Unravelling early events in the Taphrina deformans–Prunus persica interaction: an insight into the differential responses in resistant and susceptible genotypes

Leaf peach curl is a devastating disease affecting leaves, flowers and fruits, caused by the dimorphic fungus Taphrina deformans. To gain insight into the mechanisms of fungus pathogenesis and plant responses, leaves of a resistant and two susceptible Prunus persica genotypes were inoculated with bl...

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Veröffentlicht in:	Plant, cell and environment cell and environment, 2017-08, Vol.40 (8), p.1456-1473
Hauptverfasser:	Svetaz, Laura A., Bustamante, Claudia A., Goldy, Camila, Rivero, Nery, Müller, Gabriela L., Valentini, Gabriel H., Fernie, Alisdair R., Drincovich, María F., Lara, María V.
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Schlagworte:	Apoptosis Ascomycota - physiology biotrophic Cell death defensin Deformation mechanisms Deformation resistance Dimorphism Disease Resistance - genetics Disease Susceptibility flavonoids Flowers Fungi Gene Expression Regulation, Plant Genotype Genotype & phenotype Genotypes Host-Pathogen Interactions Infections Inoculation leaf curl disease Leaves Metabolome Metabolomics Models, Biological Pathogenesis peach tree Phenols Pigments, Biological - metabolism Plant Diseases - microbiology Plant hormones Plant Leaves - metabolism Plant Leaves - microbiology Plant tissues Principal Component Analysis Proteins Prunus persica Prunus persica - genetics Prunus persica - immunology Prunus persica - microbiology Reactive oxygen species RNA, Messenger - genetics RNA, Messenger - metabolism Salicylic acid Synthesis Taphrina deformans Transcription Yeast Yeasts
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creator	Svetaz, Laura A. Bustamante, Claudia A. Goldy, Camila Rivero, Nery Müller, Gabriela L. Valentini, Gabriel H. Fernie, Alisdair R. Drincovich, María F. Lara, María V.
description	Leaf peach curl is a devastating disease affecting leaves, flowers and fruits, caused by the dimorphic fungus Taphrina deformans. To gain insight into the mechanisms of fungus pathogenesis and plant responses, leaves of a resistant and two susceptible Prunus persica genotypes were inoculated with blastospores (yeast), and the infection was monitored during 120 h post inoculation (h.p.i.). Fungal dimorphism to the filamentous form and induction of reactive oxygen species (ROS), callose synthesis, cell death and defence compound production were observed independently of the genotype. Fungal load significantly decreased after 120 h.p.i. in the resistant genotype, while the pathogen tended to grow in the susceptible genotypes. Metabolic profiling revealed a biphasic re‐programming of plant tissue in susceptible genotypes, with an initial stage co‐incident with the yeast form of the fungus and a second when the hypha is developed. Transcriptional analysis of PRs and plant hormone‐related genes indicated that pathogenesis‐related (PR) proteins are involved in P. persica defence responses against T. deformans and that salicylic acid is induced in the resistant genotype. Conducted experiments allowed the elucidation of common and differential responses in susceptible versus resistant genotypes and thus allow us to construct a picture of early events during T. deformans infection. Taphrina deformans is the causal leaf peach curl disease. For the first time, fungal dimorphism from the yeast to the filamentous phase was achieved in inoculated P. persica leaves. Induction of ROS, callose synthesis, cell death and defence compound production was observed in susceptible and resistant genotypes. Resistance against biotrophic T. deformans is associated with the activation of the salicylic‐acid‐dependent pathway, induction of phenolics and up‐regulation of defensin. A picture of early events during T. deformans infection is presented.
