A sucrose transporter‐interacting protein disulphide isomerase affects redox homeostasis and links sucrose partitioning with abiotic stress tolerance |
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| Authors: | Erik Eggert Toshihiro Obata Anne Gerstenberger Konstanze Gier Tobias Brandt Alisdair R Fernie Waltraud Schulze Christina Kühn |
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| Affiliation: | 1. Humboldt University, Institute of Biology, Department of Plant Physiology, Berlin, Germany;2. MPI Molecular Plant Physiology, Potsdam‐Golm, Germany;3. University Hohenheim, Department of Plant Systems Biology, Stuttgart, Germany |
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| Abstract: | Sucrose accumulation in leaves in response to various abiotic stresses suggests a specific role of this disaccharide for stress tolerance and adaptation. The high‐affinity transporter StSUT1 undergoes substrate‐induced endocytosis presenting the question as to whether altered sucrose accumulation in leaves in response to stresses is also related to enhanced endocytosis or altered activity of the sucrose transporter. StSUT1 is known to interact with several stress‐inducible proteins; here we investigated whether one of the interacting candidates, StPDI1, affects its subcellular localization in response to stress: StPDI1 expression is induced by ER‐stress and salt. Both proteins, StSUT1 and StPDI1, were found in the detergent resistant membrane (DRM) fraction, and this might affect internalization. Knockdown of StPDI1 expression severely affects abiotic stress tolerance of transgenic potato plants. Analysis of these plants does not reveal modified subcellular localization or endocytosis of StSUT1, but rather a disturbed redox homeostasis, reduced detoxification of reactive oxygen species and effects on primary metabolism. Parallel observations with other StSUT1‐interacting proteins are discussed. The redox status in leaves seems to be linked to the sugar status in response to various stress stimuli and to play a role in stress tolerance. |
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| Keywords: | abiotic stress membrane microdomains redox metabolites ROS detoxification sucrose transport |
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