34%. Of the 298
predicted open reading frames (ORFs) of the genome of P7_Pc, putative functions
were assigned to 53 ORFs. Seven tRNA-coding genes were predicted in the genome,
while the genome lacked any major genes coding for lysogeny-related products, con-
firming its virulent nature. The P7_Pc genome shares 96.12% and 95.74% average nu-
cleotide identities with Cronobacter phages CR8 and PBES02, respectively. Phylogenetic
and phylogenomic analyses of the genome revealed that P7_Pc clusters well within the
clade with the members representing the genus Certrevirus. Currently, there are only 4
characterized Pectobacterium phages (P. atrosepticum phages phiTE and CB7 and
Pectobacterium phages DU_PP_I and DU_PP_IV) that are classified under the genus,
making the phage P7_Pc the first reported member of the genus isolated using the
host bacterium P. carotovorum. The results of this study provide a detailed characteriza-
tion of the phage P7_Pc, enabling its careful classification into the genus Certrevirus.
The knowledge gathered on the phage based on the shared biology of the genus will
further aid in the future selection of phage P7_Pc as a biocontrol agent.