Time of day modulates low‐temperature Ca2+ signals in Arabidopsis

Summary We tested the hypothesis that the circadian clock modulates Ca2+‐based signalling pathways, using low‐temperature (LT)‐induced Ca2+ signals. We investigated the relationship between diurnal and circadian modulation of LT‐induced increases in cytosolic‐free calcium ([Ca2+]cyt), and regulation...

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Published inThe Plant journal : for cell and molecular biology Vol. 48; no. 6; pp. 962 - 973
Main Authors Dodd, Antony N., Jakobsen, Mia Kyed, Baker, Andrew J., Telzerow, Anja, Hou, Sui‐Wen, Laplaze, Laurent, Barrot, Laure, Scott Poethig, R., Haseloff, Jim, Webb, Alex A. R.
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LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.12.2006
Blackwell Science
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Abstract Summary We tested the hypothesis that the circadian clock modulates Ca2+‐based signalling pathways, using low‐temperature (LT)‐induced Ca2+ signals. We investigated the relationship between diurnal and circadian modulation of LT‐induced increases in cytosolic‐free calcium ([Ca2+]cyt), and regulation of [Ca2+]cyt‐dependent outputs of the LT‐signalling network (RD29A transcript abundance and stomatal closure). We measured [Ca2+]cyt non‐invasively using aequorin, and targeted aequorin to the guard cell using a guard cell‐specific GAL4‐green fluorescent protein enhancer trap line. LT caused transient increases in whole plant and guard cell [Ca2+]cyt. In guard cells, the LT‐induced [Ca2+]cyt elevation preceded stomatal closure. In whole plants, the magnitude of LT‐induced [Ca2+]cyt transients, measured from the entire plant or specifically the guard cell, varied with the time of day: LT‐induced [Ca2+]cyt transients were significantly higher during the mid‐photoperiod than at the beginning or end. Diurnal variation in LT‐induced guard cell [Ca2+]cyt increases was not correlated to diurnal variation in LT‐induced stomatal closure. There was circadian modulation of LT‐induced whole plant [Ca2+]cyt increases, which were correlated to the circadian pattern of RD29A induction. In order to understand the significance of LT‐induced [Ca2+]cyt increases, we used a computer simulation to demonstrate that, in guard cells, LT‐induced [Ca2+]cyt increases measured from a population of cells are likely to represent the summation of cold‐induced single‐cell [Ca2+]cyt oscillations.
AbstractList We tested the hypothesis that the circadian clock modulates Ca2+-based signalling pathways, using low-temperature (LT)-induced Ca2+ signals. We investigated the relationship between diurnal and circadian modulation of LT-induced increases in cytosolic-free calcium ([Ca2+]cyt), and regulation of [Ca2+]cyt-dependent outputs of the LT-signalling network (RD29A transcript abundance and stomatal closure). We measured [Ca2+]cyt non-invasively using aequorin, and targeted aequorin to the guard cell using a guard cell-specific GAL4-green fluorescent protein enhancer trap line. LT caused transient increases in whole plant and guard cell [Ca2+]cyt. In guard cells, the LT-induced [Ca2+]cyt elevation preceded stomatal closure. In whole plants, the magnitude of LT-induced [Ca2+]cyt transients, measured from the entire plant or specifically the guard cell, varied with the time of day: LT-induced [Ca2+]cyt transients were significantly higher during the mid-photoperiod than at the beginning or end. Diurnal variation in LT-induced guard cell [Ca2+]cyt increases was not correlated to diurnal variation in LT-induced stomatal closure. There was circadian modulation of LT-induced whole plant [Ca2+]cyt increases, which were correlated to the circadian pattern of RD29A induction. In order to understand the significance of LT-induced [Ca2+]cyt increases, we used a computer simulation to demonstrate that, in guard cells, LT-induced [Ca2+]cyt increases measured from a population of cells are likely to represent the summation of cold-induced single-cell [Ca2+]cyt oscillations.[PUBLICATION ABSTRACT]
Summary We tested the hypothesis that the circadian clock modulates Ca2+‐based signalling pathways, using low‐temperature (LT)‐induced Ca2+ signals. We investigated the relationship between diurnal and circadian modulation of LT‐induced increases in cytosolic‐free calcium ([Ca2+]cyt), and regulation of [Ca2+]cyt‐dependent outputs of the LT‐signalling network (RD29A transcript abundance and stomatal closure). We measured [Ca2+]cyt non‐invasively using aequorin, and targeted aequorin to the guard cell using a guard cell‐specific GAL4‐green fluorescent protein enhancer trap line. LT caused transient increases in whole plant and guard cell [Ca2+]cyt. In guard cells, the LT‐induced [Ca2+]cyt elevation preceded stomatal closure. In whole plants, the magnitude of LT‐induced [Ca2+]cyt transients, measured from the entire plant or specifically the guard cell, varied with the time of day: LT‐induced [Ca2+]cyt transients were significantly higher during the mid‐photoperiod than at the beginning or end. Diurnal variation in LT‐induced guard cell [Ca2+]cyt increases was not correlated to diurnal variation in LT‐induced stomatal closure. There was circadian modulation of LT‐induced whole plant [Ca2+]cyt increases, which were correlated to the circadian pattern of RD29A induction. In order to understand the significance of LT‐induced [Ca2+]cyt increases, we used a computer simulation to demonstrate that, in guard cells, LT‐induced [Ca2+]cyt increases measured from a population of cells are likely to represent the summation of cold‐induced single‐cell [Ca2+]cyt oscillations.
Author Baker, Andrew J.
Webb, Alex A. R.
Hou, Sui‐Wen
Jakobsen, Mia Kyed
Telzerow, Anja
Dodd, Antony N.
Scott Poethig, R.
Barrot, Laure
Haseloff, Jim
Laplaze, Laurent
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Issue 6
Keywords calcium
Cold
EC 1.13.12.5
Arabidopsis
Stomata
Photoperiod
Diurnal variation
Guard cell
circadian
Cruciferae
Dicotyledones
Angiospermae
Stomatal movement
Spermatophyta
signalling
Low temperature
Language English
License CC BY 4.0
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Notes Present address: UMR 1098, I.R.D., 911 Av. Agropolis, 34394 Montpellier cedex 5, France.
Present address: School of Life Sciences, Lanzhou University, Lanzhou, Gansu 730000, China.
Present address: Max Planck Institute for Molecular Cell Biology and Genetics, Dresden 01307, Germany.
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PQPubID 31702
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PublicationTitle The Plant journal : for cell and molecular biology
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Publisher Blackwell Publishing Ltd
Blackwell Science
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Snippet Summary We tested the hypothesis that the circadian clock modulates Ca2+‐based signalling pathways, using low‐temperature (LT)‐induced Ca2+ signals. We...
We tested the hypothesis that the circadian clock modulates Ca2+-based signalling pathways, using low-temperature (LT)-induced Ca2+ signals. We investigated...
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wiley
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SubjectTerms Biological and medical sciences
Botany
Calcium
circadian
Circadian rhythm
cold
Flowers & plants
Fundamental and applied biological sciences. Psychology
guard cell
Hypothesis testing
Physical agents
Plant physiology and development
Signal transduction
signalling
Vegetative apparatus, growth and morphogenesis. Senescence
Title Time of day modulates low‐temperature Ca2+ signals in Arabidopsis
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1365-313X.2006.02933.x
https://www.proquest.com/docview/213448008
Volume 48
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