Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming

Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming

<p>Abstract</p> <p>Background</p> <p>Plant performance is affected by the level of expression of PsbS, a key photoprotective protein involved in the process of feedback de-excitation (FDE), or the qE component of non-photochemical quenching, NPQ.</p> <p>Resu...

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Main Authors: Moritz Thomas, Bassi Roberto, Ågren Jon, Dall'Osto Luca, Skogström Oskar, Jänkänpää Hanna, Külheim Carsten, Frenkel Martin, Moen Jon, Jansson Stefan
Format: Article
Language:English
Published: BMC 2009-01-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/9/12
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spelling doaj-bc01bbdbca444fc5899c8fdea25fdee42020-11-24T21:28:04ZengBMCBMC Plant Biology1471-22292009-01-01911210.1186/1471-2229-9-12Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogrammingMoritz ThomasBassi RobertoÅgren JonDall'Osto LucaSkogström OskarJänkänpää HannaKülheim CarstenFrenkel MartinMoen JonJansson Stefan<p>Abstract</p> <p>Background</p> <p>Plant performance is affected by the level of expression of PsbS, a key photoprotective protein involved in the process of feedback de-excitation (FDE), or the qE component of non-photochemical quenching, NPQ.</p> <p>Results</p> <p>In studies presented here, under constant laboratory conditions the metabolite profiles of leaves of wild-type <it>Arabidopsis thaliana </it>and plants lacking or overexpressing PsbS were very similar, but under natural conditions their differences in levels of PsbS expression were associated with major changes in metabolite profiles. Some carbohydrates and amino acids differed ten-fold in abundance between PsbS-lacking mutants and over-expressers, with wild-type plants having intermediate amounts, showing that a metabolic shift had occurred. The transcriptomes of the genotypes also varied under field conditions, and the genes induced in plants lacking PsbS were similar to those reportedly induced in plants exposed to ozone stress or treated with methyl jasmonate (MeJA). Genes involved in the biosynthesis of JA were up-regulated, and enzymes involved in this pathway accumulated. JA levels in the undamaged leaves of field-grown plants did not differ between wild-type and PsbS-lacking mutants, but they were higher in the mutants when they were exposed to herbivory.</p> <p>Conclusion</p> <p>These findings suggest that lack of FDE results in increased photooxidative stress in the chloroplasts of <it>Arabidopsis </it>plants grown in the field, which elicits a response at the transcriptome level, causing a redirection of metabolism from growth towards defence that resembles a MeJA/JA response.</p> http://www.biomedcentral.com/1471-2229/9/12
collection DOAJ
language English
format Article
sources DOAJ
author Moritz Thomas
Bassi Roberto
Ågren Jon
Dall'Osto Luca
Skogström Oskar
Jänkänpää Hanna
Külheim Carsten
Frenkel Martin
Moen Jon
Jansson Stefan
spellingShingle Moritz Thomas
Bassi Roberto
Ågren Jon
Dall'Osto Luca
Skogström Oskar
Jänkänpää Hanna
Külheim Carsten
Frenkel Martin
Moen Jon
Jansson Stefan
Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming
BMC Plant Biology
author_facet Moritz Thomas
Bassi Roberto
Ågren Jon
Dall'Osto Luca
Skogström Oskar
Jänkänpää Hanna
Külheim Carsten
Frenkel Martin
Moen Jon
Jansson Stefan
author_sort Moritz Thomas
title Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming
title_short Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming
title_full Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming
title_fullStr Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming
title_full_unstemmed Improper excess light energy dissipation in <it>Arabidopsis </it>results in a metabolic reprogramming
title_sort improper excess light energy dissipation in <it>arabidopsis </it>results in a metabolic reprogramming
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2009-01-01
description <p>Abstract</p> <p>Background</p> <p>Plant performance is affected by the level of expression of PsbS, a key photoprotective protein involved in the process of feedback de-excitation (FDE), or the qE component of non-photochemical quenching, NPQ.</p> <p>Results</p> <p>In studies presented here, under constant laboratory conditions the metabolite profiles of leaves of wild-type <it>Arabidopsis thaliana </it>and plants lacking or overexpressing PsbS were very similar, but under natural conditions their differences in levels of PsbS expression were associated with major changes in metabolite profiles. Some carbohydrates and amino acids differed ten-fold in abundance between PsbS-lacking mutants and over-expressers, with wild-type plants having intermediate amounts, showing that a metabolic shift had occurred. The transcriptomes of the genotypes also varied under field conditions, and the genes induced in plants lacking PsbS were similar to those reportedly induced in plants exposed to ozone stress or treated with methyl jasmonate (MeJA). Genes involved in the biosynthesis of JA were up-regulated, and enzymes involved in this pathway accumulated. JA levels in the undamaged leaves of field-grown plants did not differ between wild-type and PsbS-lacking mutants, but they were higher in the mutants when they were exposed to herbivory.</p> <p>Conclusion</p> <p>These findings suggest that lack of FDE results in increased photooxidative stress in the chloroplasts of <it>Arabidopsis </it>plants grown in the field, which elicits a response at the transcriptome level, causing a redirection of metabolism from growth towards defence that resembles a MeJA/JA response.</p>
url http://www.biomedcentral.com/1471-2229/9/12
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