Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress

Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress

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Arabidopsis CBF genes (CBF1-CBF3) encode transcription factors having a major role in cold acclimation, the adaptive process whereby certain plants increase their freezing tolerance in response to low non-freezing temperatures. Under these conditions, the CBF genes are induced and their corresponding proteins stimulate the expression of target genes configuring low-temperature transcriptome and conditioning Arabidopsis freezing tolerance. CBF2 seems to be the most determinant of the CBFs since it also regulates CBF1 and CBF3 expression. Despite the relevance of CBF genes in cold acclimation, little is known about the molecular components that control their expression. To uncover factors acting upstream of CBF2, mutagenized Arabidopsis containing the luciferase reporter gene under the control of the CBF2 promoter were screened for plants with de-regulated CBF2 expression. Here, the identification and characterization of five of these mutants, named acex (altered CBF2 expression), is presented. Three mutants show increased levels of cold-induced CBF2 transcripts compared with wild-type plants, the other two exhibiting reduced levels. Some mutants are also affected in cold induction of CBF1 and CBF3. Furthermore, the mutants characterized display unique phenotypes for tolerance to abiotic stresses, including freezing, dehydration, and high salt. These results demonstrate that cold induction of CBF2 is subjected to both positive and negative regulation through different signal transduction pathways, some of them also mediating the expression of other CBF genes as well as Arabidopsis responses to abiotic stresses. © 2011 The Author(s).

