Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation

Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation

Chloride (Cl<sup>&#8722;</sup>) has traditionally been considered a micronutrient largely excluded by plants due to its ubiquity and abundance in nature, its antagonism with nitrate (NO<sub>3</sub><sup>&#8722;</sup>), and its toxicity when accumulated at h...

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Main Authors: José M. Colmenero-Flores, Juan D. Franco-Navarro, Paloma Cubero-Font, Procopio Peinado-Torrubia, Miguel A. Rosales
Format: Article
Language:English
Published: MDPI AG 2019-09-01
Series:International Journal of Molecular Sciences
Subjects:
chloride homeostasis
beneficial macronutrient
ion transport
anion channels
plant nutrition
turgor
nitrate
water balance
WUE
NUE
stress
Online Access:https://www.mdpi.com/1422-0067/20/19/4686
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spelling doaj-4c5ace9ad5004605940a88230fb003c92020-11-25T02:42:38ZengMDPI AGInternational Journal of Molecular Sciences1422-00672019-09-012019468610.3390/ijms20194686ijms20194686Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and RegulationJosé M. Colmenero-Flores0Juan D. Franco-Navarro1Paloma Cubero-Font2Procopio Peinado-Torrubia3Miguel A. Rosales4Instituto de Recursos Naturales y Agrobiología, Spanish National Research Council (CSIC), Avda Reina Mercedes 10, 41012 Sevilla, SpainInstituto de Recursos Naturales y Agrobiología, Spanish National Research Council (CSIC), Avda Reina Mercedes 10, 41012 Sevilla, SpainInstituto de Recursos Naturales y Agrobiología, Spanish National Research Council (CSIC), Avda Reina Mercedes 10, 41012 Sevilla, SpainInstituto de Recursos Naturales y Agrobiología, Spanish National Research Council (CSIC), Avda Reina Mercedes 10, 41012 Sevilla, SpainInstituto de Recursos Naturales y Agrobiología, Spanish National Research Council (CSIC), Avda Reina Mercedes 10, 41012 Sevilla, SpainChloride (Cl<sup>&#8722;</sup>) has traditionally been considered a micronutrient largely excluded by plants due to its ubiquity and abundance in nature, its antagonism with nitrate (NO<sub>3</sub><sup>&#8722;</sup>), and its toxicity when accumulated at high concentrations. In recent years, there has been a paradigm shift in this regard since Cl<sup>&#8722;</sup> has gone from being considered a harmful ion, accidentally absorbed through NO<sub>3</sub><sup>&#8722;</sup> transporters, to being considered a beneficial macronutrient whose transport is finely regulated by plants. As a beneficial macronutrient, Cl<sup>&#8722;</sup> determines increased fresh and dry biomass, greater leaf expansion, increased elongation of leaf and root cells, improved water relations, higher mesophyll diffusion to CO<sub>2</sub>, and better water- and nitrogen-use efficiency. While optimal growth of plants requires the synchronic supply of both Cl<sup>&#8722;</sup> and NO<sub>3</sub><sup>&#8722;</sup> molecules, the NO<sub>3</sub><sup>&#8722;</sup>/Cl<sup>&#8722;</sup> plant selectivity varies between species and varieties, and in the same plant it can be modified by environmental cues such as water deficit or salinity. Recently, new genes encoding transporters mediating Cl<sup>&#8722;</sup> influx (<i>ZmNPF6.4</i> and <i>ZmNPF6.6</i>), Cl<sup>&#8722;</sup> efflux (<i>AtSLAH3</i> and <i>AtSLAH1</i>), and Cl<sup>&#8722;</sup> compartmentalization (<i>AtDTX33</i>, <i>AtDTX35</i>, <i>AtALMT4,</i> and <i>GsCLC2</i>) have been identified and characterized. These transporters have proven to be highly relevant for nutrition, long-distance transport and compartmentalization of Cl<sup>&#8722;</sup>, as well as for cell turgor regulation and stress tolerance in plants.https://www.mdpi.com/1422-0067/20/19/4686chloride homeostasisbeneficial macronutriention transportanion channelsplant nutritionturgornitratewater balanceWUENUEstress
collection DOAJ
language English
format Article
sources DOAJ
author José M. Colmenero-Flores
Juan D. Franco-Navarro
Paloma Cubero-Font
Procopio Peinado-Torrubia
Miguel A. Rosales
spellingShingle José M. Colmenero-Flores
Juan D. Franco-Navarro
Paloma Cubero-Font
Procopio Peinado-Torrubia
Miguel A. Rosales
Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation
International Journal of Molecular Sciences
chloride homeostasis
beneficial macronutrient
ion transport
anion channels
plant nutrition
turgor
nitrate
water balance
WUE
NUE
stress
author_facet José M. Colmenero-Flores
Juan D. Franco-Navarro
Paloma Cubero-Font
Procopio Peinado-Torrubia
Miguel A. Rosales
author_sort José M. Colmenero-Flores
title Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation
title_short Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation
title_full Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation
title_fullStr Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation
title_full_unstemmed Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation
title_sort chloride as a beneficial macronutrient in higher plants: new roles and regulation
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2019-09-01
description Chloride (Cl<sup>&#8722;</sup>) has traditionally been considered a micronutrient largely excluded by plants due to its ubiquity and abundance in nature, its antagonism with nitrate (NO<sub>3</sub><sup>&#8722;</sup>), and its toxicity when accumulated at high concentrations. In recent years, there has been a paradigm shift in this regard since Cl<sup>&#8722;</sup> has gone from being considered a harmful ion, accidentally absorbed through NO<sub>3</sub><sup>&#8722;</sup> transporters, to being considered a beneficial macronutrient whose transport is finely regulated by plants. As a beneficial macronutrient, Cl<sup>&#8722;</sup> determines increased fresh and dry biomass, greater leaf expansion, increased elongation of leaf and root cells, improved water relations, higher mesophyll diffusion to CO<sub>2</sub>, and better water- and nitrogen-use efficiency. While optimal growth of plants requires the synchronic supply of both Cl<sup>&#8722;</sup> and NO<sub>3</sub><sup>&#8722;</sup> molecules, the NO<sub>3</sub><sup>&#8722;</sup>/Cl<sup>&#8722;</sup> plant selectivity varies between species and varieties, and in the same plant it can be modified by environmental cues such as water deficit or salinity. Recently, new genes encoding transporters mediating Cl<sup>&#8722;</sup> influx (<i>ZmNPF6.4</i> and <i>ZmNPF6.6</i>), Cl<sup>&#8722;</sup> efflux (<i>AtSLAH3</i> and <i>AtSLAH1</i>), and Cl<sup>&#8722;</sup> compartmentalization (<i>AtDTX33</i>, <i>AtDTX35</i>, <i>AtALMT4,</i> and <i>GsCLC2</i>) have been identified and characterized. These transporters have proven to be highly relevant for nutrition, long-distance transport and compartmentalization of Cl<sup>&#8722;</sup>, as well as for cell turgor regulation and stress tolerance in plants.
topic chloride homeostasis
beneficial macronutrient
ion transport
anion channels
plant nutrition
turgor
nitrate
water balance
WUE
NUE
stress
url https://www.mdpi.com/1422-0067/20/19/4686
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