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 in | The Plant journal : for cell and molecular biology Vol. 48; no. 6; pp. 962 - 973 |
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Main Authors | , , , , , , , , , |
Format | Journal Article |
Language | English |
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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. |
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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 |
Author_xml | – sequence: 1 givenname: Antony N. surname: Dodd fullname: Dodd, Antony N. – sequence: 2 givenname: Mia Kyed surname: Jakobsen fullname: Jakobsen, Mia Kyed – sequence: 3 givenname: Andrew J. surname: Baker fullname: Baker, Andrew J. – sequence: 4 givenname: Anja surname: Telzerow fullname: Telzerow, Anja – sequence: 5 givenname: Sui‐Wen surname: Hou fullname: Hou, Sui‐Wen – sequence: 6 givenname: Laurent surname: Laplaze fullname: Laplaze, Laurent – sequence: 7 givenname: Laure surname: Barrot fullname: Barrot, Laure – sequence: 8 givenname: R. surname: Scott Poethig fullname: Scott Poethig, R. – sequence: 9 givenname: Jim surname: Haseloff fullname: Haseloff, Jim – sequence: 10 givenname: Alex A. R. surname: Webb fullname: Webb, Alex A. R. |
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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 |
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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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References | 1991; 352 2002; 14 1999b; 19 2002; 153 2002; 53 1999a; 11 2004; 7 2005; 137 1993; 21 2003; 15 1992; 19 1998; 353 2003; 159 1997; 9 2005; 24 2000; 290 2000; 408 2001; 293 1997; 94 2000; 289 2004; 38 2005; 102 2003; 6 1999; 58 1992; 358 2003; 160 2005; 309 1988; 85 1998; 96 2001; 13 1996; 134 1996; 8 2001; 411 1995; 92 2000; 23 1996; 93 2005; 41 2006; 18 2001; 26 1993; 103 1993; 102 2001; 125 2005; 46 1999 1995; 7 2001; 127 2004; 55 2001; 151 2003; 426 2003; 425 2004; 16 2001; 4 2006; 141 2003; 26 1995; 269 1993; 236 2003; 100 1987; 26 |
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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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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 |
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