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Main Authors: Novillo, F., Medina, J., Rodríguez-Franco, M., Neuhaus, G., Salinas, J.
Format: journal article biblioteca
Language:English
Published: Oxford University Press 2012
Subjects:Abiotic stress, Arabidopsis mutants, CBFs, Cold acclimation, Dehydration, Freezing tolerance, Low temperature, Salt stress, Signal transduction,
Online Access:http://hdl.handle.net/20.500.12792/3144
http://hdl.handle.net/10261/294114
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spelling dig-inia-es-10261-2941142023-02-20T10:35:25Z Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress Novillo, F. Medina, J. Rodríguez-Franco, M. Neuhaus, G. Salinas, J. Abiotic stress Arabidopsis mutants CBFs Cold acclimation Dehydration Freezing tolerance Low temperature Salt stress Signal transduction Arabidopsis CBF genes (CBF1-CBF3) encode transcription factors having a major role in cold acclimation, the adaptive process whereby certain plants increase their freezing tolerance in response to low non-freezing temperatures. Under these conditions, the CBF genes are induced and their corresponding proteins stimulate the expression of target genes configuring low-temperature transcriptome and conditioning Arabidopsis freezing tolerance. CBF2 seems to be the most determinant of the CBFs since it also regulates CBF1 and CBF3 expression. Despite the relevance of CBF genes in cold acclimation, little is known about the molecular components that control their expression. To uncover factors acting upstream of CBF2, mutagenized Arabidopsis containing the luciferase reporter gene under the control of the CBF2 promoter were screened for plants with de-regulated CBF2 expression. Here, the identification and characterization of five of these mutants, named acex (altered CBF2 expression), is presented. Three mutants show increased levels of cold-induced CBF2 transcripts compared with wild-type plants, the other two exhibiting reduced levels. Some mutants are also affected in cold induction of CBF1 and CBF3. Furthermore, the mutants characterized display unique phenotypes for tolerance to abiotic stresses, including freezing, dehydration, and high salt. These results demonstrate that cold induction of CBF2 is subjected to both positive and negative regulation through different signal transduction pathways, some of them also mediating the expression of other CBF genes as well as Arabidopsis responses to abiotic stresses. © 2011 The Author(s). 2023-02-20T10:35:25Z 2023-02-20T10:35:25Z 2012 journal article Journal of Experimental Botany 63(1): 293-304 (2012) 0022-0957 http://hdl.handle.net/20.500.12792/3144 http://hdl.handle.net/10261/294114 10.1093/jxb/err279 1460-2431 en open Oxford University Press
institution INIA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-inia-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del INIA España
language English
topic Abiotic stress
Arabidopsis mutants
CBFs
Cold acclimation
Dehydration
Freezing tolerance
Low temperature
Salt stress
Signal transduction
Abiotic stress
Arabidopsis mutants
CBFs
Cold acclimation
Dehydration
Freezing tolerance
Low temperature
Salt stress
Signal transduction
spellingShingle Abiotic stress
Arabidopsis mutants
CBFs
Cold acclimation
Dehydration
Freezing tolerance
Low temperature
Salt stress
Signal transduction
Abiotic stress
Arabidopsis mutants
CBFs
Cold acclimation
Dehydration
Freezing tolerance
Low temperature
Salt stress
Signal transduction
Novillo, F.
Medina, J.
Rodríguez-Franco, M.
Neuhaus, G.
Salinas, J.
Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress
description Arabidopsis CBF genes (CBF1-CBF3) encode transcription factors having a major role in cold acclimation, the adaptive process whereby certain plants increase their freezing tolerance in response to low non-freezing temperatures. Under these conditions, the CBF genes are induced and their corresponding proteins stimulate the expression of target genes configuring low-temperature transcriptome and conditioning Arabidopsis freezing tolerance. CBF2 seems to be the most determinant of the CBFs since it also regulates CBF1 and CBF3 expression. Despite the relevance of CBF genes in cold acclimation, little is known about the molecular components that control their expression. To uncover factors acting upstream of CBF2, mutagenized Arabidopsis containing the luciferase reporter gene under the control of the CBF2 promoter were screened for plants with de-regulated CBF2 expression. Here, the identification and characterization of five of these mutants, named acex (altered CBF2 expression), is presented. Three mutants show increased levels of cold-induced CBF2 transcripts compared with wild-type plants, the other two exhibiting reduced levels. Some mutants are also affected in cold induction of CBF1 and CBF3. Furthermore, the mutants characterized display unique phenotypes for tolerance to abiotic stresses, including freezing, dehydration, and high salt. These results demonstrate that cold induction of CBF2 is subjected to both positive and negative regulation through different signal transduction pathways, some of them also mediating the expression of other CBF genes as well as Arabidopsis responses to abiotic stresses. © 2011 The Author(s).
format journal article
topic_facet Abiotic stress
Arabidopsis mutants
CBFs
Cold acclimation
Dehydration
Freezing tolerance
Low temperature
Salt stress
Signal transduction
author Novillo, F.
Medina, J.
Rodríguez-Franco, M.
Neuhaus, G.
Salinas, J.
author_facet Novillo, F.
Medina, J.
Rodríguez-Franco, M.
Neuhaus, G.
Salinas, J.
author_sort Novillo, F.
title Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress
title_short Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress
title_full Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress
title_fullStr Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress
title_full_unstemmed Genetic analysis reveals a complex regulatory network modulating CBF gene expression and Arabidopsis response to abiotic stress
title_sort genetic analysis reveals a complex regulatory network modulating cbf gene expression and arabidopsis response to abiotic stress
publisher Oxford University Press
publishDate 2012
url http://hdl.handle.net/20.500.12792/3144
http://hdl.handle.net/10261/294114
work_keys_str_mv AT novillof geneticanalysisrevealsacomplexregulatorynetworkmodulatingcbfgeneexpressionandarabidopsisresponsetoabioticstress
AT medinaj geneticanalysisrevealsacomplexregulatorynetworkmodulatingcbfgeneexpressionandarabidopsisresponsetoabioticstress
AT rodriguezfrancom geneticanalysisrevealsacomplexregulatorynetworkmodulatingcbfgeneexpressionandarabidopsisresponsetoabioticstress
AT neuhausg geneticanalysisrevealsacomplexregulatorynetworkmodulatingcbfgeneexpressionandarabidopsisresponsetoabioticstress
AT salinasj geneticanalysisrevealsacomplexregulatorynetworkmodulatingcbfgeneexpressionandarabidopsisresponsetoabioticstress
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