doi_str_mv	10.1111/pce.12942
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To gain insight into the mechanisms of fungus pathogenesis and plant responses, leaves of a resistant and two susceptible Prunus persica genotypes were inoculated with blastospores (yeast), and the infection was monitored during 120 h post inoculation (h.p.i.). Fungal dimorphism to the filamentous form and induction of reactive oxygen species (ROS), callose synthesis, cell death and defence compound production were observed independently of the genotype. Fungal load significantly decreased after 120 h.p.i. in the resistant genotype, while the pathogen tended to grow in the susceptible genotypes. Metabolic profiling revealed a biphasic re‐programming of plant tissue in susceptible genotypes, with an initial stage co‐incident with the yeast form of the fungus and a second when the hypha is developed. Transcriptional analysis of PRs and plant hormone‐related genes indicated that pathogenesis‐related (PR) proteins are involved in P. persica defence responses against T. deformans and that salicylic acid is induced in the resistant genotype. Conducted experiments allowed the elucidation of common and differential responses in susceptible versus resistant genotypes and thus allow us to construct a picture of early events during T. deformans infection. Taphrina deformans is the causal leaf peach curl disease. For the first time, fungal dimorphism from the yeast to the filamentous phase was achieved in inoculated P. persica leaves. Induction of ROS, callose synthesis, cell death and defence compound production was observed in susceptible and resistant genotypes. Resistance against biotrophic T. deformans is associated with the activation of the salicylic‐acid‐dependent pathway, induction of phenolics and up‐regulation of defensin. 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To gain insight into the mechanisms of fungus pathogenesis and plant responses, leaves of a resistant and two susceptible Prunus persica genotypes were inoculated with blastospores (yeast), and the infection was monitored during 120 h post inoculation (h.p.i.). Fungal dimorphism to the filamentous form and induction of reactive oxygen species (ROS), callose synthesis, cell death and defence compound production were observed independently of the genotype. Fungal load significantly decreased after 120 h.p.i. in the resistant genotype, while the pathogen tended to grow in the susceptible genotypes. Metabolic profiling revealed a biphasic re‐programming of plant tissue in susceptible genotypes, with an initial stage co‐incident with the yeast form of the fungus and a second when the hypha is developed. Transcriptional analysis of PRs and plant hormone‐related genes indicated that pathogenesis‐related (PR) proteins are involved in P. persica defence responses against T. deformans and that salicylic acid is induced in the resistant genotype. Conducted experiments allowed the elucidation of common and differential responses in susceptible versus resistant genotypes and thus allow us to construct a picture of early events during T. deformans infection. Taphrina deformans is the causal leaf peach curl disease. For the first time, fungal dimorphism from the yeast to the filamentous phase was achieved in inoculated P. persica leaves. Induction of ROS, callose synthesis, cell death and defence compound production was observed in susceptible and resistant genotypes. Resistance against biotrophic T. deformans is associated with the activation of the salicylic‐acid‐dependent pathway, induction of phenolics and up‐regulation of defensin. A picture of early events during T. deformans infection is presented.</description><subject>Apoptosis</subject><subject>Ascomycota - physiology</subject><subject>biotrophic</subject><subject>Cell death</subject><subject>defensin</subject><subject>Deformation mechanisms</subject><subject>Deformation resistance</subject><subject>Dimorphism</subject><subject>Disease Resistance - genetics</subject><subject>Disease Susceptibility</subject><subject>flavonoids</subject><subject>Flowers</subject><subject>Fungi</subject><subject>Gene Expression Regulation, Plant</subject><subject>Genotype</subject><subject>Genotype & phenotype</subject><subject>Genotypes</subject><subject>Host-Pathogen Interactions</subject><subject>Infections</subject><subject>Inoculation</subject><subject>leaf curl disease</subject><subject>Leaves</subject><subject>Metabolome</subject><subject>Metabolomics</subject><subject>Models, Biological</subject><subject>Pathogenesis</subject><subject>peach