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Knocking Down of Isoprene Emission Modifies the Lipid Matrix of Thylakoid Membranes and Influences the Chloroplast Ultrastructure in Poplar.

Identifieur interne : 001C72 ( Main/Exploration ); précédent : 001C71; suivant : 001C73

Knocking Down of Isoprene Emission Modifies the Lipid Matrix of Thylakoid Membranes and Influences the Chloroplast Ultrastructure in Poplar.

Auteurs : Violeta Velikova [Allemagne] ; Constanze Müller [Allemagne] ; Andrea Ghirardo [Allemagne] ; Theresa Maria Rock [Allemagne] ; Michaela Aichler [Allemagne] ; Axel Walch [Allemagne] ; Philippe Schmitt-Kopplin [Allemagne] ; Jörg-Peter Schnitzler [Allemagne]

Source :

RBID : pubmed:25975835

Descripteurs français

English descriptors

Abstract

Isoprene is a small lipophilic molecule with important functions in plant protection against abiotic stresses. Here, we studied the lipid composition of thylakoid membranes and chloroplast ultrastructure in isoprene-emitting (IE) and nonisoprene-emitting (NE) poplar (Populus × canescens). We demonstrated that the total amount of monogalactosyldiacylglycerols, digalactosyldiacylglycerols, phospholipids, and fatty acids is reduced in chloroplasts when isoprene biosynthesis is blocked. A significantly lower amount of unsaturated fatty acids, particularly linolenic acid in NE chloroplasts, was associated with the reduced fluidity of thylakoid membranes, which in turn negatively affects photosystem II photochemical efficiency. The low photosystem II photochemical efficiency in NE plants was negatively correlated with nonphotochemical quenching and the energy-dependent component of nonphotochemical quenching. Transmission electron microscopy revealed alterations in the chloroplast ultrastructure in NE compared with IE plants. NE chloroplasts were more rounded and contained fewer grana stacks and longer stroma thylakoids, more plastoglobules, and larger associative zones between chloroplasts and mitochondria. These results strongly support the idea that in IE species, the function of this molecule is closely associated with the structural organization and functioning of plastidic membranes.

DOI: 10.1104/pp.15.00612
PubMed: 25975835
PubMed Central: PMC4741320


Affiliations:

