Time course study of aluminum-induced callose formation in barley roots as observed by digital microscopy and low-vacuum scanning electron microscopy |
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| Authors: | Maiko Kaneko Etsuro Yoshimura Naoko K Nishizawa Satoshi Mori |
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| Institution: | 1. Laboratory of Plant Molecular Physiology, Department of Applied Biological Chemistry , Japan Science and Technology Corporation (JST) , Tsukuba , 305-0047 , Japan;2. Laboratory of Plant Biotechnology, Department of Global Agricultural Sciences , The University of Tokyo , Bunkyo-ku , Tokyo , 113-8657 , Japan;3. Laboratory of Plant Molecular Physiology, Department of Applied Biological Chemistry , Japan Science and Technology Corporation (JST) , Tsukuba , 305-0047 , Japan;4. CREST, Japan Science and Technology Corporation (JST), Tsukuba , 305-0047 , Japan |
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| Abstract: | To clarify the mechanism(s) involved in the short-term inhibition of root elongation by AI, we monitored the morphological changes of barley roots by digital microscopy. Within 30 min after exposure to 37 µM AI, the surface of the root epidermis in the region of a distance of 1.5 mm from the root tip became rough and began to show signs of damage. After 38 min, callose was rapidly excreted from the junction between the root cap and the root epidermis, and formed a spherical lump approximately 60 µm in diameter. The fine structure of the callose deposits on the root surface was analyzed by low-vacuum scanning electron microscopy. After 50 min, there was a significant increase in the callose contents in the distal 0.6 mm part. At the same time, root elongation stopped completely. Fluorescence staining indicated that callose was localized on the surface of the cell elongation area (the elongation zone of primary roots and root hairs), but not on the surface of the meristem. The root growth reduction associated with AI treatment may be due to the use of sugar substrates for callose formation instead of cellulose formation. |
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| Keywords: | aluminum barley callose digital microscopy LV SEM |
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