Aquaporins are main contributors to root hydraulic conductivity in pearl millet [Pennisetum glaucum (L) R. Br.]

Pearl millet is a key cereal for food security in arid and semi-arid regions but its yield is increasingly threatened by water stress. Physiological mechanisms relating to conservation of soil water or increased water use efficiency can alleviate that stress. Aquaporins (AQP) are water channels that...

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Published in:	PloS one Vol. 15; no. 10; p. e0233481
Main Authors:	Grondin, Alexandre, Affortit, Pablo, Tranchant-Dubreuil, Christine, de la Fuente-Cantó, Carla, Mariac, Cédric, Gantet, Pascal, Vadez, Vincent, Vigouroux, Yves, Laplaze, Laurent
Format:	Journal Article
Language:	English
Published:	San Francisco Public Library of Science 01-10-2020 Public Library of Science (PLoS)
Subjects:	Adaptation Agricultural production Aquaporins Arid regions Arid zones Biology and Life Sciences Botanical research Carbon dioxide Crops Efficiency Engineering and Technology Environmental stress Fluid dynamics Fluid flow Food security Gene expression Genetic aspects Genomes Humidity Hydraulic conductivity Hydraulics Isoforms Life Sciences Membranes Millet Moisture content Nitrates Pearl millet Pennisetum glaucum Physical Sciences Physiology Plant growth Plant hardiness Properties Proteins Roots (Botany) Semi arid areas Semiarid lands Semiarid zones Soil conservation Soil water Soils Translocation (Plant physiology) Transpiration Water conservation Water stress Water transport Water use Water use efficiency France Senegal India
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Abstract	Pearl millet is a key cereal for food security in arid and semi-arid regions but its yield is increasingly threatened by water stress. Physiological mechanisms relating to conservation of soil water or increased water use efficiency can alleviate that stress. Aquaporins (AQP) are water channels that mediate root water transport, thereby influencing plant hydraulics, transpiration and soil water conservation. However, AQP remain largely uncharacterized in pearl millet. Here, we studied AQP function in root water transport in two pearl millet lines contrasting for water use efficiency (WUE). We observed that these lines also contrasted for root hydraulic conductivity (Lpr) and AQP contribution to Lpr. The line with lower WUE showed significantly higher AQP contribution to Lpr. To investigate AQP isoforms contributing to Lpr, we developed genomic approaches to first identify the entire AQP family in pearl millet and secondly, characterize the plasma membrane intrinsic proteins (PIP) gene expression profile. We identified and annotated 33 AQP genes in pearl millet, among which ten encoded PIP isoforms. PgPIP1-3 and PgPIP1-4 were significantly more expressed in the line showing lower WUE, higher Lpr and higher AQP contribution to Lpr. Overall, our study suggests that the PIP1 AQP family are the main regulators of Lpr in pearl millet and may possibly be associated with mechanisms associated to whole plant water use. This study paves the way for further investigations on AQP functions in pearl millet hydraulics and adaptation to environmental stresses.
AbstractList	Pearl millet is a key cereal for food security in arid and semi-arid regions but its yield is increasingly threatened by water stress. Physiological mechanisms relating to conservation of soil water or increased water use efficiency can alleviate that stress. Aquaporins (AQP) are water channels that mediate root water transport, thereby influencing plant hydraulics, transpiration and soil water conservation. However, AQP remain largely uncharacterized in pearl millet. Here, we studied AQP function in root water transport in two pearl millet lines contrasting for water use efficiency (WUE). We observed that these lines also contrasted for root hydraulic conductivity (Lpr) and AQP contribution to Lpr. The line with lower WUE showed significantly higher AQP contribution to Lpr. To investigate AQP isoforms contributing to Lpr, we developed genomic approaches to first identify the entire AQP family in pearl millet and secondly, characterize the plasma membrane intrinsic proteins (PIP) gene expression profile. We identified and annotated 33 AQP genes in pearl millet, among which ten encoded PIP isoforms. PgPIP1-3 and PgPIP1-4 were significantly more expressed in the line showing lower WUE, higher Lpr and higher AQP contribution to Lpr. Overall, our study suggests that the PIP1 AQP family are the main regulators of Lpr in pearl millet and may possibly be associated with mechanisms associated to whole plant water use. This study paves the way for further investigations on AQP functions in pearl millet hydraulics and adaptation to environmental stresses. Pearl millet is a key cereal for food security in arid and semi-arid regions but its yield is increasingly threatened by water stress. Physiological mechanisms relating to conservation of soil water or increased water use efficiency can alleviate that stress. Aquaporins (AQP) are water channels that mediate root water transport, thereby influencing plant hydraulics, transpiration and soil water conservation. However, AQP remain largely uncharacterized in pearl millet. Here, we studied AQP function in root water transport in two pearl millet lines contrasting for water use efficiency (WUE). We observed that these lines also contrasted for root hydraulic conductivity (Lpr) and AQP contribution to Lpr. The line with lower WUE showed significantly higher AQP contribution to Lpr. To investigate AQP isoforms contributing to Lpr, we developed genomic approaches to first identify the entire AQP family in pearl millet and secondly, characterize the plasma membrane intrinsic proteins (PIP) gene expression profile. We identified and annotated 33 AQP genes in pearl millet, among which ten encoded PIP isoforms. PgPIP1-3 and PgPIP1-4 were significantly more expressed in the line showing lower WUE, higher Lpr and higher AQP contribution to Lpr. Overall, our study suggests that the PIP1 AQP family are the main regulators of Lpr in pearl millet and may possibly be associated with mechanisms associated to whole plant water use. This study paves the way for further investigations on AQP functions in pearl millet hydraulics and adaptation to environmental stresses.