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<term>Butadienes (metabolism)</term>
<term>Chlorophyll (metabolism)</term>
<term>Fatty Acids (metabolism)</term>
<term>Fluorescence (MeSH)</term>
<term>Gene Knockdown Techniques (MeSH)</term>
<term>Hemiterpenes (metabolism)</term>
<term>Least-Squares Analysis (MeSH)</term>
<term>Lipids (chemistry)</term>
<term>Malondialdehyde (metabolism)</term>
<term>Models, Biological (MeSH)</term>
<term>Multivariate Analysis (MeSH)</term>
<term>Oxidation-Reduction (MeSH)</term>
<term>Pentanes (metabolism)</term>
<term>Photosynthesis (MeSH)</term>
<term>Photosystem II Protein Complex (metabolism)</term>
<term>Plant Proteins (metabolism)</term>
<term>Populus (metabolism)</term>
<term>Populus (ultrastructure)</term>
<term>Thylakoids (metabolism)</term>
<term>Thylakoids (ultrastructure)</term>
</keywords>
<keywords scheme="KwdFr" xml:lang="fr">
<term>Acides gras (métabolisme)</term>
<term>Analyse multifactorielle (MeSH)</term>
<term>Butadiènes (métabolisme)</term>
<term>Chlorophylle (métabolisme)</term>
<term>Complexe protéique du photosystème II (métabolisme)</term>
<term>Fluorescence (MeSH)</term>
<term>Hémiterpènes (métabolisme)</term>
<term>Lipides (composition chimique)</term>
<term>Malonaldéhyde (métabolisme)</term>
<term>Modèles biologiques (MeSH)</term>
<term>Méthode des moindres carrés (MeSH)</term>
<term>Oxydoréduction (MeSH)</term>
<term>Pentanes (métabolisme)</term>
<term>Photosynthèse (MeSH)</term>
<term>Populus (métabolisme)</term>
<term>Populus (ultrastructure)</term>
<term>Protéines végétales (métabolisme)</term>
<term>Techniques de knock-down de gènes (MeSH)</term>
<term>Thylacoïdes (métabolisme)</term>
<term>Thylacoïdes (ultrastructure)</term>
</keywords>
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<term>Lipids</term>
</keywords>
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<term>Butadienes</term>
<term>Chlorophyll</term>
<term>Fatty Acids</term>
<term>Hemiterpenes</term>
<term>Malondialdehyde</term>
<term>Pentanes</term>
<term>Photosystem II Protein Complex</term>
<term>Plant Proteins</term>
</keywords>
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<term>Lipides</term>
</keywords>
<keywords scheme="MESH" qualifier="metabolism" xml:lang="en">
<term>Populus</term>
<term>Thylakoids</term>
</keywords>
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<term>Acides gras</term>
<term>Butadiènes</term>
<term>Chlorophylle</term>
<term>Complexe protéique du photosystème II</term>
<term>Hémiterpènes</term>
<term>Malonaldéhyde</term>
<term>Pentanes</term>
<term>Populus</term>
<term>Protéines végétales</term>
<term>Thylacoïdes</term>
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<term>Populus</term>
<term>Thylakoids</term>
</keywords>
<keywords scheme="MESH" xml:lang="en">
<term>Fluorescence</term>
<term>Gene Knockdown Techniques</term>
<term>Least-Squares Analysis</term>
<term>Models, Biological</term>
<term>Multivariate Analysis</term>
<term>Oxidation-Reduction</term>
<term>Photosynthesis</term>
</keywords>
<keywords scheme="MESH" qualifier="ultrastructure" xml:lang="fr">
<term>Analyse multifactorielle</term>
<term>Fluorescence</term>
<term>Modèles biologiques</term>
<term>Méthode des moindres carrés</term>
<term>Oxydoréduction</term>
<term>Photosynthèse</term>
<term>Populus</term>
<term>Techniques de knock-down de gènes</term>
<term>Thylacoïdes</term>
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<div type="abstract" xml:lang="en">Isoprene is a small lipophilic molecule with important functions in plant protection against abiotic stresses. Here, we studied the lipid composition of thylakoid membranes and chloroplast ultrastructure in isoprene-emitting (IE) and nonisoprene-emitting (NE) poplar (Populus × canescens). We demonstrated that the total amount of monogalactosyldiacylglycerols, digalactosyldiacylglycerols, phospholipids, and fatty acids is reduced in chloroplasts when isoprene biosynthesis is blocked. A significantly lower amount of unsaturated fatty acids, particularly linolenic acid in NE chloroplasts, was associated with the reduced fluidity of thylakoid membranes, which in turn negatively affects photosystem II photochemical efficiency. The low photosystem II photochemical efficiency in NE plants was negatively correlated with nonphotochemical quenching and the energy-dependent component of nonphotochemical quenching. Transmission electron microscopy revealed alterations in the chloroplast ultrastructure in NE compared with IE plants. NE chloroplasts were more rounded and contained fewer grana stacks and longer stroma thylakoids, more plastoglobules, and larger associative zones between chloroplasts and mitochondria. These results strongly support the idea that in IE species, the function of this molecule is closely associated with the structural organization and functioning of plastidic membranes. </div>
</front>
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<Month>04</Month>
<Day>05</Day>
</DateCompleted>
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<Year>2019</Year>
<Month>01</Month>
