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Toffolatti, Silvia Laura; De Lorenzis, Gabriella; Brilli, Matteo; Moser, Mirko; Shariati, Vahid; Tavakol, Elahe; Maddalena, Giuliana; Passera, Alessandro; Casati, Paola; Pindo, Massimo; Cestaro, Alessandro; Maghradze, David; Failla, Osvaldo; Bianco, Piero Attilio; Quaglino, Fabio

Novel Aspects on The Interaction Between Grapevine and Plasmopara viticola: Dual-RNA-Seq Analysis Highlights Gene Expression Dynamics in The Pathogen and The Plant During The Battle For Infection

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  • Media type: E-Article
  • Title: Novel Aspects on The Interaction Between Grapevine and Plasmopara viticola: Dual-RNA-Seq Analysis Highlights Gene Expression Dynamics in The Pathogen and The Plant During The Battle For Infection
  • Contributor: Toffolatti, Silvia Laura; De Lorenzis, Gabriella; Brilli, Matteo; Moser, Mirko; Shariati, Vahid; Tavakol, Elahe; Maddalena, Giuliana; Passera, Alessandro; Casati, Paola; Pindo, Massimo; Cestaro, Alessandro; Maghradze, David; Failla, Osvaldo; Bianco, Piero Attilio; Quaglino, Fabio
  • imprint: MDPI AG, 2020
  • Published in: Genes
  • Language: English
  • DOI: 10.3390/genes11030261
  • ISSN: 2073-4425
  • Origination:
  • Footnote:
  • Description: <jats:p>Mgaloblishvili, a Vitis vinifera cultivar, exhibits unique resistance traits against Plasmopara viticola, the downy mildew agent. This offers the unique opportunity of exploring the molecular responses in compatible and incompatible plant-pathogen interaction. In this study, whole transcriptomes of Mgaloblishvili, Pinot noir (a V. vinifera susceptible cultivar), and Bianca (a resistant hybrid) leaves, inoculated and non-inoculated with the pathogen, were used to identify P. viticola effector-encoding genes and plant susceptibility/resistance genes. Multiple effector-encoding genes were identified in P. viticola transcriptome, with remarkable expression differences in relation to the inoculated grapevine cultivar. Intriguingly, five apoplastic effectors specifically associated with resistance in V. vinifera. Gene coexpression network analysis identified specific modules and metabolic changes occurring during infection in the three grapevine cultivars. Analysis of these data allowed, for the first time, the detection in V. vinifera of a putative P. viticola susceptibility gene, encoding a LOB domain-containing protein. Finally, the de novo assembly of Mgaloblishvili, Pinot noir, and Bianca transcriptomes and their comparison highlighted novel candidate genes that might be at the basis of the resistant phenotype. These results open the way to functional analysis studies and to new perspectives in molecular breeding of grapevine for resistance to P. viticola.</jats:p>
  • Access State: Open Access