Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress

Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress

<p>Abstract</p> <p>Background</p> <p>Vitamin B6 is a collective term for a group of six interconvertible compounds: pyridoxine, pyridoxal, pyridoxamine and their phosphorylated derivatives. Vitamin B6 plays essential roles as a cofactor in a range of biochemical reactio...

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Main Authors: Rumeau Dominique, Szewczyk Agnieszka, Ksas Brigitte, Havaux Michel, Franck Fabrice, Caffarri Stefano, Triantaphylidès Christian
Format: Article
Language:English
Published: BMC 2009-11-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/9/130
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spelling doaj-723263dbae9c4da794dd4ee661d7a4ce2020-11-25T00:52:16ZengBMCBMC Plant Biology1471-22292009-11-019113010.1186/1471-2229-9-130Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stressRumeau DominiqueSzewczyk AgnieszkaKsas BrigitteHavaux MichelFranck FabriceCaffarri StefanoTriantaphylidès Christian<p>Abstract</p> <p>Background</p> <p>Vitamin B6 is a collective term for a group of six interconvertible compounds: pyridoxine, pyridoxal, pyridoxamine and their phosphorylated derivatives. Vitamin B6 plays essential roles as a cofactor in a range of biochemical reactions. In addition, vitamin B6 is able to quench reactive oxygen species <it>in vitro</it>, and exogenously applied vitamin B6 protects plant cells against cell death induced by singlet oxygen (<sup>1</sup>O<sub>2</sub>). These results raise the important question as to whether plants employ vitamin B6 as an antioxidant to protect themselves against reactive oxygen species.</p> <p>Results</p> <p>The <it>pdx1.3 </it>mutation affects the vitamin B6 biosynthesis enzyme, pyridoxal synthase (PDX1), and leads to a reduction of the vitamin B6 concentration in <it>Arabidopsis thaliana </it>leaves. Although leaves of the <it>pdx1.3 Arabidopsis </it>mutant contained less chlorophyll than wild-type leaves, we found that vitamin B6 deficiency did not significantly impact photosynthetic performance or shoot and root growth. Chlorophyll loss was associated with an increase in the chlorophyll <it>a</it>/<it>b </it>ratio and a selective decrease in the abundance of several PSII antenna proteins (Lhcb1/2, Lhcb6). These changes were strongly dependent on light intensity, with high light amplifying the difference between <it>pdx1.3 </it>and the wild type. When leaf discs were exposed to exogenous <sup>1</sup>O<sub>2</sub>, lipid peroxidation in <it>pdx1.3 </it>was increased relative to the wild type; this effect was not observed with superoxide or hydrogen peroxide. When leaf discs or whole plants were exposed to excess light energy, <sup>1</sup>O<sub>2</sub>-mediated lipid peroxidation was enhanced in leaves of the <it>pdx1.3 </it>mutant relative to the wild type. High light also caused an increased level of <sup>1</sup>O<sub>2 </sub>in vitamin B6-deficient leaves. Combining the <it>pdx1.3 </it>mutation with mutations affecting the level of 'classical' quenchers of <sup>1</sup>O<sub>2 </sub>(zeaxanthin, tocopherols) resulted in a highly photosensitive phenotype.</p> <p>Conclusion</p> <p>This study demonstrates that vitamin B6 has a function in the <it>in vivo </it>antioxidant defense of plants. Thus, the antioxidant activity of vitamin B6 inferred from <it>in vitro </it>studies is confirmed <it>in planta</it>. Together with the finding that chloroplasts contain vitamin B6 compounds, the data show that vitamin B6 functions as a photoprotector that limits <sup>1</sup>O<sub>2 </sub>accumulation in high light and prevents <sup>1</sup>O<sub>2</sub>-mediated oxidative damage.</p> http://www.biomedcentral.com/1471-2229/9/130
collection DOAJ
language English
format Article
sources DOAJ
author Rumeau Dominique
Szewczyk Agnieszka
Ksas Brigitte
Havaux Michel
Franck Fabrice
Caffarri Stefano
Triantaphylidès Christian
spellingShingle Rumeau Dominique
Szewczyk Agnieszka
Ksas Brigitte
Havaux Michel
Franck Fabrice
Caffarri Stefano
Triantaphylidès Christian
Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress
BMC Plant Biology
author_facet Rumeau Dominique
Szewczyk Agnieszka
Ksas Brigitte
Havaux Michel
Franck Fabrice
Caffarri Stefano
Triantaphylidès Christian
author_sort Rumeau Dominique
title Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress
title_short Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress
title_full Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress
title_fullStr Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress
title_full_unstemmed Vitamin B6 deficient plants display increased sensitivity to high light and photo-oxidative stress
title_sort vitamin b6 deficient plants display increased sensitivity to high light and photo-oxidative stress
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2009-11-01
description <p>Abstract</p> <p>Background</p> <p>Vitamin B6 is a collective term for a group of six interconvertible compounds: pyridoxine, pyridoxal, pyridoxamine and their phosphorylated derivatives. Vitamin B6 plays essential roles as a cofactor in a range of biochemical reactions. In addition, vitamin B6 is able to quench reactive oxygen species <it>in vitro</it>, and exogenously applied vitamin B6 protects plant cells against cell death induced by singlet oxygen (<sup>1</sup>O<sub>2</sub>). These results raise the important question as to whether plants employ vitamin B6 as an antioxidant to protect themselves against reactive oxygen species.</p> <p>Results</p> <p>The <it>pdx1.3 </it>mutation affects the vitamin B6 biosynthesis enzyme, pyridoxal synthase (PDX1), and leads to a reduction of the vitamin B6 concentration in <it>Arabidopsis thaliana </it>leaves. Although leaves of the <it>pdx1.3 Arabidopsis </it>mutant contained less chlorophyll than wild-type leaves, we found that vitamin B6 deficiency did not significantly impact photosynthetic performance or shoot and root growth. Chlorophyll loss was associated with an increase in the chlorophyll <it>a</it>/<it>b </it>ratio and a selective decrease in the abundance of several PSII antenna proteins (Lhcb1/2, Lhcb6). These changes were strongly dependent on light intensity, with high light amplifying the difference between <it>pdx1.3 </it>and the wild type. When leaf discs were exposed to exogenous <sup>1</sup>O<sub>2</sub>, lipid peroxidation in <it>pdx1.3 </it>was increased relative to the wild type; this effect was not observed with superoxide or hydrogen peroxide. When leaf discs or whole plants were exposed to excess light energy, <sup>1</sup>O<sub>2</sub>-mediated lipid peroxidation was enhanced in leaves of the <it>pdx1.3 </it>mutant relative to the wild type. High light also caused an increased level of <sup>1</sup>O<sub>2 </sub>in vitamin B6-deficient leaves. Combining the <it>pdx1.3 </it>mutation with mutations affecting the level of 'classical' quenchers of <sup>1</sup>O<sub>2 </sub>(zeaxanthin, tocopherols) resulted in a highly photosensitive phenotype.</p> <p>Conclusion</p> <p>This study demonstrates that vitamin B6 has a function in the <it>in vivo </it>antioxidant defense of plants. Thus, the antioxidant activity of vitamin B6 inferred from <it>in vitro </it>studies is confirmed <it>in planta</it>. Together with the finding that chloroplasts contain vitamin B6 compounds, the data show that vitamin B6 functions as a photoprotector that limits <sup>1</sup>O<sub>2 </sub>accumulation in high light and prevents <sup>1</sup>O<sub>2</sub>-mediated oxidative damage.</p>
url http://www.biomedcentral.com/1471-2229/9/130
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