tree</subject><subject>Phenols</subject><subject>Pigments, Biological - metabolism</subject><subject>Plant Diseases - microbiology</subject><subject>Plant hormones</subject><subject>Plant Leaves - metabolism</subject><subject>Plant Leaves - microbiology</subject><subject>Plant tissues</subject><subject>Principal Component Analysis</subject><subject>Proteins</subject><subject>Prunus persica</subject><subject>Prunus persica - genetics</subject><subject>Prunus persica - immunology</subject><subject>Prunus persica - microbiology</subject><subject>Reactive oxygen species</subject><subject>RNA, Messenger - genetics</subject><subject>RNA, Messenger - metabolism</subject><subject>Salicylic acid</subject><subject>Synthesis</subject><subject>Taphrina deformans</subject><subject>Transcription</subject><subject>Yeast</subject><subject>Yeasts</subject><issn>0140-7791</issn><issn>1365-3040</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kUtuFDEQhi0EIkNgwQWQJTaw6MSPttvNDo3CQ4pEFsnacrurZxx57MZ2B82OO3ADjsZJcGYCCyRqY1Xpq88l_Qi9pOSM1jqfLZxR1rfsEVpRLkXDSUseoxWhLWm6rqcn6FnOt4TUQdc_RSdMsbYVfbtCP29CMnfgvQsbDCb5PYY7CCVjF3DZAr428za5YPAIU0w7E_Kv7z-u0hKWjGdI2VlT0QLJ2OJieIdNqH12m225n8eDZHTTBKlqnfE4QZ5jyHD4ojYuFxNK3RtxXrKFubjBA95AiGU_Q36OnkzGZ3jx8J6imw8X1-tPzeWXj5_X7y8by5ViDbVcTgMjneRssIoaEIoq23HRCcHpIJmScgI5DpZbKVtoezVKOgomuRB04qfozdE7p_h1gVz0ztVzvDcB4pI1VR1TqhN9V9HX_6C3cUmhXqdpz3olOKO0Um-PlE0x5wSTnpPbmbTXlOj74HQNTh-Cq-yrB-My7GD8S_5JqgLnR-Cb87D_v0lfrS-Oyt-UcaXb</recordid><startdate>201708</startdate><enddate>201708</enddate><creator>Svetaz, Laura A.</creator><creator>Bustamante, Claudia A.</creator><creator>Goldy, Camila</creator><creator>Rivero, Nery</creator><creator>Müller, Gabriela L.</creator><creator>Valentini, Gabriel H.</creator><creator>Fernie, Alisdair R.</creator><creator>Drincovich, María F.</creator><creator>Lara, María V.</creator><general>Wiley Subscription Services, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QP</scope><scope>7ST</scope><scope>C1K</scope><scope>SOI</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0003-4914-0242</orcidid></search><sort><creationdate>201708</creationdate><title>Unravelling early events in the Taphrina deformans–Prunus persica interaction: an insight into the differential responses in resistant and susceptible genotypes</title><author>Svetaz, Laura A. ; Bustamante, Claudia A. ; Goldy, Camila ; Rivero, Nery ; Müller, Gabriela L. ; Valentini, Gabriel H. ; Fernie, Alisdair R. ; Drincovich, María F. ; Lara, María V.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3882-1c36fb207632bc81ae5818c73575531b62866fe6dbc3c664e498d61d5263551f3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2017</creationdate><topic>Apoptosis</topic><topic>Ascomycota - physiology</topic><topic>biotrophic</topic><topic>Cell death</topic><topic>defensin</topic><topic>Deformation mechanisms</topic><topic>Deformation resistance</topic><topic>Dimorphism</topic><topic>Disease Resistance - genetics</topic><topic>Disease Susceptibility</topic><topic>flavonoids</topic><topic>Flowers</topic><topic>Fungi</topic><topic>Gene Expression Regulation, Plant</topic><topic>Genotype</topic><topic>Genotype & phenotype</topic><topic>Genotypes</topic><topic>Host-Pathogen Interactions</topic><topic>Infections</topic><topic>Inoculation</topic><topic>leaf curl disease</topic><topic>Leaves</topic><topic>Metabolome</topic><topic>Metabolomics</topic><topic>Models, Biological</topic><topic>Pathogenesis</topic><topic>peach tree</topic><topic>Phenols</topic><topic>Pigments, Biological - metabolism</topic><topic>Plant Diseases - microbiology</topic><topic>Plant hormones</topic><topic>Plant Leaves - metabolism</topic><topic>Plant Leaves - microbiology</topic><topic>Plant tissues</topic><topic>Principal Component Analysis</topic><topic>Proteins</topic><topic>Prunus persica</topic><topic>Prunus persica - genetics</topic><topic>Prunus persica - immunology</topic><topic>Prunus persica - microbiology</topic><topic>Reactive oxygen species</topic><topic>RNA, Messenger - genetics</topic><topic>RNA, Messenger - metabolism</topic><topic>Salicylic acid</topic><topic>Synthesis</topic><topic>Taphrina deformans</topic><topic>Transcription</topic><topic>Yeast</topic><topic>Yeasts</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Svetaz, Laura A.</creatorcontrib><creatorcontrib>Bustamante, Claudia A.</creatorcontrib><creatorcontrib>Goldy, Camila</creatorcontrib><creatorcontrib>Rivero, Nery</creatorcontrib><creatorcontrib>Müller, Gabriela L.