Genome analysis of Phytophthora cactorum strains associated with crown- and leather-rot in strawberry

Genome analysis of Phytophthora cactorum strains associated with crown- and leather-rot in strawberry

has two distinct pathotypes that cause crown rot and leather rot in strawberry ( × ). Strains of the crown rot pathotype can infect both the rhizome (crown) and fruit tissues, while strains of the leather rot pathotype can only infect the fruits of strawberry. The genome of a highly virulent crown r...

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Bibliographic Details
Published in:Frontiers in microbiology Vol. 14; p. 1214924
Main Authors: Gogoi, Anupam, Rossmann, Simeon L, Lysøe, Erik, Stensvand, Arne, Brurberg, May Bente
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 03-07-2023
Subjects:
Crinklers
effectors
elicitors
Microbiology
oomycete
PacBio sequel II sequencing
RxLRs
oomycete
Crinklers
effectors
RxLRs
PacBio sequel II sequencing
elicitors
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Summary:has two distinct pathotypes that cause crown rot and leather rot in strawberry ( × ). Strains of the crown rot pathotype can infect both the rhizome (crown) and fruit tissues, while strains of the leather rot pathotype can only infect the fruits of strawberry. The genome of a highly virulent crown rot strain, a low virulent crown rot strain, and three leather rot strains were sequenced using PacBio high fidelity (HiFi) long read sequencing. The reads were assembled to 66.4-67.6 megabases genomes in 178-204 contigs, with N50 values ranging from 892 to 1,036 kilobases. The total number of predicted complete genes in the five genomes ranged from 17,286 to 17,398. Orthology analysis identified a core secretome of 8,238 genes. Comparative genomic analysis revealed differences in the composition of potential virulence effectors, such as putative RxLR and Crinklers, between the crown rot and the leather rot pathotypes. Insertions, deletions, and amino acid substitutions were detected in genes encoding putative elicitors such as beta elicitin and cellulose-binding domain proteins from the leather rot strains compared to the highly virulent crown rot strain, suggesting a potential mechanism for the crown rot strain to escape host recognition during compatible interaction with strawberry. The results presented here highlight several effectors that may facilitate the tissue-specific colonization of in strawberry.
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Edited by: Guillaume J. Bilodeau, Canadian Food Inspection Agency (CFIA), Canada
Reviewed by: Ahmed H. El-Sappah, Zagazig University, Egypt; Malkhan Singh Gurjar, Indian Agricultural Research Institute (ICAR), India
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2023.1214924