Differential Responses of Three Grapevine Cultivars to Botryosphaeria Dieback

Botryosphaeria dieback is a fungal grapevine trunk disease that represents a threat for viticulture worldwide due to the decreased production of affected plants and their premature death. This dieback is characterized by a typical wood discoloration called brown stripe. Herein, a proteome comparison of the brown striped wood from Botryosphaeria dieback-affected standing vines cultivars Chardonnay, Gewurztraminer, and Mourvèdre was performed. The transcript analysis for 15 targeted genes and the quantification of both total phenolics and specific stilbenes were also performed. Several pathogenesis-related proteins and members of the antioxidant system were more abundant in the brown striped wood of the three cultivars, whereas other defense-related proteins were less abundant. Additionally, total phenolics and some specific stilbenes were more accumulated in the brown striped wood. Strongest differences among the cultivars concerned proteins of the primary metabolism, which looked to be particularly impaired in the brown striped wood of ‘Chardonnay’. Low abundance of some proteins involved in defense response probably contributes to make global response insufficient to avoid the symptom development. The differential susceptibility of the three grapevine cultivars could be linked to the diverse expression of various proteins involved in defense response, stress tolerance, and metabolism.

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A Faster and a Stronger Defense Response: One of the Key Elements in Grapevine Explaining Its Lower Level of Susceptibility to Esca?

Phytopathology ◽

10.1094/phyto-11-12-0305-r ◽

2013 ◽

Vol 103 (10) ◽

pp. 1028-1034 ◽

Cited By ~ 17

Author(s):

Carole Lambert ◽

Ian Li Kim Khiook ◽

Sylvia Lucas ◽

Nadège Télef-Micouleau ◽

Jean-Michel Mérillon ◽

...

Keyword(s):

Defense Response ◽

Defense Mechanisms ◽

Defense Responses ◽

Cabernet Sauvignon ◽

Susceptible Cultivar ◽

Pathogenesis Related ◽

Leaf Level ◽

Plant Pathogen Interaction ◽

Related Proteins ◽

Stilbene Compounds

Wood diseases like Esca are among the most damaging afflictions in grapevine. The defense mechanisms in this plant–pathogen interaction are not well understood. As some grapevine cultivars have been observed to be less susceptible to Esca than others, understanding the factors involved in this potentially stronger defense response can be of great interest. To lift part of this veil, we elicited Vitis vinifera plants of two cultivars less susceptible to Esca (‘Merlot’ and ‘Carignan’) and of one susceptible cultivar (‘Cabernet Sauvignon’), and monitored their defense responses at the leaf level. Our model of elicitation consisted in grapevine cuttings absorbing a culture filtrate of one causal agent of Esca, Phaemoniella chlamydospora. This model might reflect the early events occurring in Esca-affected grapevines. The two least susceptible cultivars showed an earlier and stronger defense response than the susceptible one, particularly with regard to induction of the PAL and STS genes, and a higher accumulation of stilbene compounds and some pathogenesis-related proteins.

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Transcriptomic Analysis of Genes Involved in Plant Defense Response to the Cucumber Green Mottle Mosaic Virus Infection

Life ◽

10.3390/life11101064 ◽

2021 ◽

Vol 11 (10) ◽

pp. 1064

Author(s):

Anna Slavokhotova ◽

Tatyana Korostyleva ◽

Andrey Shelenkov ◽

Vitalii Pukhalskiy ◽

Irina Korottseva ◽

...

Keyword(s):

Transcription Factors ◽

Signaling Pathways ◽

Mosaic Virus ◽

Defense Response ◽

Cucumis Sativus L ◽

Pathogenesis Related Proteins ◽

Pathogenesis Related ◽

Genes Encoding ◽

Acid Pathway ◽

Related Proteins

Plants have evolved a complex multilayered defense system to counteract various invading pathogens during their life cycle. In addition to silencing, considered to be a major molecular defense response against viruses, different signaling pathways activated by phytohormones trigger the expression of secondary metabolites and proteins preventing virus entry and propagation. In this study, we explored the response of cucumber plants to one of the global pathogens, cucumber green mottle mosaic virus (CGMMV), which causes severe symptoms on leaves and fruits. The inbred line of Cucumis sativus L., which is highly susceptible to CGMMV, was chosen for inoculation. Transcriptomes of infected plants at the early and late stages of infection were analyzed in comparison with the corresponding transcriptomes of healthy plants using RNA-seq. The changes in the signaling pathways of ethylene and salicylic and jasmonic acids, as well as the differences in silencing response and expression of pathogenesis-related proteins and transcription factors, were revealed. The results show that silencing was strongly suppressed in infected plants, while the salicylic acid and ethylene signaling pathways were induced. The genes encoding pathogenesis-related proteins and the genes involved in the jasmonic acid pathway changed their expression insignificantly. It was also found that WRKY and NAC were the most sensitive to CGMMV infection among the transcription factors detected.