</creatorcontrib><creatorcontrib>Valentini, Gabriel H.</creatorcontrib><creatorcontrib>Fernie, Alisdair R.</creatorcontrib><creatorcontrib>Drincovich, María F.</creatorcontrib><creatorcontrib>Lara, María V.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Calcium & Calcified Tissue Abstracts</collection><collection>Environment Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Environment Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>Plant, cell and environment</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Svetaz, Laura A.</au><au>Bustamante, Claudia A.</au><au>Goldy, Camila</au><au>Rivero, Nery</au><au>Müller, Gabriela L.</au><au>Valentini, Gabriel H.</au><au>Fernie, Alisdair R.</au><au>Drincovich, María F.</au><au>Lara, María V.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Unravelling early events in the Taphrina deformans–Prunus persica interaction: an insight into the differential responses in resistant and susceptible genotypes</atitle><jtitle>Plant, cell and environment</jtitle><addtitle>Plant Cell Environ</addtitle><date>2017-08</date><risdate>2017</risdate><volume>40</volume><issue>8</issue><spage>1456</spage><epage>1473</epage><pages>1456-1473</pages><issn>0140-7791</issn><eissn>1365-3040</eissn><abstract>Leaf peach curl is a devastating disease affecting leaves, flowers and fruits, caused by the dimorphic fungus Taphrina deformans. To gain insight into the mechanisms of fungus pathogenesis and plant responses, leaves of a resistant and two susceptible Prunus persica genotypes were inoculated with blastospores (yeast), and the infection was monitored during 120 h post inoculation (h.p.i.). Fungal dimorphism to the filamentous form and induction of reactive oxygen species (ROS), callose synthesis, cell death and defence compound production were observed independently of the genotype. Fungal load significantly decreased after 120 h.p.i. in the resistant genotype, while the pathogen tended to grow in the susceptible genotypes. Metabolic profiling revealed a biphasic re‐programming of plant tissue in susceptible genotypes, with an initial stage co‐incident with the yeast form of the fungus and a second when the hypha is developed. Transcriptional analysis of PRs and plant hormone‐related genes indicated that pathogenesis‐related (PR) proteins are involved in P. persica defence responses against T. deformans and that salicylic acid is induced in the resistant genotype. Conducted experiments allowed the elucidation of common and differential responses in susceptible versus resistant genotypes and thus allow us to construct a picture of early events during T. deformans infection. Taphrina deformans is the causal leaf peach curl disease. For the first time, fungal dimorphism from the yeast to the filamentous phase was achieved in inoculated P. persica leaves. Induction of ROS, callose synthesis, cell death and defence compound production was observed in susceptible and resistant genotypes. Resistance against biotrophic T. deformans is associated with the activation of the salicylic‐acid‐dependent pathway, induction of phenolics and up‐regulation of defensin. A picture of early events during T. deformans infection is presented.</abstract><cop>United States</cop><pub>Wiley Subscription Services, Inc</pub><pmid>28244594</pmid><doi>10.1111/pce.12942</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0003-4914-0242</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Apoptosis Ascomycota - physiology biotrophic Cell death defensin Deformation mechanisms Deformation resistance Dimorphism Disease Resistance - genetics Disease Susceptibility flavonoids Flowers Fungi Gene Expression Regulation, Plant Genotype Genotype & phenotype Genotypes Host-Pathogen Interactions Infections Inoculation leaf curl disease Leaves Metabolome Metabolomics Models, Biological Pathogenesis peach tree Phenols Pigments, Biological - metabolism Plant Diseases - microbiology Plant hormones Plant Leaves - metabolism Plant Leaves - microbiology Plant tissues Principal Component Analysis Proteins Prunus persica Prunus persica - genetics Prunus persica - immunology Prunus persica - microbiology Reactive oxygen species RNA, Messenger - genetics RNA, Messenger - metabolism Salicylic acid Synthesis Taphrina deformans Transcription Yeast Yeasts
title	Unravelling early events in the Taphrina deformans–Prunus persica interaction: an insight into the differential responses in resistant and susceptible genotypes
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