Blue light postpones senescence of carnation flowers through regulation of ethylene and abscisic acid pathway-related genes

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Mostafa Aalifar
  • Sasan Aliniaeifard
  • Mostafa Arab
  • Mahboobeh Zare Mehrjerdi
  • Margrethe Serek

Research Organisations

External Research Organisations

  • University of Tehran
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Details

Original languageEnglish
Pages (from-to)103-112
Number of pages10
JournalPlant Physiology and Biochemistry
Volume151
Early online date18 Mar 2020
Publication statusPublished - Jun 2020

Abstract

Endogenous signals in response to exogenous factors determine the senescence of flowers. Interactions among phytohormones especially abscisic acid (ABA) and ethylene are the major determinant of the senescence. In the present study, complex expression patterns of the genes related to ABA and ethylene as endogenous signals were investigated on cut carnations (Dianthus caryophyllus L.) that were exposed to different light spectra. Expression of ethylene biosynthetic (DcACS and DcACO), and signaling (DcETR and DcEin2) genes and also genes involved in ABA biosynthesis (DcZEP1 and DcNCED1), transport (DcABCG25 and DcABCG40) and catabolism (DcCYP707A1) were evaluated in petals of carnations exposed to three light spectra [white, blue and red]. Lowest relative membrane permeability (RMP) was detected in flowers that exposed to Blue light (BLFs), as a consequence, the longest vase life was found in BLFs. The Red and White lights markedly accelerated flower senescence and increased expression of DcACS and DcACO on day 6 and 10 of vase life assessment respectively; while Blue light inhibited the expression of ethylene biosynthetic genes. Expression of the genes involved in the production and transport of ABA and in signal transduction of ethylene was elevated during vase life of flowers irrespective of exposure to different light spectra. In conclusion, Blue light can be an effective environmental factor to extend the vase life of carnation flowers by delaying the petal senescence through down-regulation of ethylene biosynthetic genes and up-regulation of ABA biosynthetic genes.

Keywords

    Abscisic acid, Carnation, Ethylene, Light spectrum, Senescence

ASJC Scopus subject areas

  • Biochemistry, Genetics and Molecular Biology(all)
  • Physiology
  • Biochemistry, Genetics and Molecular Biology(all)
  • Genetics
  • Agricultural and Biological Sciences(all)
  • Plant Science

Cite this

Blue light postpones senescence of carnation flowers through regulation of ethylene and abscisic acid pathway-related genes. / Aalifar, Mostafa; Aliniaeifard, Sasan; Arab, Mostafa et al.
In: Plant Physiology and Biochemistry, Vol. 151, 06.2020, p. 103-112.

Research output: Contribution to journalArticleResearchpeer review

Aalifar M, Aliniaeifard S, Arab M, Mehrjerdi MZ, Serek M. Blue light postpones senescence of carnation flowers through regulation of ethylene and abscisic acid pathway-related genes. Plant Physiology and Biochemistry. 2020 Jun;151:103-112. Epub 2020 Mar 18. doi: 10.1016/j.plaphy.2020.03.018
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title = "Blue light postpones senescence of carnation flowers through regulation of ethylene and abscisic acid pathway-related genes",
abstract = "Endogenous signals in response to exogenous factors determine the senescence of flowers. Interactions among phytohormones especially abscisic acid (ABA) and ethylene are the major determinant of the senescence. In the present study, complex expression patterns of the genes related to ABA and ethylene as endogenous signals were investigated on cut carnations (Dianthus caryophyllus L.) that were exposed to different light spectra. Expression of ethylene biosynthetic (DcACS and DcACO), and signaling (DcETR and DcEin2) genes and also genes involved in ABA biosynthesis (DcZEP1 and DcNCED1), transport (DcABCG25 and DcABCG40) and catabolism (DcCYP707A1) were evaluated in petals of carnations exposed to three light spectra [white, blue and red]. Lowest relative membrane permeability (RMP) was detected in flowers that exposed to Blue light (BLFs), as a consequence, the longest vase life was found in BLFs. The Red and White lights markedly accelerated flower senescence and increased expression of DcACS and DcACO on day 6 and 10 of vase life assessment respectively; while Blue light inhibited the expression of ethylene biosynthetic genes. Expression of the genes involved in the production and transport of ABA and in signal transduction of ethylene was elevated during vase life of flowers irrespective of exposure to different light spectra. In conclusion, Blue light can be an effective environmental factor to extend the vase life of carnation flowers by delaying the petal senescence through down-regulation of ethylene biosynthetic genes and up-regulation of ABA biosynthetic genes.",
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author = "Mostafa Aalifar and Sasan Aliniaeifard and Mostafa Arab and Mehrjerdi, {Mahboobeh Zare} and Margrethe Serek",
note = "Funding information: We would like to thank Iran National Science Foundation (grant number 96006991 ) and University of Tehran for their supports.",
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TY - JOUR

