A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion

Soil salinity impairs plant growth reducing crop productivity. Toxic accumulation of sodium ions is counteracted by the Salt Overly Sensitive (SOS) pathway for Na(+) extrusion, comprising the Na(+) transporter SOS1, the kinase SOS2, and SOS3 as one of several Calcineurin‐B‐like (CBL) Ca(2) (+) senso...

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Autores principales: Chen, Changxi, He, Gefeng, Li, Jianfang, Perez‐Hormaeche, Javier, Becker, Tobias, Luo, Manqing, Wallrad, Lukas, Gao, Junping, Li, Jia, Pardo, José M, Kudla, Jörg, Guo, Yan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2023
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10308370/
https://www.ncbi.nlm.nih.gov/pubmed/37211994
http://dx.doi.org/10.15252/embj.2022113004
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author Chen, Changxi
He, Gefeng
Li, Jianfang
Perez‐Hormaeche, Javier
Becker, Tobias
Luo, Manqing
Wallrad, Lukas
Gao, Junping
Li, Jia
Pardo, José M
Kudla, Jörg
Guo, Yan
author_facet Chen, Changxi
He, Gefeng
Li, Jianfang
Perez‐Hormaeche, Javier
Becker, Tobias
Luo, Manqing
Wallrad, Lukas
Gao, Junping
Li, Jia
Pardo, José M
Kudla, Jörg
Guo, Yan
author_sort Chen, Changxi
collection PubMed
description Soil salinity impairs plant growth reducing crop productivity. Toxic accumulation of sodium ions is counteracted by the Salt Overly Sensitive (SOS) pathway for Na(+) extrusion, comprising the Na(+) transporter SOS1, the kinase SOS2, and SOS3 as one of several Calcineurin‐B‐like (CBL) Ca(2) (+) sensors. Here, we report that the receptor‐like kinase GSO1/SGN3 activates SOS2, independently of SOS3 binding, by physical interaction and phosphorylation at Thr16. Loss of GSO1 function renders plants salt sensitive and GSO1 is both sufficient and required for activating the SOS2‐SOS1 module in yeast and in planta. Salt stress causes the accumulation of GSO1 in two specific and spatially defined areas of the root tip: in the endodermis section undergoing Casparian strip (CS) formation, where it reinforces the CIF‐GSO1‐SGN1 axis for CS barrier formation; and in the meristem, where it creates the GSO1‐SOS2‐SOS1 axis for Na(+) detoxification. Thus, GSO1 simultaneously prevents Na(+) both from diffusing into the vasculature, and from poisoning unprotected stem cells in the meristem. By protecting the meristem, receptor‐like kinase‐conferred activation of the SOS2‐SOS1 module allows root growth to be maintained in adverse environments.
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spelling pubmed-103083702023-06-30 A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion Chen, Changxi He, Gefeng Li, Jianfang Perez‐Hormaeche, Javier Becker, Tobias Luo, Manqing Wallrad, Lukas Gao, Junping Li, Jia Pardo, José M Kudla, Jörg Guo, Yan EMBO J Articles Soil salinity impairs plant growth reducing crop productivity. Toxic accumulation of sodium ions is counteracted by the Salt Overly Sensitive (SOS) pathway for Na(+) extrusion, comprising the Na(+) transporter SOS1, the kinase SOS2, and SOS3 as one of several Calcineurin‐B‐like (CBL) Ca(2) (+) sensors. Here, we report that the receptor‐like kinase GSO1/SGN3 activates SOS2, independently of SOS3 binding, by physical interaction and phosphorylation at Thr16. Loss of GSO1 function renders plants salt sensitive and GSO1 is both sufficient and required for activating the SOS2‐SOS1 module in yeast and in planta. Salt stress causes the accumulation of GSO1 in two specific and spatially defined areas of the root tip: in the endodermis section undergoing Casparian strip (CS) formation, where it reinforces the CIF‐GSO1‐SGN1 axis for CS barrier formation; and in the meristem, where it creates the GSO1‐SOS2‐SOS1 axis for Na(+) detoxification. Thus, GSO1 simultaneously prevents Na(+) both from diffusing into the vasculature, and from poisoning unprotected stem cells in the meristem. By protecting the meristem, receptor‐like kinase‐conferred activation of the SOS2‐SOS1 module allows root growth to be maintained in adverse environments. John Wiley and Sons Inc. 2023-05-22 /pmc/articles/PMC10308370/ /pubmed/37211994 http://dx.doi.org/10.15252/embj.2022113004 Text en © 2023 The Authors. Published under the terms of the CC BY NC ND 4.0 license. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Articles
Chen, Changxi
He, Gefeng
Li, Jianfang
Perez‐Hormaeche, Javier
Becker, Tobias
Luo, Manqing
Wallrad, Lukas
Gao, Junping
Li, Jia
Pardo, José M
Kudla, Jörg
Guo, Yan
A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion
title A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion
title_full A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion
title_fullStr A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion
title_full_unstemmed A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion
title_short A salt stress‐activated GSO1‐SOS2‐SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion
title_sort salt stress‐activated gso1‐sos2‐sos1 module protects the arabidopsis root stem cell niche by enhancing sodium ion extrusion
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10308370/
https://www.ncbi.nlm.nih.gov/pubmed/37211994
http://dx.doi.org/10.15252/embj.2022113004
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