The Hypersensitive Response to Plant Viruses

Piau, Maïlys; Schmitt-Keichinger, Corinne

doi:10.3390/v15102000

Viruses

2023

DOI: 10.3390/v15102000

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The Hypersensitive Response to Plant Viruses

Maïlys Piau,

Corinne Schmitt-Keichinger

Abstract: Plant proteins with domains rich in leucine repeats play important roles in detecting pathogens and triggering defense reactions, both at the cellular surface for pattern-triggered immunity and in the cell to ensure effector-triggered immunity. As intracellular parasites, viruses are mostly detected intracellularly by proteins with a nucleotide binding site and leucine-rich repeats but receptor-like kinases with leucine-rich repeats, known to localize at the cell surface, have also been involved in response to… Show more

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2024

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Cited by 5 publications

References 214 publications

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The role of reactive oxygen species in plant-virus interactions

Xu,

Zhang,

Zhang

et al. 2024

Plant Cell Rep

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The role of reactive oxygen species in plant-virus interactions

Xu,

Zhang,

Zhang

et al. 2024

Plant Cell Rep

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Zucchini yellow mosaic virus-induced hypersensitive response is associated with pathogenesis-related 1 protein expression and confers resistance in watermelon

Hao,

Liu,

Liu

et al. 2024

Plant Cell Rep

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A single viral amino acid shapes the root system architecture of a plant host upon virus infection

Roy,

Fuchs

2024

BMC Microbiol

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Background Grapevine fanleaf virus (GFLV) is one of the most detrimental viral pathogens of grapevines worldwide but no information is available on its effect on the root system architecture (RSA) of plant hosts. We used two wildtype GFLV strains and their single amino acid mutants to assess RSA traits in infected Nicotiana benthamiana and evaluate transcriptomic changes in host root gene expression in replicated time course 3’RNA-Seq experiments. Mutations targeted the multi-functional GFLV-encoded protein 1EPol*/Sd, a putative RNA-dependent RNA polymerase and determinant of foliar symptoms in N. benthamiana plants. Results Plant infection with wildtype GFLV strain GHu and mutant GFLV strain F13 1EPolG802K, both carrying a lysine in position 802 of protein 1EPol*/Sd, resulted in a significantly lower number of root tips (-30%), and a significantly increased average root diameter (+ 20%) at 17 days post inoculation (dpi) in comparison with roots of mock inoculated plants. In contrast, the RSA of plants infected with wildtype GFLV strain F13 and mutant GFLV strain GHu 1EPolK802G, both carrying a glycine in position 802 of protein 1EPol*/Sd, resembled that of mock inoculated plants. Modifications of RSA traits were not associated with GFLV titer. Root tissue transcriptome analysis at 17 dpi indicated dysregulation of pattern recognition receptors, plant hormones, RNA silencing, and genes related to the production of reactive oxygen species (ROS). For wildtype GFLV strain GHu, RSA modifications were correlated with an abundant accumulation of ROS in the pericycle of primary roots at 7 dpi and the duration of vein clearing symptom expression in apical leaves. Dysegulation of a hypersensitive response was an overarching gene ontology found through enrichment analyses of 3’RNA-Seq data. Conclusions Our findings revealed the causative role of lysine in position 802 of protein 1EPol*/Sd in a novel RSA phenotype during viral infection and documented GFLV-N. benthamiana interactions at the root level based on (i) antiviral response, (ii) receptor mediated production of ROS, and (iii) hormone regulation. A correlation between above and below ground symptoms was reported for the first time in plants infected with wildtype GFLV strain GHu. Further work is warranted to test whether the modified RSA of a plant host might impact GFLV acquisition and transmission by the ectoparasitic dagger nematode Xiphinema index.

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The Hypersensitive Response to Plant Viruses

Cited by 5 publications

References 214 publications

The role of reactive oxygen species in plant-virus interactions

The role of reactive oxygen species in plant-virus interactions

Zucchini yellow mosaic virus-induced hypersensitive response is associated with pathogenesis-related 1 protein expression and confers resistance in watermelon

A single viral amino acid shapes the root system architecture of a plant host upon virus infection

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