<Day>09</Day>
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<Volume>168</Volume>
<Issue>3</Issue>
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<Year>2015</Year>
<Month>Jul</Month>
</PubDate>
</JournalIssue>
<Title>Plant physiology</Title>
<ISOAbbreviation>Plant Physiol</ISOAbbreviation>
</Journal>
<ArticleTitle>Knocking Down of Isoprene Emission Modifies the Lipid Matrix of Thylakoid Membranes and Influences the Chloroplast Ultrastructure in Poplar.</ArticleTitle>
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<AbstractText>Isoprene is a small lipophilic molecule with important functions in plant protection against abiotic stresses. Here, we studied the lipid composition of thylakoid membranes and chloroplast ultrastructure in isoprene-emitting (IE) and nonisoprene-emitting (NE) poplar (Populus × canescens). We demonstrated that the total amount of monogalactosyldiacylglycerols, digalactosyldiacylglycerols, phospholipids, and fatty acids is reduced in chloroplasts when isoprene biosynthesis is blocked. A significantly lower amount of unsaturated fatty acids, particularly linolenic acid in NE chloroplasts, was associated with the reduced fluidity of thylakoid membranes, which in turn negatively affects photosystem II photochemical efficiency. The low photosystem II photochemical efficiency in NE plants was negatively correlated with nonphotochemical quenching and the energy-dependent component of nonphotochemical quenching. Transmission electron microscopy revealed alterations in the chloroplast ultrastructure in NE compared with IE plants. NE chloroplasts were more rounded and contained fewer grana stacks and longer stroma thylakoids, more plastoglobules, and larger associative zones between chloroplasts and mitochondria. These results strongly support the idea that in IE species, the function of this molecule is closely associated with the structural organization and functioning of plastidic membranes. </AbstractText>
<CopyrightInformation>© 2015 American Society of Plant Biologists. All Rights Reserved.</CopyrightInformation>
</Abstract>
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<Author ValidYN="Y">
<LastName>Velikova</LastName>
<ForeName>Violeta</ForeName>
<Initials>V</Initials>
<AffiliationInfo>
<Affiliation>Institute of Plant Physiology and Genetics, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria (V.V.); andResearch Unit Analytical BioGeoChemistry (C.M., T.M.R., P.S.-K.), Research Unit Environmental Simulation, Institute of Biochemical Plant Pathology (V.V., A.G., J.-P.S.), and Research Unit Analytical Pathology (M.A., A.W.), Helmholtz Zentrum München, 85764 Neuherberg, Germany.</Affiliation>
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<LastName>Müller</LastName>
<ForeName>Constanze</ForeName>
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<Affiliation>Institute of Plant Physiology and Genetics, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria (V.V.); andResearch Unit Analytical BioGeoChemistry (C.M., T.M.R., P.S.-K.), Research Unit Environmental Simulation, Institute of Biochemical Plant Pathology (V.V., A.G., J.-P.S.), and Research Unit Analytical Pathology (M.A., A.W.), Helmholtz Zentrum München, 85764 Neuherberg, Germany.</Affiliation>
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<ForeName>Andrea</ForeName>
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<LastName>Rock</LastName>
<ForeName>Theresa Maria</ForeName>
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<LastName>Aichler</LastName>
<ForeName>Michaela</ForeName>
<Initials>M</Initials>
<AffiliationInfo>
<Affiliation>Institute of Plant Physiology and Genetics, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria (V.V.); andResearch Unit Analytical BioGeoChemistry (C.M., T.M.R., P.S.-K.), Research Unit Environmental Simulation, Institute of Biochemical Plant Pathology (V.V., A.G., J.-P.S.), and Research Unit Analytical Pathology (M.A., A.W.), Helmholtz Zentrum München, 85764 Neuherberg, Germany.</Affiliation>
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<ForeName>Axel</ForeName>
<Initials>A</Initials>
<AffiliationInfo>
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<ForeName>Philippe</ForeName>
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<AffiliationInfo>
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<LastName>Schnitzler</LastName>
<ForeName>Jörg-Peter</ForeName>
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<AffiliationInfo>
<Affiliation>Institute of Plant Physiology and Genetics, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria (V.V.); andResearch Unit Analytical BioGeoChemistry (C.M., T.M.R., P.S.-K.), Research Unit Environmental Simulation, Institute of Biochemical Plant Pathology (V.V., A.G., J.-P.S.), and Research Unit Analytical Pathology (M.A., A.W.), Helmholtz Zentrum München, 85764 Neuherberg, Germany jp.schnitzler@helmholtz-muenchen.de.</Affiliation>
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<Month>05</Month>
<Day>14</Day>
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