Combining whole genome and transcriptome sequencing to analyze the pathogenic mechanism of Diplodia sapinea blight in Pinus sylvestris var. mongolica Litv.

Combining whole genome and transcriptome sequencing to analyze the pathogenic mechanism of Diplodia sapinea blight in Pinus sylvestris var. mongolica Litv.

Diplodia sapinea (= Sphaeropsis sapinea) is an opportunistic pathogen that usually lives in symbiosis (the coexistence of dissimilar organisms) with its host and can cause disease under extreme climatic or physiological stress. In this study, we generated a high-quality genome map of D. sapinea usin...

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Bibliographic Details
Main Authors: Ruiqi Wang, Yuting Wang, Sina Fu, Shixian Liao, Tingbo Jiang, Boru Zhou
Format: Article
Language:English
Published: Taylor & Francis Group 2025-12-01
Series:Virulence
Subjects:
Diplodia sapinea
fungi
pathogenic
reactive oxygen species
genome sequencing
Online Access:https://www.tandfonline.com/doi/10.1080/21505594.2025.2490216
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Summary:Diplodia sapinea (= Sphaeropsis sapinea) is an opportunistic pathogen that usually lives in symbiosis (the coexistence of dissimilar organisms) with its host and can cause disease under extreme climatic or physiological stress. In this study, we generated a high-quality genome map of D. sapinea using PacBio Circular Consensus Sequencing (CCS) technology and analysed the key disease-causing genes of D. sapinea by RNA sequencing (RNA-seq). In the study, a number of cell wall degrading enzyme genes were identified to be up-regulated during pathogen infection, which may be involved in biotic stress response in P. sylvestris var. mongolica Litv. It was also found that the expression of antioxidant-related genes, such as those involved in carotenoid biosynthesis, ascorbate and glutathione metabolism, was up-regulated in the P. s. var. mongolica Litv. after fungus infection. Differently expressed genes (DEGs) -based protein-protein interaction (PPI) network was constructed that included 163 pairs of significantly positively correlated proteins, forming three highly interacting gene clusters, and the PPI network was predicted to be associated with the replication and propagation processes of the fungus. These results provide important information for understanding the pathogenic mechanisms of Diplodia tip blight and developing control strategies in P. s. var. mongolica Litv.
ISSN:2150-5594
2150-5608

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