The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense

Most organisms adjust their development according to the environmental conditions. For the majority, this implies the sensing of alterations to cell walls caused by different cues. Despite the relevance of this process, few molecular players involved in cell wall sensing are known and characterized....

Descripción completa

Detalles Bibliográficos
Autores principales: Huerta, Apolonio I., Sancho-Andrés, Gloria, Montesinos, Juan Carlos, Silva-Navas, Javier, Bassard, Solène, Pau-Roblot, Corinne, Kesten, Christopher, Schlechter, Rudolf, Dora, Susanne, Ayupov, Temurkhan, Pelloux, Jérôme, Santiago, Julia, Sánchez-Rodríguez, Clara
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10168605/
https://www.ncbi.nlm.nih.gov/pubmed/37002606
http://dx.doi.org/10.1016/j.molp.2023.03.015
_version_ 1785038888566259712
author Huerta, Apolonio I.
Sancho-Andrés, Gloria
Montesinos, Juan Carlos
Silva-Navas, Javier
Bassard, Solène
Pau-Roblot, Corinne
Kesten, Christopher
Schlechter, Rudolf
Dora, Susanne
Ayupov, Temurkhan
Pelloux, Jérôme
Santiago, Julia
Sánchez-Rodríguez, Clara
author_facet Huerta, Apolonio I.
Sancho-Andrés, Gloria
Montesinos, Juan Carlos
Silva-Navas, Javier
Bassard, Solène
Pau-Roblot, Corinne
Kesten, Christopher
Schlechter, Rudolf
Dora, Susanne
Ayupov, Temurkhan
Pelloux, Jérôme
Santiago, Julia
Sánchez-Rodríguez, Clara
author_sort Huerta, Apolonio I.
collection PubMed
description Most organisms adjust their development according to the environmental conditions. For the majority, this implies the sensing of alterations to cell walls caused by different cues. Despite the relevance of this process, few molecular players involved in cell wall sensing are known and characterized. Here, we show that the wall-associated kinase-like protein RESISTANCE TO FUSARIUM OXYSPORUM 1 (RFO1) is required for plant growth and early defense against Fusarium oxysporum and functions by sensing changes in the pectin methylation levels in the cell wall. The RFO1 dwell time at the plasma membrane is affected by the pectin methylation status at the cell wall, regulating MITOGEN-ACTIVATED PROTEIN KINASE and gene expression. We show that the extracellular domain of RFO1 binds de-methylated pectin in vitro, whose distribution in the cell wall is altered during F. oxysporum infection. Further analyses also indicate that RFO1 is required for the BR-dependent plant growth alteration in response to inhibition of pectin de-methyl-esterase activity at the cell wall. Collectively, our work demonstrates that RFO1 is a sensor of the pectin methylation status that plays a unique dual role in plant growth and defense against vascular pathogens.
format Online
Article
Text
id pubmed-10168605
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-101686052023-05-10 The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense Huerta, Apolonio I. Sancho-Andrés, Gloria Montesinos, Juan Carlos Silva-Navas, Javier Bassard, Solène Pau-Roblot, Corinne Kesten, Christopher Schlechter, Rudolf Dora, Susanne Ayupov, Temurkhan Pelloux, Jérôme Santiago, Julia Sánchez-Rodríguez, Clara Mol Plant Research Article Most organisms adjust their development according to the environmental conditions. For the majority, this implies the sensing of alterations to cell walls caused by different cues. Despite the relevance of this process, few molecular players involved in cell wall sensing are known and characterized. Here, we show that the wall-associated kinase-like protein RESISTANCE TO FUSARIUM OXYSPORUM 1 (RFO1) is required for plant growth and early defense against Fusarium oxysporum and functions by sensing changes in the pectin methylation levels in the cell wall. The RFO1 dwell time at the plasma membrane is affected by the pectin methylation status at the cell wall, regulating MITOGEN-ACTIVATED PROTEIN KINASE and gene expression. We show that the extracellular domain of RFO1 binds de-methylated pectin in vitro, whose distribution in the cell wall is altered during F. oxysporum infection. Further analyses also indicate that RFO1 is required for the BR-dependent plant growth alteration in response to inhibition of pectin de-methyl-esterase activity at the cell wall. Collectively, our work demonstrates that RFO1 is a sensor of the pectin methylation status that plays a unique dual role in plant growth and defense against vascular pathogens. Oxford University Press 2023-05-01 /pmc/articles/PMC10168605/ /pubmed/37002606 http://dx.doi.org/10.1016/j.molp.2023.03.015 Text en © 2023 The Author https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Article
Huerta, Apolonio I.
Sancho-Andrés, Gloria
Montesinos, Juan Carlos
Silva-Navas, Javier
Bassard, Solène
Pau-Roblot, Corinne
Kesten, Christopher
Schlechter, Rudolf
Dora, Susanne
Ayupov, Temurkhan
Pelloux, Jérôme
Santiago, Julia
Sánchez-Rodríguez, Clara
The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense
title The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense
title_full The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense
title_fullStr The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense
title_full_unstemmed The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense
title_short The WAK-like protein RFO1 acts as a sensor of the pectin methylation status in Arabidopsis cell walls to modulate root growth and defense
title_sort wak-like protein rfo1 acts as a sensor of the pectin methylation status in arabidopsis cell walls to modulate root growth and defense
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10168605/
https://www.ncbi.nlm.nih.gov/pubmed/37002606
http://dx.doi.org/10.1016/j.molp.2023.03.015
work_keys_str_mv AT huertaapolonioi thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT sanchoandresgloria thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT montesinosjuancarlos thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT silvanavasjavier thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT bassardsolene thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT pauroblotcorinne thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT kestenchristopher thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT schlechterrudolf thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT dorasusanne thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT ayupovtemurkhan thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT pellouxjerome thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT santiagojulia thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT sanchezrodriguezclara thewaklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT huertaapolonioi waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT sanchoandresgloria waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT montesinosjuancarlos waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT silvanavasjavier waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT bassardsolene waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT pauroblotcorinne waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT kestenchristopher waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT schlechterrudolf waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT dorasusanne waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT ayupovtemurkhan waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT pellouxjerome waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT santiagojulia waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense
AT sanchezrodriguezclara waklikeproteinrfo1actsasasensorofthepectinmethylationstatusinarabidopsiscellwallstomodulaterootgrowthanddefense

Ejemplares similares