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http://dx.doi.org/10.5010/JPB.2010.37.4.483

Expression analysis and characterization of rice oligopeptide transport gene (OsOPT10) that contributes to salt stress tolerance  

Jung, Yu-Jin (Institute of Genetic Engineering, Hankyong National University)
Lee, In-Hye (Department of Horticulture, Hankyong National University)
Han, Kyung-Hee (Department of Horticulture, Hankyong National University)
Son, Cho-Yee (Department of Horticulture, Hankyong National University)
Cho, Yong-Gu (Department of Crop Science, Chungbuk National University)
Lee, Myung-Chul (National Agrobiodiversity Center, National Academy of Agricultural Science, RDA)
Kang, Kwon-Kyoo (Institute of Genetic Engineering, Hankyong National University)
Publication Information
Journal of Plant Biotechnology / v.37, no.4, 2010 , pp. 483-493 More about this Journal
Abstract
Knock-out of a gene by insertional mutagenesis is a direct way to address its function through the mutant phenotype. Among ca. 15,000 gene-trapped Ds insertion lines of rice, we identified one line from selected sensitive lines in highly salt stress. We conducted gene tagging by TAIL-PCR, and DNA gel blot analysis from salt sensitive mutant. A gene encoding an oligopeptide transporter (OPT family) homologue was disrupted by the insertion of a Ds transposon into the OsOPT10 gene that was located shot arm of chromosome 8. The OsOPT10 gene (NP_001062118.) has 6 exons and encodes a protein (752 aa) containing the OPT family domain. RT-PCR analysis showed that the expression of OsOPT10 gene was rapidly and strongly induced by stresses such as high-salinity (250 mM), osmotic, drought, $100\;{\mu}M$ ABA. The subcellular localization assay indicated that OsOPT10 was localized specifically in the plasma membrane. Overexpression of OsOPT10 in Arabidopsis thaliana and rice conferred tolerance of transgenic plants to salt stress. Further we found expression levels of some stress related genes were inhibited in OsOPT10 transgenic plants. These results suggested that OsOPT10 might play crucial but differential roles in plant responses to various abiotic stresses.
Keywords
Arabidopsis; Ds insertion mutant; GFP; OPT family; rice; salt stress; transgenic plant;
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