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Pathogenesis Related Proteins in Plant Defense Response

Plant Defence: Biological Control ◽

10.1007/978-94-007-1933-0_17 ◽

2011 ◽

pp. 379-403 ◽

Cited By ~ 23

Author(s):

J. Sudisha ◽

R. G. Sharathchandra ◽

K. N. Amruthesh ◽

Arun Kumar ◽

H. Shekar Shetty

Keyword(s):

Plant Defense ◽

Defense Response ◽

Plant Defense Response ◽

Pathogenesis Related Proteins ◽

Pathogenesis Related ◽

Related Proteins

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Cultivar- and Wood Area-Dependent Metabolomic Fingerprints of Grapevine Infected by Botryosphaeria Dieback

Phytopathology ◽

10.1094/phyto-02-20-0055-r ◽

2020 ◽

Vol 110 (11) ◽

pp. 1821-1837

Author(s):

Christelle Lemaitre-Guillier ◽

Florence Fontaine ◽

Chloé Roullier-Gall ◽

Mourad Harir ◽

Maryline Magnin-Robert ◽

...

Keyword(s):

Specific Pattern ◽

Economic Losses ◽

Grapevine Trunk Diseases ◽

Brown Stripe ◽

Chemical Discrimination ◽

Botryosphaeria Dieback ◽

Specific Proteins ◽

Lipid Compounds ◽

Related Proteins ◽

Botryosphaeriaceae Species

Botryosphaeria dieback is one of the most significant grapevine trunk diseases that affects the sustainability of the vineyards and provokes economic losses. The causal agents, Botryosphaeriaceae species, live in and colonize the wood of the perennial organs causing wood necrosis. Diseased vines show foliar symptoms, chlorosis, or apoplexy, associated to a characteristic brown stripe under the bark. According to the susceptibility of the cultivars, specific proteins such as PR-proteins and other defense-related proteins are accumulated in the brown stripe compared with the healthy woody tissues. In this study, we enhanced the characterization of the brown stripe and the healthy wood by obtaining a metabolite profiling for the three cultivars Chardonnay, Gewurztraminer, and Mourvèdre to deeper understand the interaction between the Botryosphaeria dieback pathogens and grapevine. The study confirmed a specific pattern according to the cultivar and revealed significant differences between the brown stripe and the healthy wood, especially for phytochemical and lipid compounds. This is the first time that such chemical discrimination was made and that lipids were so remarkably highlighted in the interaction of Botryosphaeriaceae species and grapevine. Their role in the disease development is discussed.

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Mildew Resistance Locus O Genes CsMLO1 and CsMLO2 Are Negative Modulators of the Cucumis sativus Defense Response to Corynespora cassiicola

International Journal of Molecular Sciences ◽

10.3390/ijms20194793 ◽

2019 ◽

Vol 20 (19) ◽

pp. 4793 ◽

Cited By ~ 1

Author(s):

Guangchao Yu ◽

Qiumin Chen ◽

Xiangyu Wang ◽

Xiangnan Meng ◽

Yang Yu ◽

...

Keyword(s):

Cucumis Sativus ◽

Defense Response ◽

Leaf Spot ◽

Resistance Locus ◽

Corynespora Cassiicola ◽

Membrane Expression ◽

Mildew Resistance ◽

Pathogenesis Related Proteins ◽

Pathogenesis Related ◽

Related Proteins

Corynespora leaf spot caused by Corynespora cassiicola is one of the major diseases in cucumber (Cucumis sativus L.). However, the resistance mechanisms and signals of cucumber to C. cassiicola are unclear. Here, we report that the mildew resistance locus O (MLO) genes, CsMLO1 and CsMLO2, are both negative modulators of the cucumber defense response to C. cassiicola. Subcellular localization analysis showed that CsMLO1 and CsMLO2 are localized in the plasma membrane. Expression analysis indicated that the transcript levels of CsMLO1 and CsMLO2 are linked to the defense response to C. cassiicola. Transient overexpression of either CsMLO1 or CsMLO2 in cucumber cotyledons reduced resistance to C. cassiicola, whereas silencing of either CsMLO1 or CsMLO2 enhanced resistance to C. cassiicola. The relationships of pathogenesis-related proteins, reactive oxygen species (ROS)-associated genes, and abscisic acid (ABA)-related genes to the overexpression and silencing of CsMLO1/CsMLO2 in non-infested cucumber plants were investigated. The results indicated that CsMLO1 mediated resistance against C. cassiicola by regulating the expression of pathogenesis-related proteins and ROS-associated genes, as well as through ABA signaling pathway-associated genes. The CsMLO2-mediated resistance against C. cassiicola primarily involves regulation of the expression of pathogenesis-related proteins. Our findings will guide strategies to enhance the resistance of cucumber to corynespora leaf spot.

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