Neofusicoccum parvum Colonization of the Grapevine Woody Stem Triggers Asynchronous Host Responses at the Site of Infection and in the Leaves

Grapevine trunk diseases cause important economic losses in vineyards worldwide. , one of the most aggressive causal agents of the trunk disease Botryosphaeria dieback, colonizes cells and tissues of the grapevine wood, leading to the formation of an internal canker. Symptoms then extend to distal s...

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Published inFrontiers in plant science Vol. 8; p. 1117
Main Authors Massonnet, Mélanie, Figueroa-Balderas, Rosa, Galarneau, Erin R A, Miki, Shiho, Lawrence, Daniel P, Sun, Qiang, Wallis, Christopher M, Baumgartner, Kendra, Cantu, Dario
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Media S.A 28.06.2017
Subjects
botryosphaeria dieback
local defense response
Plant Science
stilbenoids
systemic defense response
wood decay
botryosphaeria dieback
local defense response
stilbenoids
wood decay
systemic defense response
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Abstract Grapevine trunk diseases cause important economic losses in vineyards worldwide. , one of the most aggressive causal agents of the trunk disease Botryosphaeria dieback, colonizes cells and tissues of the grapevine wood, leading to the formation of an internal canker. Symptoms then extend to distal shoots, with wilting of leaves and bud mortality. Our aim was to characterize the transcriptional dynamics of grapevine genes in the woody stem and in the leaves during colonization. Genome-wide transcriptional profiling at seven distinct time points (0, 3, and 24 hours; 2, 6, 8, and 12 weeks) showed that both stems and leaves undergo extensive transcriptomic reprogramming in response to infection of the stem. While most intense transcriptional responses were detected in the stems at 24 hours, strong responses were not detected in the leaves until the next sampling point at 2 weeks post-inoculation. Network co-expression analysis identified modules of co-expressed genes common to both organs and showed most of these genes were asynchronously modulated. The temporal shift between stem vs. leaf responses affected transcriptional modulation of genes involved in both signal perception and transduction, as well as downstream biological processes, including oxidative stress, cell wall rearrangement and cell death. Promoter analysis of the genes asynchronously modulated in stem and leaves during colonization suggests that the temporal shift of transcriptional reprogramming between the two organs might be due to asynchronous co-regulation by common transcriptional regulators. Topology analysis of stem and leaf co-expression networks pointed to specific transcription factor-encoding genes, including WRKY and MYB, which may be associated with the observed transcriptional responses in the two organs.
AbstractList Grapevine trunk diseases cause important economic losses in vineyards worldwide. Neofusicoccum parvum, one of the most aggressive causal agents of the trunk disease Botryosphaeria dieback, colonizes cells and tissues of the grapevine wood, leading to the formation of an internal canker. Symptoms then extend to distal shoots, with wilting of leaves and bud mortality. Our aim was to characterize the transcriptional dynamics of grapevine genes in the woody stem and in the leaves during Neofusicoccum parvum colonization. Genome-wide transcriptional profiling at seven distinct time points (0, 3, and 24 hours; 2, 6, 8, and 12 weeks) showed that both stems and leaves undergo extensive transcriptomic reprogramming in response to infection of the stem. While most intense transcriptional responses were detected in the stems at 24 hours, strong responses were not detected in the leaves until the next sampling point at 2 weeks post-inoculation. Network co-expression analysis identified modules of co-expressed genes common to both organs and showed most of these genes were asynchronously modulated. The temporal shift between stem vs. leaf responses affected transcriptional modulation of genes involved in both signal perception and transduction, as well as downstream biological processes, including oxidative stress, cell wall rearrangement and cell death. Promoter analysis of the genes asynchronously modulated in stem and leaves during N. parvum colonization suggests that the temporal shift of transcriptional reprogramming between the two organs might be due to asynchronous co-regulation by common transcriptional regulators. Topology analysis of stem and leaf co-expression networks pointed to specific transcription factor-encoding genes, including WRKY and MYB, which may be associated with the observed transcriptional responses in the two organs.
Grapevine trunk diseases cause important economic losses in vineyards worldwide. Neofusicoccum parvum , one of the most aggressive causal agents of the trunk disease Botryosphaeria dieback, colonizes cells and tissues of the grapevine wood, leading to the formation of an internal canker. Symptoms then extend to distal shoots, with wilting of leaves and bud mortality. Our aim was to characterize the transcriptional dynamics of grapevine genes in the woody stem and in the leaves during Neofusicoccum parvum colonization. Genome-wide transcriptional profiling at seven distinct time points (0, 3, and 24 hours; 2, 6, 8, and 12 weeks) showed that both stems and leaves undergo extensive transcriptomic reprogramming in response to infection of the stem. While most intense transcriptional responses were detected in the stems at 24 hours, strong responses were not detected in the leaves until the next sampling point at 2 weeks post-inoculation. Network co-expression analysis identified modules of co-expressed genes common to both organs and showed most of these genes were asynchronously modulated. The temporal shift between stem vs. leaf responses affected transcriptional modulation of genes involved in both signal perception and transduction, as well as downstream biological processes, including oxidative stress, cell wall rearrangement and cell death. Promoter analysis of the genes asynchronously modulated in stem and leaves during N. parvum colonization suggests that the temporal shift of transcriptional reprogramming between the two organs might be due to asynchronous co-regulation by common transcriptional regulators. Topology analysis of stem and leaf co-expression networks pointed to specific transcription factor-encoding genes, including WRKY and MYB, which may be associated with the observed transcriptional responses in the two organs.
