Arabidopsis sos1 mutant in a salt-tolerant accession revealed an importance of salt acclimation ability in plant salt tolerance |
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| Authors: | Hirotaka Ariga Taku Katori Ryouhei Yoshihara Yoshihiro Hase Shigeki Nozawa Issay Narumi Satoshi Iuchi Masatomo Kobayashi Kenji Tezuka Yoichi Sakata Takahisa Hayashi Teruaki Taji |
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| Institution: | 1.Department of Bio-Science; Tokyo University of Agriculture; Setagaya, Tokyo, Japan;2.Ion Beam Mutagenesis Research Group; Quantum Beam Science Directorate; Japan Atomic Energy Agency; Gunma, Japan;3.RIKEN BioResource Center; Ibaraki, Japan |
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| Abstract: | An analysis of the salinity tolerance of 354 Arabidopsis thaliana accessions showed that some accessions were more tolerant to salt shock than the reference accession, Col-0, when transferred from 0 to 225 mM NaCl. In addition, several accessions, including Zu-0, showed marked acquired salt tolerance after exposure to moderate salt stress. It is likely therefore that Arabidopsis plants have at least two types of tolerance, salt shock tolerance and acquired salt tolerance. To evaluate a role of well-known salt shock tolerant gene SOS1 in acquired salt tolerance, we isolated a sos1 mutant from ion-beam-mutagenized Zu-0 seedlings. The mutant showed severe growth inhibition under salt shock stress owing to a single base deletion in the SOS1 gene and was even more salt sensitive than Col-0. Nevertheless, it was able to survive after acclimation on 100 mM NaCl for 7 d followed by 750 mM sorbitol for 20 d, whereas Col-0 became chlorotic under the same conditions. We propose that genes for salt acclimation ability are different from genes for salt shock tolerance and play an important role in the acquisition of salt or osmotic tolerance. |
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| Keywords: | salt tolerance Arabidopsis natural variation salt acclimation |
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