Element content and expression of genes of interest in guard cells are connected to spatiotemporal variations in stomatal conductance

Element content and expression of genes of interest in guard cells are connected to spatiotemporal variations in stomatal conductance

Element content and expression of genes of interest on single cell types, such as stomata, provide valuable insights into their specific physiology, improving our understanding of leaf gas exchange regulation. We investigated how far differences in stomatal conductance (gs) can be ascribed to change...

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Veröffentlicht in:Plant, cell and environment cell and environment, 2020-01, Vol.43 (1), p.87-102
Hauptverfasser: Durand, Maxime, Cohen, David, Aubry, Nathalie, Buré, Cyril, Tomášková, Ivana, Hummel, Irène, Brendel, Oliver, Le Thiec, Didier
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Sprache:eng
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abaxial and adaxial surfaces
Adenosine triphosphatase
Aquaporins
Calcium channels
Calcium ions
Chlorine
Drought
droughts
elements
Gas exchange
Gene expression
Genes
Genotypes
Guard cells
Leaves
Life Sciences
Magnesium
Normalizing
Phosphorus
Physiology
plant stomata
Populus
Resistance
Stomata
Stomatal conductance
Time of use
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container_end_page 102
container_issue 1
container_start_page 87
container_title Plant, cell and environment
container_volume 43
creator Durand, Maxime
Cohen, David
Aubry, Nathalie
Buré, Cyril
Tomášková, Ivana
Hummel, Irène
Brendel, Oliver
Le Thiec, Didier
description Element content and expression of genes of interest on single cell types, such as stomata, provide valuable insights into their specific physiology, improving our understanding of leaf gas exchange regulation. We investigated how far differences in stomatal conductance (gs) can be ascribed to changes in guard cells functioning in amphistomateous leaves. gs was measured during the day on both leaf sides, on well‐watered and drought‐stressed trees (two Populus euramericana Moench and two Populus nigra L. genotypes). In parallel, guard cells were dissected for element content and gene expressions analyses. Both were strongly arranged according to genotype, and drought had the lowest impact overall. Normalizing the data by genotype highlighted a structure on the basis of leaf sides and time of day both for element content and gene expression. Guard cells magnesium, phosphorus, and chlorine were the most abundant on the abaxial side in the morning, where gs was at the highest. In contrast, genes encoding H+‐ATPase and aquaporins were usually more abundant in the afternoon, whereas genes encoding Ca2+‐vacuolar antiporters, K+ channels, and ABA‐related genes were in general more abundant on the adaxial side. Our work highlights the unique physiology of each leaf side and their analogous rhythmicity through the day. Guard cell analyses revealed a strong genotypic difference of chlorine content. Moreover, H+‐ATPase, ABA‐related genes, K+ channels, and aquaporins expression displayed marked differences between leaf sides and time of day.
doi_str_mv 10.1111/pce.13644
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In contrast, genes encoding H+‐ATPase and aquaporins were usually more abundant in the afternoon, whereas genes encoding Ca2+‐vacuolar antiporters, K+ channels, and ABA‐related genes were in general more abundant on the adaxial side. Our work highlights the unique physiology of each leaf side and their analogous rhythmicity through the day. Guard cell analyses revealed a strong genotypic difference of chlorine content. 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subjects abaxial and adaxial surfaces
Adenosine triphosphatase
Aquaporins
Calcium channels
Calcium ions
Chlorine
Drought
droughts
elements
Gas exchange
Gene expression
Genes
Genotypes
Guard cells
Leaves
Life Sciences
Magnesium
Normalizing
Phosphorus
Physiology
plant stomata
Populus
Resistance
Stomata
Stomatal conductance
Time of use
title Element content and expression of genes of interest in guard cells are connected to spatiotemporal variations in stomatal conductance
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