Grapevine trunk diseases cause important economic losses in vineyards worldwide. , one of the most aggressive causal agents of the trunk disease Botryosphaeria dieback, colonizes cells and tissues of the grapevine wood, leading to the formation of an internal canker. Symptoms then extend to distal shoots, with wilting of leaves and bud mortality. Our aim was to characterize the transcriptional dynamics of grapevine genes in the woody stem and in the leaves during colonization. Genome-wide transcriptional profiling at seven distinct time points (0, 3, and 24 hours; 2, 6, 8, and 12 weeks) showed that both stems and leaves undergo extensive transcriptomic reprogramming in response to infection of the stem. While most intense transcriptional responses were detected in the stems at 24 hours, strong responses were not detected in the leaves until the next sampling point at 2 weeks post-inoculation. Network co-expression analysis identified modules of co-expressed genes common to both organs and showed most of these genes were asynchronously modulated. The temporal shift between stem vs. leaf responses affected transcriptional modulation of genes involved in both signal perception and transduction, as well as downstream biological processes, including oxidative stress, cell wall rearrangement and cell death. Promoter analysis of the genes asynchronously modulated in stem and leaves during colonization suggests that the temporal shift of transcriptional reprogramming between the two organs might be due to asynchronous co-regulation by common transcriptional regulators. Topology analysis of stem and leaf co-expression networks pointed to specific transcription factor-encoding genes, including WRKY and MYB, which may be associated with the observed transcriptional responses in the two organs.
Author Miki, Shiho
Figueroa-Balderas, Rosa
Wallis, Christopher M
Baumgartner, Kendra
Galarneau, Erin R A
Sun, Qiang
Lawrence, Daniel P
Massonnet, Mélanie
Cantu, Dario
AuthorAffiliation 3 Department of Agriculture and Forest Science, Faculty of Life and Environmental Science, Shimane University Matsue, Japan
5 United States Department of Agriculture-Agricultural Research Service, San Joaquin Valley Agricultural Sciences Center Parlier, CA, United States
2 Department of Plant Pathology, University of California, Davis Davis, CA, United States
4 Department of Biology, University of Wisconsin Stevens Point, WI, United States
6 United States Department of Agriculture-Agricultural Research Service, Crops Pathology and Genetics Research Unit Davis, CA, United States
1 Department of Viticulture and Enology, University of California, Davis Davis, CA, United States
AuthorAffiliation_xml – name: 3 Department of Agriculture and Forest Science, Faculty of Life and Environmental Science, Shimane University Matsue, Japan
– name: 2 Department of Plant Pathology, University of California, Davis Davis, CA, United States
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– name: 4 Department of Biology, University of Wisconsin Stevens Point, WI, United States
– name: 6 United States Department of Agriculture-Agricultural Research Service, Crops Pathology and Genetics Research Unit Davis, CA, United States
– name: 5 United States Department of Agriculture-Agricultural Research Service, San Joaquin Valley Agricultural Sciences Center Parlier, CA, United States
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Copyright Copyright © 2017 Massonnet, Figueroa-Balderas, Galarneau, Miki, Lawrence, Sun, Wallis, Baumgartner and Cantu. 2017 Massonnet, Figueroa-Balderas, Galarneau, Miki, Lawrence, Sun, Wallis, Baumgartner and Cantu
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Keywords botryosphaeria dieback
local defense response
stilbenoids
wood decay
systemic defense response
Language English
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This article was submitted to Plant Microbe Interactions, a section of the journal Frontiers in Plant Science
Reviewed by: Stéphane Compant, Austrian Institute of Technology, Austria; Claudio Moser, Fondazione Edmund Mach, Italy; Andreia Figueiredo, Universidade de Lisboa, Portugal
Edited by: Vincenzo Lionetti, Sapienza Università di Roma, Italy
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SSID ssj0000500997
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Snippet Grapevine trunk diseases cause important economic losses in vineyards worldwide. , one of the most aggressive causal agents of the trunk disease Botryosphaeria...
Grapevine trunk diseases cause important economic losses in vineyards worldwide. Neofusicoccum parvum, one of the most aggressive causal agents of the trunk...
Grapevine trunk diseases cause important economic losses in vineyards worldwide. Neofusicoccum parvum , one of the most aggressive causal agents of the trunk...
SourceID doaj
pubmedcentral
proquest
crossref
pubmed
SourceType Open Website
Open Access Repository
Aggregation Database
Index Database
StartPage 1117
SubjectTerms botryosphaeria dieback
local defense response
Plant Science
stilbenoids
systemic defense response
wood decay
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Title Neofusicoccum parvum Colonization of the Grapevine Woody Stem Triggers Asynchronous Host Responses at the Site of Infection and in the Leaves
URI https://www.ncbi.nlm.nih.gov/pubmed/28702038
https://search.proquest.com/docview/1918853619
https://pubmed.ncbi.nlm.nih.gov/PMC5487829
https://doaj.org/article/35bed69aa26f455fb40b2d6865390f12
Volume 8
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