Comparative transcriptomics identifies the key in planta-expressed genes of Fusarium graminearum during infection of wheat varieties

Tu, Qiang; Wang, Lirong; An, Qi; Shuai, Jie; Xia, Xiaobo; Dong, Yifan; Zhang, Xu; Li, Gang; He, Yi

doi:10.3389/fgene.2023.1166832

Front. Genet.

2023

DOI: 10.3389/fgene.2023.1166832

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Comparative transcriptomics identifies the key in planta-expressed genes of Fusarium graminearum during infection of wheat varieties

Qiang Tu

Lirong Wang

Qi An

et al.

Abstract: Fusarium head blight (FHB), caused mainly by the fungus Fusarium graminearum, is one of the most devastating diseases in wheat, which reduces the yield and quality of grain. Fusarium graminearum infection of wheat cells triggers dynamic changes of gene expression in both F. graminearum and wheat, leading to molecular interactions between pathogen and host. The wheat plant in turn activates immune signaling or host defense pathways against FHB. However, the mechanisms by which F. graminearum infects wheat varie… Show more

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Cited by 4 publications

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Metabolomics and dual proteomics identify contrasting patterns of major pathways affected in asparagus shoot upon Fusarium infection

Witzel,

Djalali Farahani-Kofoet,

Döll

et al. 2024

Plant Soil

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Aims Infections with soil-borne pathogens have considerable detrimental effects on asparagus (Asparagus officinalis) growth and production, notably caused by the Fusarium species F. oxysporum f.sp. asparagi, F. proliferatum, and F. redolens. To get insight into the systemic effects of fungal infection on plant physiology to identify candidate resistance traits, we investigated this interaction using a multi omics approach. Methods Asparagus plants were inoculated with one of the three Fusarium species. After 8 weeks, basal stem parts were harvested and subjected to metabolome and proteome analysis as well as detection of fungal DNA. Results Upon infection, the pathogen spreads systemically from the root to the shoot and, consequently, fungal DNA and mycotoxins were detected in the basal part of the plant stem. Metabolite data revealed that the main pathway affected by Fusarium infections was “Fatty acids”, specifically the superclasses “Glycerophospholipids”, “Glycerolipids” and “Sphingolipids” being lower abundant upon infection. Another main pathway identified in the analysis was “Shikimates and Phenylpropanoids” with compounds assigned to these classes being mainly enriched upon infection. Proteome data revealed an induction of pathogen-defense proteins upon infection in asparagus, while proteins involved in vesicle trafficking and lipid metabolism were lower abundant. Conclusions This indicates that not only lipid-based signaling processes are distorted by Fusarium, but also fundamental processes such as vesicle formation, membrane integrity and cell wall organization. In planta proteome analysis of F. oxysporum led to the identification of 1,488 fungal proteins, including proteins involved in metabolic and cellular processes as well as putative virulence factors.

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Metabolomics and dual proteomics identify contrasting patterns of major pathways affected in asparagus shoot upon Fusarium infection

Witzel,

Djalali Farahani-Kofoet,

Döll

et al. 2024

Plant Soil

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show abstract

Physiological and morphological traits associated with Fusarium head blight response in a flavonoid-rich durum wheat genotype

Felici,

Francesconi,

Sestili

et al. 2024

J Plant Pathol

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Update on the state of research to manage Fusarium head blight

Moonjely,

Ebert,

Paton-Glassbrook

et al. 2023

Fungal Genetics and Biology

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Comparative transcriptomics identifies the key in planta-expressed genes of Fusarium graminearum during infection of wheat varieties

Cited by 4 publications

References 58 publications

Metabolomics and dual proteomics identify contrasting patterns of major pathways affected in asparagus shoot upon Fusarium infection

Metabolomics and dual proteomics identify contrasting patterns of major pathways affected in asparagus shoot upon Fusarium infection

Physiological and morphological traits associated with Fusarium head blight response in a flavonoid-rich durum wheat genotype

Update on the state of research to manage Fusarium head blight

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