Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth

Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth

Plant roots are very plastic and can adjust their tissue organization and cell appearance during abiotic stress responses. Previous studies showed that direct root illumination and sugar supplementation mask root growth phenotypes and traits. Sugar and light signaling where further connected to chan...

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Bibliographic Details
Main Authors: Judith García-González, Jozef Lacek, Katarzyna Retzer
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Plants
Subjects:
PIN-FORMED2
shootward auxin transport
root growth
root hair
sugar
sucrose
Online Access:https://www.mdpi.com/2223-7747/10/1/111
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spelling doaj-74a03da05b144830aeb7ceac34d86c662021-01-08T00:04:09ZengMDPI AGPlants2223-77472021-01-011011111110.3390/plants10010111Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair GrowthJudith García-González0Jozef Lacek1Katarzyna Retzer2Laboratory of Hormonal Regulations in Plants, Institute of Experimental Botany, Czech Academy of Sciences, 165 02 Prague, Czech RepublicLaboratory of Hormonal Regulations in Plants, Institute of Experimental Botany, Czech Academy of Sciences, 165 02 Prague, Czech RepublicLaboratory of Hormonal Regulations in Plants, Institute of Experimental Botany, Czech Academy of Sciences, 165 02 Prague, Czech RepublicPlant roots are very plastic and can adjust their tissue organization and cell appearance during abiotic stress responses. Previous studies showed that direct root illumination and sugar supplementation mask root growth phenotypes and traits. Sugar and light signaling where further connected to changes in auxin biosynthesis and distribution along the root. Auxin signaling underpins almost all processes involved in the establishment of root traits, including total root length, gravitropic growth, root hair initiation and elongation. Root hair plasticity allows maximized nutrient uptake and therefore plant productivity, and root hair priming and elongation require proper auxin availability. In the presence of sucrose in the growth medium, root hair emergence is partially rescued, but the full potential of root hair elongation is lost. With our work we describe a combinatory study showing to which extent light and sucrose are antagonistically influencing root length, but additively affecting root hair emergence and elongation. Furthermore, we investigated the impact of the loss of PIN-FORMED2, an auxin efflux carrier mediating shootward auxin transporter, on the establishment of root traits in combination with all growth conditions.https://www.mdpi.com/2223-7747/10/1/111PIN-FORMED2shootward auxin transportroot growthroot hairsugarsucrose
collection DOAJ
language English
format Article
sources DOAJ
author Judith García-González
Jozef Lacek
Katarzyna Retzer
spellingShingle Judith García-González
Jozef Lacek
Katarzyna Retzer
Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
Plants
PIN-FORMED2
shootward auxin transport
root growth
root hair
sugar
sucrose
author_facet Judith García-González
Jozef Lacek
Katarzyna Retzer
author_sort Judith García-González
title Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
title_short Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
title_full Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
title_fullStr Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
title_full_unstemmed Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
title_sort dissecting hierarchies between light, sugar and auxin action underpinning root and root hair growth
publisher MDPI AG
series Plants
issn 2223-7747
publishDate 2021-01-01
description Plant roots are very plastic and can adjust their tissue organization and cell appearance during abiotic stress responses. Previous studies showed that direct root illumination and sugar supplementation mask root growth phenotypes and traits. Sugar and light signaling where further connected to changes in auxin biosynthesis and distribution along the root. Auxin signaling underpins almost all processes involved in the establishment of root traits, including total root length, gravitropic growth, root hair initiation and elongation. Root hair plasticity allows maximized nutrient uptake and therefore plant productivity, and root hair priming and elongation require proper auxin availability. In the presence of sucrose in the growth medium, root hair emergence is partially rescued, but the full potential of root hair elongation is lost. With our work we describe a combinatory study showing to which extent light and sucrose are antagonistically influencing root length, but additively affecting root hair emergence and elongation. Furthermore, we investigated the impact of the loss of PIN-FORMED2, an auxin efflux carrier mediating shootward auxin transporter, on the establishment of root traits in combination with all growth conditions.
topic PIN-FORMED2
shootward auxin transport
root growth
root hair
sugar
sucrose
url https://www.mdpi.com/2223-7747/10/1/111
work_keys_str_mv AT judithgarciagonzalez dissectinghierarchiesbetweenlightsugarandauxinactionunderpinningrootandroothairgrowth
AT jozeflacek dissectinghierarchiesbetweenlightsugarandauxinactionunderpinningrootandroothairgrowth
AT katarzynaretzer dissectinghierarchiesbetweenlightsugarandauxinactionunderpinningrootandroothairgrowth
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