Plasmopara viticola infection affects mineral elements allocation and distribution in Vitis vinifera leaves

Plasmopara viticola is one of the most important pathogens infecting Vitis vinifera plants. The interactions among P. viticola and both susceptible and resistant grapevine plants have been extensively characterised, at transcriptomic, proteomic and metabolomic levels. However, the involvement of pla...

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Veröffentlicht in:	Scientific reports 2020-10, Vol.10 (1), p.18759, Article 18759
Hauptverfasser:	Cesco, Stefano, Tolotti, Anna, Nadalini, Stefano, Rizzi, Stefano, Valentinuzzi, Fabio, Mimmo, Tanja, Porfido, Carlo, Allegretta, Ignazio, Giovannini, Oscar, Perazzolli, Michele, Cipriani, Guido, Terzano, Roberto, Pertot, Ilaria, Pii, Youry
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Schlagworte:	631/449/1736 631/449/2661/2666 Cultivars Fertilization Gene Expression Regulation, Plant Humanities and Social Sciences Iron - metabolism Leaves Manganese Manganese - metabolism Metabolites Metabolomics Minerals - metabolism multidisciplinary Nutrients Oomycetes - pathogenicity Pathogens Plant Diseases - microbiology Plasmopara viticola Proteomics Proteomics - methods Reactive oxygen species Science Science (multidisciplinary) Secondary metabolites Vitis - metabolism Vitis - microbiology Vitis vinifera
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creator	Cesco, Stefano Tolotti, Anna Nadalini, Stefano Rizzi, Stefano Valentinuzzi, Fabio Mimmo, Tanja Porfido, Carlo Allegretta, Ignazio Giovannini, Oscar Perazzolli, Michele Cipriani, Guido Terzano, Roberto Pertot, Ilaria Pii, Youry
description	Plasmopara viticola is one of the most important pathogens infecting Vitis vinifera plants. The interactions among P. viticola and both susceptible and resistant grapevine plants have been extensively characterised, at transcriptomic, proteomic and metabolomic levels. However, the involvement of plants ionome in the response against the pathogen has been completely neglected so far. Therefore, this study was aimed at investigating the possible role of leaf ionomic modulation during compatible and incompatible interactions between P. viticola and grapevine plants. In susceptible cultivars, a dramatic redistribution of mineral elements has been observed, thus uncovering a possible role for mineral nutrients in the response against pathogens. On the contrary, the resistant cultivars did not present substantial rearrangement of mineral elements at leaf level, except for manganese (Mn) and iron (Fe). This might demonstrate that, resistant cultivars, albeit expressing the resistance gene, still exploit a pathogen response mechanism based on the local increase in the concentration of microelements, which are involved in the synthesis of secondary metabolites and reactive oxygen species. Moreover, these data also highlight the link between the mineral nutrition and plants’ response to pathogens, further stressing that appropriate fertilization strategies can be fundamental for the expression of response mechanisms against pathogens.
doi_str_mv	10.1038/s41598-020-75990-x
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This might demonstrate that, resistant cultivars, albeit expressing the resistance gene, still exploit a pathogen response mechanism based on the local increase in the concentration of microelements, which are involved in the synthesis of secondary metabolites and reactive oxygen species. 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The interactions among P. viticola and both susceptible and resistant grapevine plants have been extensively characterised, at transcriptomic, proteomic and metabolomic levels. However, the involvement of plants ionome in the response against the pathogen has been completely neglected so far. Therefore, this study was aimed at investigating the possible role of leaf ionomic modulation during compatible and incompatible interactions between P. viticola and grapevine plants. In susceptible cultivars, a dramatic redistribution of mineral elements has been observed, thus uncovering a possible role for mineral nutrients in the response against pathogens. On the contrary, the resistant cultivars did not present substantial rearrangement of mineral elements at leaf level, except for manganese (Mn) and iron (Fe). This might demonstrate that, resistant cultivars, albeit expressing the resistance gene, still exploit a pathogen response mechanism based on the local increase in the concentration of microelements, which are involved in the synthesis of secondary metabolites and reactive oxygen species. Moreover, these data also highlight the link between the mineral nutrition and plants’ response to pathogens, further stressing that appropriate fertilization strategies can be fundamental for the expression of response mechanisms against pathogens.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>33127977</pmid><doi>10.1038/s41598-020-75990-x</doi><oa>free_for_read</oa></addata></record>
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subjects	631/449/1736 631/449/2661/2666 Cultivars Fertilization Gene Expression Regulation, Plant Humanities and Social Sciences Iron - metabolism Leaves Manganese Manganese - metabolism Metabolites Metabolomics Minerals - metabolism multidisciplinary Nutrients Oomycetes - pathogenicity Pathogens Plant Diseases - microbiology Plasmopara viticola Proteomics Proteomics - methods Reactive oxygen species Science Science (multidisciplinary) Secondary metabolites Vitis - metabolism Vitis - microbiology Vitis vinifera
title	Plasmopara viticola infection affects mineral elements allocation and distribution in Vitis vinifera leaves
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