Expression of Arabidopsis thaliana SIK (Stress Inducible Kinase) Gene in a Potato Cultivar (Solanum tuberosum L. 'Taedong Valley')

  • Yoon Jung-Ha (Department of Plant Biotechnology, Kangwon National University) ;
  • Fang Yi-Lan (Department of Plant Biotechnology, Kangwon National University) ;
  • Park Eung-Jun (Department of Plant Biotechnology, Kangwon National University) ;
  • Kim Hye-Jin (Department of Plant Biotechnology, Kangwon National University) ;
  • Na Yun-Jeong (Genomine Co., Ltd.) ;
  • Lee Dong-Hee (Genomine Co., Ltd.) ;
  • Yang Deok-Chun (Department of Oriental medicinal materials and processing, KyungHee University) ;
  • Lim Hak-Tae (Department of Oriental medicinal materials and processing, KyungHee University)
  • 발행 : 2005.12.01

초록

Osmotic stress is one of major limiting factors in crop production. In particular, seasonal drought often causes the secondary disease in the field, resulting in severe reduction in both quality and productivity. Recent efforts have revealed that many genes encoding protein kinases play important roles in osmotic stress signal transduction pathways. Previously, the AtSIK (Arabidopsis thaliana Stress Inducible Kinase) mutants have shown to enhance tolerance to abiotic stresses, accompanying with higher expression of abiotic stress-related genes than did the wild-type plants. In this study, we have transformed potato (cv. Taedong Valley) with the AtSIK expression cassette. Both PCR and RT-PCR using AtSIK-specific primers showed stable integration and expression of the AtSIK gene in individual transgenic lines, respectively. Foliar application of herbicide ($Basta^{(R)}$) at commercial application rate (0.3% (v/v)) revealed another evidence of stable gene introduction of T-DNA which includes the bar gene for herbicide resistance. Overexpression of the AtSIK gene under dual CaMV35S promoter increased sensitivity to salt stress (300 mM NaCl), which was demonstrated by the reduction rate of chlorophyll contents in leaves of transgenic potato lines. These results suggest that possible increase of osmotic tolerance in potato plants may be achieved by antisense expression of AtSIK gene.

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