Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application

Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application

A critical step in establishing a successful nitrogen-fixing symbiosis between rhizobia and legume plants is the entrapment of the bacteria between root hair cell walls, usually in characteristic 180degrees to 360degrees curls, shepherd's crooks, which are formed by the host's root hairs. Purified bacterial signal molecules, the nodulation factors (NFs), which are lipochitooligosaccharides, induce root hair deformation in the appropriate host legume and have been proposed to be a key player in eliciting root hair curling. However, for curling to occur, the presence of intact bacteria is thought to be essential, Here, we show that, when spot applied to one side of the growing Medicago truncatula root hair tip, purified NF alone is sufficient to induce reorientation of the root hair growth direction, or a full curl. Using wild-type M. truncatula containing the pMtENOD11::GUS construct, we demonstrate that MtENOD11::GUS is expressed after spot application. The data have been incorporated into a cell biological model, which explains the formation of shepherd's crook curls around NF-secreting rhizobia by continuous tip growth reorientation.

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Bibliographic Details
Main Authors: Esseling, J.J., Lhuissier, F.G.P., Emons, A.M.C.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:free calcium, lipo-oligosaccharide signals, lipochito-oligosaccharide, medicago-truncatula, nodulation factors, plant-cells, rhizobium-meliloti, symbiotic host-specificity, transgenic alfalfa, vicia-sativa,
Online Access:https://research.wur.nl/en/publications/nod-factor-induced-root-hair-curling-continuous-polar-growth-towa
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spelling dig-wur-nl-wurpubs-3250042024-09-23 Esseling, J.J. Lhuissier, F.G.P. Emons, A.M.C. Article/Letter to editor Plant Physiology 132 (2003) ISSN: 0032-0889 Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application 2003 A critical step in establishing a successful nitrogen-fixing symbiosis between rhizobia and legume plants is the entrapment of the bacteria between root hair cell walls, usually in characteristic 180degrees to 360degrees curls, shepherd's crooks, which are formed by the host's root hairs. Purified bacterial signal molecules, the nodulation factors (NFs), which are lipochitooligosaccharides, induce root hair deformation in the appropriate host legume and have been proposed to be a key player in eliciting root hair curling. However, for curling to occur, the presence of intact bacteria is thought to be essential, Here, we show that, when spot applied to one side of the growing Medicago truncatula root hair tip, purified NF alone is sufficient to induce reorientation of the root hair growth direction, or a full curl. Using wild-type M. truncatula containing the pMtENOD11::GUS construct, we demonstrate that MtENOD11::GUS is expressed after spot application. The data have been incorporated into a cell biological model, which explains the formation of shepherd's crook curls around NF-secreting rhizobia by continuous tip growth reorientation. en application/pdf https://research.wur.nl/en/publications/nod-factor-induced-root-hair-curling-continuous-polar-growth-towa 10.1104/pp.103.021634 https://edepot.wur.nl/374248 free calcium lipo-oligosaccharide signals lipochito-oligosaccharide medicago-truncatula nodulation factors plant-cells rhizobium-meliloti symbiotic host-specificity transgenic alfalfa vicia-sativa Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic free calcium
lipo-oligosaccharide signals
lipochito-oligosaccharide
medicago-truncatula
nodulation factors
plant-cells
rhizobium-meliloti
symbiotic host-specificity
transgenic alfalfa
vicia-sativa
free calcium
lipo-oligosaccharide signals
lipochito-oligosaccharide
medicago-truncatula
nodulation factors
plant-cells
rhizobium-meliloti
symbiotic host-specificity
transgenic alfalfa
vicia-sativa
spellingShingle free calcium
lipo-oligosaccharide signals
lipochito-oligosaccharide
medicago-truncatula
nodulation factors
plant-cells
rhizobium-meliloti
symbiotic host-specificity
transgenic alfalfa
vicia-sativa
free calcium
lipo-oligosaccharide signals
lipochito-oligosaccharide
medicago-truncatula
nodulation factors
plant-cells
rhizobium-meliloti
symbiotic host-specificity
transgenic alfalfa
vicia-sativa
Esseling, J.J.
Lhuissier, F.G.P.
Emons, A.M.C.
Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
description A critical step in establishing a successful nitrogen-fixing symbiosis between rhizobia and legume plants is the entrapment of the bacteria between root hair cell walls, usually in characteristic 180degrees to 360degrees curls, shepherd's crooks, which are formed by the host's root hairs. Purified bacterial signal molecules, the nodulation factors (NFs), which are lipochitooligosaccharides, induce root hair deformation in the appropriate host legume and have been proposed to be a key player in eliciting root hair curling. However, for curling to occur, the presence of intact bacteria is thought to be essential, Here, we show that, when spot applied to one side of the growing Medicago truncatula root hair tip, purified NF alone is sufficient to induce reorientation of the root hair growth direction, or a full curl. Using wild-type M. truncatula containing the pMtENOD11::GUS construct, we demonstrate that MtENOD11::GUS is expressed after spot application. The data have been incorporated into a cell biological model, which explains the formation of shepherd's crook curls around NF-secreting rhizobia by continuous tip growth reorientation.
format Article/Letter to editor
topic_facet free calcium
lipo-oligosaccharide signals
lipochito-oligosaccharide
medicago-truncatula
nodulation factors
plant-cells
rhizobium-meliloti
symbiotic host-specificity
transgenic alfalfa
vicia-sativa
author Esseling, J.J.
Lhuissier, F.G.P.
Emons, A.M.C.
author_facet Esseling, J.J.
Lhuissier, F.G.P.
Emons, A.M.C.
author_sort Esseling, J.J.
title Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
title_short Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
title_full Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
title_fullStr Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
title_full_unstemmed Nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
title_sort nod factor-induced root hair curling: continuous polar growth towards the point of nod factor application
url https://research.wur.nl/en/publications/nod-factor-induced-root-hair-curling-continuous-polar-growth-towa
work_keys_str_mv AT esselingjj nodfactorinducedroothaircurlingcontinuouspolargrowthtowardsthepointofnodfactorapplication
AT lhuissierfgp nodfactorinducedroothaircurlingcontinuouspolargrowthtowardsthepointofnodfactorapplication
AT emonsamc nodfactorinducedroothaircurlingcontinuouspolargrowthtowardsthepointofnodfactorapplication
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