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Changes in sulphur metabolism of grey poplar (Populus x canescens) leaves during salt stress: a metabolic link to photorespiration.

Identifieur interne : 003350 ( Main/Exploration ); précédent : 003349; suivant : 003351

Changes in sulphur metabolism of grey poplar (Populus x canescens) leaves during salt stress: a metabolic link to photorespiration.

Auteurs : Cornelia Herschbach [Allemagne] ; Markus Teuber ; Monika Eiblmeier ; Barbara Ehlting ; Peter Ache ; Andrea Polle ; Jörg-Peter Schnitzler ; Heinz Rennenberg

Source :

RBID : pubmed:20516486

Descripteurs français

English descriptors

Abstract

The poplar hybrid Populus x canescens (syn. Populus tremula x Populus alba) was subjected to salt stress by applying 75 mM NaCl for 2 weeks in hydroponic cultures. Decreasing maximum quantum yield (Fv/Fm) indicated damage of photosystem II (PS II), which was more pronounced under nitrate compared with ammonium nutrition. In vivo staining with diaminobenzidine showed no accumulation of H(2)O(2) in the leaf lamina; moreover, staining intensity even decreased. But at the leaf margins, development of necrotic tissue was associated with a strong accumulation of H(2)O(2). Glutathione (GSH) contents increased in response to NaCl stress in leaves but not in roots, the primary site of salt exposure. The increasing leaf GSH concentrations correlated with stress-induced decreases in transpiration and net CO(2) assimilation rates at light saturation. Enhanced rates of photorespiration could also be involved in preventing reactive oxygen species formation in chloroplasts and, thus, in protecting PS II from damage. Accumulation of Gly and Ser in leaves indeed indicates increasing rates of photorespiration. Since Ser and Gly are both immediate precursors of GSH that can limit GSH synthesis, it is concluded that the salt-induced accumulation of leaf GSH results from enhanced photorespiration and is thus probably restricted to the cytosol.

DOI: 10.1093/treephys/tpq041
PubMed: 20516486


Affiliations:

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Le document en format XML

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<term>Chlorophyll (metabolism)</term>
<term>Glycine (metabolism)</term>
<term>Nitrates (MeSH)</term>
<term>Photosynthesis (physiology)</term>
<term>Plant Leaves (metabolism)</term>
<term>Populus (drug effects)</term>
<term>Populus (metabolism)</term>
<term>Serine (metabolism)</term>
<term>Sodium Chloride (toxicity)</term>
<term>Stress, Physiological (drug effects)</term>
<term>Stress, Physiological (physiology)</term>
<term>Sulfur (metabolism)</term>
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<term>Adaptation physiologique (MeSH)</term>
<term>Ammoniac (MeSH)</term>
<term>Chlorophylle (métabolisme)</term>
<term>Chlorure de sodium (toxicité)</term>
<term>Feuilles de plante (métabolisme)</term>
<term>Glycine (métabolisme)</term>
<term>Nitrates (MeSH)</term>
<term>Photosynthèse (physiologie)</term>
<term>Populus (effets des médicaments et des substances chimiques)</term>
<term>Populus (métabolisme)</term>
<term>Soufre (métabolisme)</term>
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<term>Glycine</term>
<term>Serine</term>
<term>Sulfur</term>
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<term>Sodium Chloride</term>
</keywords>
<keywords scheme="MESH" type="chemical" xml:lang="en">
<term>Ammonia</term>
<term>Nitrates</term>
</keywords>
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<term>Populus</term>
<term>Stress, Physiological</term>
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<term>Feuilles de plante</term>
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<term>Sérine</term>
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<div type="abstract" xml:lang="en">The poplar hybrid Populus x canescens (syn. Populus tremula x Populus alba) was subjected to salt stress by applying 75 mM NaCl for 2 weeks in hydroponic cultures. Decreasing maximum quantum yield (Fv/Fm) indicated damage of photosystem II (PS II), which was more pronounced under nitrate compared with ammonium nutrition. In vivo staining with diaminobenzidine showed no accumulation of H(2)O(2) in the leaf lamina; moreover, staining intensity even decreased. But at the leaf margins, development of necrotic tissue was associated with a strong accumulation of H(2)O(2). Glutathione (GSH) contents increased in response to NaCl stress in leaves but not in roots, the primary site of salt exposure. The increasing leaf GSH concentrations correlated with stress-induced decreases in transpiration and net CO(2) assimilation rates at light saturation. Enhanced rates of photorespiration could also be involved in preventing reactive oxygen species formation in chloroplasts and, thus, in protecting PS II from damage. Accumulation of Gly and Ser in leaves indeed indicates increasing rates of photorespiration. Since Ser and Gly are both immediate precursors of GSH that can limit GSH synthesis, it is concluded that the salt-induced accumulation of leaf GSH results from enhanced photorespiration and is thus probably restricted to the cytosol.</div>
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