ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport
Water economy in agricultural practices is an issue that is being addressed through studies aimed at understanding both plant water-use efficiency (WUE), i.e. biomass produced per water consumed, and responses to water shortage. In the model species Arabidopsis thaliana, the ESKIMO1 (ESK1) gene has...
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ftciteseerx:oai:CiteSeerX.psu:10.1.1.293.7309 2023-05-15T16:06:33+02:00 ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport Valérie Lefebvre Marie-noëlle Fortabat Aloïse Ducamp Helen M. North Ra Maia Jacques Trouverie Yann Boursiac Gregory Mouille Mylène Dur The Pennsylvania State University CiteSeerX Archives application/zip http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.293.7309 en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.293.7309 Metadata may be used without restrictions as long as the oai identifier remains attached to it. ftp://ftp.ncbi.nlm.nih.gov/pub/pmc/fb/41/PLoS_One_2011_Feb_1_6(2)_e16645.tar.gz text ftciteseerx 2016-01-07T21:41:38Z Water economy in agricultural practices is an issue that is being addressed through studies aimed at understanding both plant water-use efficiency (WUE), i.e. biomass produced per water consumed, and responses to water shortage. In the model species Arabidopsis thaliana, the ESKIMO1 (ESK1) gene has been described as involved in freezing, cold and salt tolerance as well as in water economy: esk1 mutants have very low evapo-transpiration rates and high water-use efficiency. In order to establish ESK1 function, detailed characterization of esk1 mutants has been carried out. The stress hormone ABA (abscisic acid) was present at high levels in esk1 compared to wild type, nevertheless, the weak water loss of esk1 was independent of stomata closure through ABA biosynthesis, as combining mutant in this pathway with esk1 led to additive phenotypes. Measurement of root hydraulic conductivity suggests that the esk1 vegetative apparatus suffers water deficit due to a defect in water transport. ESK1 promoter-driven reporter gene expression was observed in xylem and fibers, the vascular tissue responsible for the transport of water and mineral nutrients from the soil to the shoots, via the roots. Moreover, in cross sections of hypocotyls, roots and stems, esk1 xylem vessels were collapsed. Finally, using Fourier-Transform Infrared (FTIR) spectroscopy, severe chemical modifications of xylem cell wall composition were highlighted in the esk1 mutants. Taken together our findings show that ESK1 is necessary for the production of functional xylem vessels, through its Text eskimo* Unknown |
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English |
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Water economy in agricultural practices is an issue that is being addressed through studies aimed at understanding both plant water-use efficiency (WUE), i.e. biomass produced per water consumed, and responses to water shortage. In the model species Arabidopsis thaliana, the ESKIMO1 (ESK1) gene has been described as involved in freezing, cold and salt tolerance as well as in water economy: esk1 mutants have very low evapo-transpiration rates and high water-use efficiency. In order to establish ESK1 function, detailed characterization of esk1 mutants has been carried out. The stress hormone ABA (abscisic acid) was present at high levels in esk1 compared to wild type, nevertheless, the weak water loss of esk1 was independent of stomata closure through ABA biosynthesis, as combining mutant in this pathway with esk1 led to additive phenotypes. Measurement of root hydraulic conductivity suggests that the esk1 vegetative apparatus suffers water deficit due to a defect in water transport. ESK1 promoter-driven reporter gene expression was observed in xylem and fibers, the vascular tissue responsible for the transport of water and mineral nutrients from the soil to the shoots, via the roots. Moreover, in cross sections of hypocotyls, roots and stems, esk1 xylem vessels were collapsed. Finally, using Fourier-Transform Infrared (FTIR) spectroscopy, severe chemical modifications of xylem cell wall composition were highlighted in the esk1 mutants. Taken together our findings show that ESK1 is necessary for the production of functional xylem vessels, through its |
| author2 |
The Pennsylvania State University CiteSeerX Archives |
| format |
Text |
| author |
Valérie Lefebvre Marie-noëlle Fortabat Aloïse Ducamp Helen M. North Ra Maia Jacques Trouverie Yann Boursiac Gregory Mouille Mylène Dur |
| spellingShingle |
Valérie Lefebvre Marie-noëlle Fortabat Aloïse Ducamp Helen M. North Ra Maia Jacques Trouverie Yann Boursiac Gregory Mouille Mylène Dur ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport |
| author_facet |
Valérie Lefebvre Marie-noëlle Fortabat Aloïse Ducamp Helen M. North Ra Maia Jacques Trouverie Yann Boursiac Gregory Mouille Mylène Dur |
| author_sort |
Valérie Lefebvre |
| title |
ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport |
| title_short |
ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport |
| title_full |
ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport |
| title_fullStr |
ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport |
| title_full_unstemmed |
ESKIMO1 Disruption in Arabidopsis Alters Vascular Tissue and Impairs Water Transport |
| title_sort |
eskimo1 disruption in arabidopsis alters vascular tissue and impairs water transport |
| url |
http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.293.7309 |
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eskimo* |
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eskimo* |
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ftp://ftp.ncbi.nlm.nih.gov/pub/pmc/fb/41/PLoS_One_2011_Feb_1_6(2)_e16645.tar.gz |
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http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.293.7309 |
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Metadata may be used without restrictions as long as the oai identifier remains attached to it. |
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1766402519978737664 |