Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment

Plants are exposed to varying irradiance and temperature within a day and from day to day. We previously investigated metabolism in a temperature-controlled greenhouse at the spring equinox on both a cloudy and a sunny day [daily light integral (DLI) of 7 mol m(−2) d(−1) and 12 mol m(−2) d(−1)]. Die...

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Autores principales: Annunziata, Maria Grazia, Apelt, Federico, Carillo, Petronia, Krause, Ursula, Feil, Regina, Koehl, Karin, Lunn, John E, Stitt, Mark
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2018
Materias:
Research Papers
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6137998/
https://www.ncbi.nlm.nih.gov/pubmed/30053131
http://dx.doi.org/10.1093/jxb/ery276
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author Annunziata, Maria Grazia
Apelt, Federico
Carillo, Petronia
Krause, Ursula
Feil, Regina
Koehl, Karin
Lunn, John E
Stitt, Mark
author_facet Annunziata, Maria Grazia
Apelt, Federico
Carillo, Petronia
Krause, Ursula
Feil, Regina
Koehl, Karin
Lunn, John E
Stitt, Mark
author_sort Annunziata, Maria Grazia
collection PubMed
description Plants are exposed to varying irradiance and temperature within a day and from day to day. We previously investigated metabolism in a temperature-controlled greenhouse at the spring equinox on both a cloudy and a sunny day [daily light integral (DLI) of 7 mol m(−2) d(−1) and 12 mol m(−2) d(−1)]. Diel metabolite profiles were largely captured in sinusoidal simulations at similar DLIs in controlled-environment chambers, except that amino acids were lower in natural light regimes. We now extend the DLI12 study by investigating metabolism in a natural light regime with variable temperature including cool nights. Starch was not completely turned over, anthocyanins and proline accumulated, and protein content rose. Instead of decreasing, amino acid content rose. Connectivity in central metabolism, which decreased in variable light, was not further weakened by variable temperature. We propose that diel metabolism operates better when light and temperature are co-varying. We also compared transcript abundance of 10 circadian clock genes in this temperature-variable regime with the temperature-controlled natural and sinusoidal light regimes. Despite temperature compensation, peak timing and abundance for dawn- and day-phased genes and GIGANTEA were slightly modified in the variable temperature treatment. This may delay dawn clock activity until the temperature rises enough to support rapid metabolism and photosynthesis.
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spelling pubmed-61379982018-09-24 Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment Annunziata, Maria Grazia Apelt, Federico Carillo, Petronia Krause, Ursula Feil, Regina Koehl, Karin Lunn, John E Stitt, Mark J Exp Bot Research Papers Plants are exposed to varying irradiance and temperature within a day and from day to day. We previously investigated metabolism in a temperature-controlled greenhouse at the spring equinox on both a cloudy and a sunny day [daily light integral (DLI) of 7 mol m(−2) d(−1) and 12 mol m(−2) d(−1)]. Diel metabolite profiles were largely captured in sinusoidal simulations at similar DLIs in controlled-environment chambers, except that amino acids were lower in natural light regimes. We now extend the DLI12 study by investigating metabolism in a natural light regime with variable temperature including cool nights. Starch was not completely turned over, anthocyanins and proline accumulated, and protein content rose. Instead of decreasing, amino acid content rose. Connectivity in central metabolism, which decreased in variable light, was not further weakened by variable temperature. We propose that diel metabolism operates better when light and temperature are co-varying. We also compared transcript abundance of 10 circadian clock genes in this temperature-variable regime with the temperature-controlled natural and sinusoidal light regimes. Despite temperature compensation, peak timing and abundance for dawn- and day-phased genes and GIGANTEA were slightly modified in the variable temperature treatment. This may delay dawn clock activity until the temperature rises enough to support rapid metabolism and photosynthesis. Oxford University Press 2018-09-14 2018-07-25 /pmc/articles/PMC6137998/ /pubmed/30053131 http://dx.doi.org/10.1093/jxb/ery276 Text en © The Author(s) 2018. Published by Oxford University Press on behalf of the Society for Experimental Biology. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Papers
Annunziata, Maria Grazia
Apelt, Federico
Carillo, Petronia
Krause, Ursula
Feil, Regina
Koehl, Karin
Lunn, John E
Stitt, Mark
Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
title Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
title_full Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
title_fullStr Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
title_full_unstemmed Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
title_short Response of Arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
title_sort response of arabidopsis primary metabolism and circadian clock to low night temperature in a natural light environment
topic Research Papers
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6137998/
https://www.ncbi.nlm.nih.gov/pubmed/30053131
http://dx.doi.org/10.1093/jxb/ery276
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