RNA Silencing Is Resistant to Low-Temperature in Grapevine

RNA silencing is a natural defence mechanism against viruses in plants, and transgenes expressing viral RNA-derived sequences were previously shown to confer silencing-based enhanced resistance against the cognate virus in several species. However, RNA silencing was shown to dysfunction at low tempe...

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Autores principales: Romon, Marjorie, Soustre-Gacougnolle, Isabelle, Schmitt, Carine, Perrin, Mireille, Burdloff, Yannick, Chevalier, Elodie, Mutterer, Jérome, Himber, Christophe, Zervudacki, Jérôme, Montavon, Thomas, Zimmermann, Aude, Elmayan, Taline, Vaucheret, Hervé, Dunoyer, Patrice, Masson, Jean E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3869719/
https://www.ncbi.nlm.nih.gov/pubmed/24376561
http://dx.doi.org/10.1371/journal.pone.0082652
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author Romon, Marjorie
Soustre-Gacougnolle, Isabelle
Schmitt, Carine
Perrin, Mireille
Burdloff, Yannick
Chevalier, Elodie
Mutterer, Jérome
Himber, Christophe
Zervudacki, Jérôme
Montavon, Thomas
Zimmermann, Aude
Elmayan, Taline
Vaucheret, Hervé
Dunoyer, Patrice
Masson, Jean E.
author_facet Romon, Marjorie
Soustre-Gacougnolle, Isabelle
Schmitt, Carine
Perrin, Mireille
Burdloff, Yannick
Chevalier, Elodie
Mutterer, Jérome
Himber, Christophe
Zervudacki, Jérôme
Montavon, Thomas
Zimmermann, Aude
Elmayan, Taline
Vaucheret, Hervé
Dunoyer, Patrice
Masson, Jean E.
author_sort Romon, Marjorie
collection PubMed
description RNA silencing is a natural defence mechanism against viruses in plants, and transgenes expressing viral RNA-derived sequences were previously shown to confer silencing-based enhanced resistance against the cognate virus in several species. However, RNA silencing was shown to dysfunction at low temperatures in several species, questioning the relevance of this strategy in perennial plants such as grapevines, which are often exposed to low temperatures during the winter season. Here, we show that inverted-repeat (IR) constructs trigger a highly efficient silencing reaction in all somatic tissues in grapevines. Similarly to other plant species, IR-derived siRNAs trigger production of secondary transitive siRNAs. However, and in sharp contrast to other species tested to date where RNA silencing is hindered at low temperature, this process remained active in grapevine cultivated at 4°C. Consistently, siRNA levels remained steady in grapevines cultivated between 26°C and 4°C, whereas they are severely decreased in Arabidopsis grown at 15°C and almost undetectable at 4°C. Altogether, these results demonstrate that RNA silencing operates in grapevine in a conserved manner but is resistant to far lower temperatures than ever described in other species.
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spelling pubmed-38697192013-12-27 RNA Silencing Is Resistant to Low-Temperature in Grapevine Romon, Marjorie Soustre-Gacougnolle, Isabelle Schmitt, Carine Perrin, Mireille Burdloff, Yannick Chevalier, Elodie Mutterer, Jérome Himber, Christophe Zervudacki, Jérôme Montavon, Thomas Zimmermann, Aude Elmayan, Taline Vaucheret, Hervé Dunoyer, Patrice Masson, Jean E. PLoS One Research Article RNA silencing is a natural defence mechanism against viruses in plants, and transgenes expressing viral RNA-derived sequences were previously shown to confer silencing-based enhanced resistance against the cognate virus in several species. However, RNA silencing was shown to dysfunction at low temperatures in several species, questioning the relevance of this strategy in perennial plants such as grapevines, which are often exposed to low temperatures during the winter season. Here, we show that inverted-repeat (IR) constructs trigger a highly efficient silencing reaction in all somatic tissues in grapevines. Similarly to other plant species, IR-derived siRNAs trigger production of secondary transitive siRNAs. However, and in sharp contrast to other species tested to date where RNA silencing is hindered at low temperature, this process remained active in grapevine cultivated at 4°C. Consistently, siRNA levels remained steady in grapevines cultivated between 26°C and 4°C, whereas they are severely decreased in Arabidopsis grown at 15°C and almost undetectable at 4°C. Altogether, these results demonstrate that RNA silencing operates in grapevine in a conserved manner but is resistant to far lower temperatures than ever described in other species. Public Library of Science 2013-12-20 /pmc/articles/PMC3869719/ /pubmed/24376561 http://dx.doi.org/10.1371/journal.pone.0082652 Text en © 2013 Romon et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Romon, Marjorie
Soustre-Gacougnolle, Isabelle
Schmitt, Carine
Perrin, Mireille
Burdloff, Yannick
Chevalier, Elodie
Mutterer, Jérome
Himber, Christophe
Zervudacki, Jérôme
Montavon, Thomas
Zimmermann, Aude
Elmayan, Taline
Vaucheret, Hervé
Dunoyer, Patrice
Masson, Jean E.
RNA Silencing Is Resistant to Low-Temperature in Grapevine
title RNA Silencing Is Resistant to Low-Temperature in Grapevine
title_full RNA Silencing Is Resistant to Low-Temperature in Grapevine
title_fullStr RNA Silencing Is Resistant to Low-Temperature in Grapevine
title_full_unstemmed RNA Silencing Is Resistant to Low-Temperature in Grapevine
title_short RNA Silencing Is Resistant to Low-Temperature in Grapevine
title_sort rna silencing is resistant to low-temperature in grapevine
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3869719/
https://www.ncbi.nlm.nih.gov/pubmed/24376561
http://dx.doi.org/10.1371/journal.pone.0082652
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