T1 - Blue light postpones senescence of carnation flowers through regulation of ethylene and abscisic acid pathway-related genes

AU - Aalifar, Mostafa

AU - Aliniaeifard, Sasan

AU - Arab, Mostafa

AU - Mehrjerdi, Mahboobeh Zare

AU - Serek, Margrethe

N1 - Funding information: We would like to thank Iran National Science Foundation (grant number 96006991 ) and University of Tehran for their supports.

PY - 2020/6

Y1 - 2020/6

N2 - Endogenous signals in response to exogenous factors determine the senescence of flowers. Interactions among phytohormones especially abscisic acid (ABA) and ethylene are the major determinant of the senescence. In the present study, complex expression patterns of the genes related to ABA and ethylene as endogenous signals were investigated on cut carnations (Dianthus caryophyllus L.) that were exposed to different light spectra. Expression of ethylene biosynthetic (DcACS and DcACO), and signaling (DcETR and DcEin2) genes and also genes involved in ABA biosynthesis (DcZEP1 and DcNCED1), transport (DcABCG25 and DcABCG40) and catabolism (DcCYP707A1) were evaluated in petals of carnations exposed to three light spectra [white, blue and red]. Lowest relative membrane permeability (RMP) was detected in flowers that exposed to Blue light (BLFs), as a consequence, the longest vase life was found in BLFs. The Red and White lights markedly accelerated flower senescence and increased expression of DcACS and DcACO on day 6 and 10 of vase life assessment respectively; while Blue light inhibited the expression of ethylene biosynthetic genes. Expression of the genes involved in the production and transport of ABA and in signal transduction of ethylene was elevated during vase life of flowers irrespective of exposure to different light spectra. In conclusion, Blue light can be an effective environmental factor to extend the vase life of carnation flowers by delaying the petal senescence through down-regulation of ethylene biosynthetic genes and up-regulation of ABA biosynthetic genes.

AB - Endogenous signals in response to exogenous factors determine the senescence of flowers. Interactions among phytohormones especially abscisic acid (ABA) and ethylene are the major determinant of the senescence. In the present study, complex expression patterns of the genes related to ABA and ethylene as endogenous signals were investigated on cut carnations (Dianthus caryophyllus L.) that were exposed to different light spectra. Expression of ethylene biosynthetic (DcACS and DcACO), and signaling (DcETR and DcEin2) genes and also genes involved in ABA biosynthesis (DcZEP1 and DcNCED1), transport (DcABCG25 and DcABCG40) and catabolism (DcCYP707A1) were evaluated in petals of carnations exposed to three light spectra [white, blue and red]. Lowest relative membrane permeability (RMP) was detected in flowers that exposed to Blue light (BLFs), as a consequence, the longest vase life was found in BLFs. The Red and White lights markedly accelerated flower senescence and increased expression of DcACS and DcACO on day 6 and 10 of vase life assessment respectively; while Blue light inhibited the expression of ethylene biosynthetic genes. Expression of the genes involved in the production and transport of ABA and in signal transduction of ethylene was elevated during vase life of flowers irrespective of exposure to different light spectra. In conclusion, Blue light can be an effective environmental factor to extend the vase life of carnation flowers by delaying the petal senescence through down-regulation of ethylene biosynthetic genes and up-regulation of ABA biosynthetic genes.

KW - Abscisic acid

KW - Carnation

KW - Ethylene

KW - Light spectrum

KW - Senescence

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DO - 10.1016/j.plaphy.2020.03.018

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C2 - 32208322

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VL - 151

SP - 103

EP - 112

JO - Plant Physiology and Biochemistry

JF - Plant Physiology and Biochemistry

SN - 0981-9428

ER -