Audience	Academic
Author	Vigouroux, Yves Grondin, Alexandre Vadez, Vincent Gantet, Pascal Tranchant-Dubreuil, Christine de la Fuente-Cantó, Carla Mariac, Cédric Affortit, Pablo Laplaze, Laurent
AuthorAffiliation	1 UMR DIADE, IRD, Université de Montpellier, Montpellier, France 3 Laboratoire Commun de Microbiologie, Dakar, Senegal 5 International Crops Research Institute for Semi-Arid Tropics (ICRISAT), Hyderabad, India 2 Laboratoire Mixte International Adaptation des Plantes et Microorganismes Associés Aux Stress Environnementaux, Dakar, Senegal 4 Centre d’Étude Régional pour l’Amélioration de l’Adaptation à la Sécheresse, Thiès, Senegal University of Tasmania, AUSTRALIA
AuthorAffiliation_xml	– name: 5 International Crops Research Institute for Semi-Arid Tropics (ICRISAT), Hyderabad, India – name: University of Tasmania, AUSTRALIA – name: 2 Laboratoire Mixte International Adaptation des Plantes et Microorganismes Associés Aux Stress Environnementaux, Dakar, Senegal – name: 4 Centre d’Étude Régional pour l’Amélioration de l’Adaptation à la Sécheresse, Thiès, Senegal – name: 3 Laboratoire Commun de Microbiologie, Dakar, Senegal – name: 1 UMR DIADE, IRD, Université de Montpellier, Montpellier, France
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Copyright	COPYRIGHT 2020 Public Library of Science 2020 Grondin et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. Distributed under a Creative Commons Attribution 4.0 International License 2020 Grondin et al 2020 Grondin et al
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Snippet	Pearl millet is a key cereal for food security in arid and semi-arid regions but its yield is increasingly threatened by water stress. Physiological mechanisms...
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StartPage	e0233481
SubjectTerms	Adaptation Agricultural production Aquaporins Arid regions Arid zones Biology and Life Sciences Botanical research Carbon dioxide Crops Efficiency Engineering and Technology Environmental stress Fluid dynamics Fluid flow Food security Gene expression Genetic aspects Genomes Humidity Hydraulic conductivity Hydraulics Isoforms Life Sciences Membranes Millet Moisture content Nitrates Pearl millet Pennisetum glaucum Physical Sciences Physiology Plant growth Plant hardiness Properties Proteins Roots (Botany) Semi arid areas Semiarid lands Semiarid zones Soil conservation Soil water Soils Translocation (Plant physiology) Transpiration Water conservation Water stress Water transport Water use Water use efficiency
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Title	Aquaporins are main contributors to root hydraulic conductivity in pearl millet [Pennisetum glaucum (L) R. Br.]
URI	https://www.proquest.com/docview/2447830993 https://search.proquest.com/docview/2448408440 https://ird.hal.science/ird-02956421 https://pubmed.ncbi.nlm.nih.gov/PMC7529256 https://doaj.org/article/98f44d82763f40979d424f75bb0d2e09 http://dx.doi.org/10.1371/journal.pone.0233481
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