Identification of Fungicide Combinations Targeting Plasmopara viticola and Botrytis cinerea Fungicide Resistance Using Machine Learning [PDF]
Microorganisms, 2023 Downy mildew (caused by Plasmopara viticola) and gray mold (caused by Botrytis cinerea) are fungal diseases that significantly impact grape production globally. Cytochrome b plays a significant role in the mitochondrial respiratory chain of the two fungi
Junrui Zhang, Sandun D. Fernando
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Isolation of Plasmopara viticola from Grapevine Leaves [PDF]
Proceedings, 2019 In order to test some biofungicides, the isolation of Plasmopara viticola was carried out.Plasmopara viticola is a fungus that causes the grapevine downy mildew disease [...]
Camelia Ungureanu +5 more
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Unveiling the early defense response dynamics in grapevines against Plasmopara viticola by single-cell transcriptomics [PDF]
Genome BiologyBackground The viticulture has long suffered from the downy mildew caused by Plasmopara viticola, a strictly obligate biotrophic oomycete. Numerous studies have been performed to reveal how grapevine defends against Plasmopara viticola, but they mainly ...
Xiukun Yao +6 more
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An in-planta comparative study of Plasmopara viticola proteome reveals different infection strategies towards susceptible and Rpv3-mediated resistance hosts [PDF]
Scientific Reports, 2022 Plasmopara viticola, an obligate biotrophic oomycete, is the causal agent of one of the most harmful grapevine diseases, downy mildew. Within this pathosystem, much information is gathered on the host, as characterization of pathogenicity and infection ...
Joana Figueiredo +6 more
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Sequence and Gene Expression Analysis of Recently Identified NLP from Plasmopara viticola [PDF]
Microorganisms, 2021 Grapevine downy mildew, evoked by the obligate biotrophic oomycete Plasmopara viticola, is one of the most challenging diseases in viticulture. P. viticola establishes an infection by circumvention of plant immunity, which is achieved by the secretion of
Lars Askani +2 more
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The pathogenicity of Plasmopara viticola: a review of evolutionary dynamics, infection strategies and effector molecules [PDF]
BMC Plant BiologyOomycetes are filamentous organisms that resemble fungi in terms of morphology and life cycle, primarily due to convergent evolution. The success of pathogenic oomycetes lies in their ability to adapt and overcome host resistance, occasionally ...
Catarina Gouveia +5 more
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Grapevine leaf MALDI-MS imaging reveals the localisation of a putatively identified sucrose metabolite associated to Plasmopara viticola development [PDF]
Frontiers in Plant Science, 2022 Despite well-established pathways and metabolites involved in grapevine-Plasmopara viticola interaction, information on the molecules involved in the first moments of pathogen contact with the leaf surface and their specific location is still missing. To
Marisa Maia +14 more
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The role of selection pressure in shaping zoxamide resistance in Plasmopara viticola populations. [PDF]
Pest Manag SciZoxamide resistance management in Plasmopara viticola: controlling selection pressure through optimal fungicide application frequency to reduce the spread of resistant strains possessing different point mutations associated with resistance. Abstract BACKGROUND Zoxamide, a β‐tubulin inhibitor, is widely used in vineyards to control downy mildew caused ...
Peracchi M +4 more
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Croatian Native Grapevine Varieties' VOCs Responses upon Plasmopara viticola Inoculation. [PDF]
Plants (Basel), 2023 The Plasmopara viticola pathogen causes one of the most severe grapevine diseases, namely downy mildew. The response to P. viticola involves both visible symptoms and intricate metabolomic alterations, particularly in relation to volatile organic compounds, and depends on the degree of resistance of a particular variety.
Štambuk P +5 more
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Phased grapevine genome sequence of an Rpv12 carrier for biotechnological exploration of resistance to Plasmopara viticola [PDF]
Frontiers in Plant Science, 2023 The downy mildew disease caused by the oomycete Plasmopara viticola is a serious threat for grapevine and can cause enormous yield losses in viticulture. The quantitative trait locus Rpv12, mediating resistance against P.
Bianca Frommer +8 more
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