
무인산 조건에서 OsPTs 유전자 도입 형질전환벼의 인산흡수 반응
Expression of OsPTs-OX Transgenic Rice in Phosphate-Deficient Condition
- 송송이(Songyi Song) 이기환(Gihwan Yi) 박동수(Dong-Soo Park) 서종호(Jong-Ho Seo) 손범영(Beom-Young Son) 김도훈(Do-Hoon Kim) 남민희(Min-Hee Nam)
- 한국작물학회
- 한국작물학회지
- 제56권 제3호
- 등재여부 : KCI등재
- 2011.09
- 264 - 272 (9 pages)
It needs to develop high phosphate-available rice that is able to minimize environmental pollution caused by phosphate fertilizer. Then we have transformed 4 rice transporter genes, OsPT(Oryza sativa Phosphate Transporter)1, OsPT4, OsPT7 or OsPT8, to rice (Oryza sativa cv. Dongjin) via Agrobacterium-mediated transformation. We tested adaptation in the P-deficient condition of Dongjin (parental) and each transgenic line in the pot and the field conditions. Definite physiological changes have been observed in OsPTs transgenic lines including culm length, root formation and heading date. Phosphate uptake at harvesting stage was about three times higher in OsPT1-OX (overexpression) and OsPT4-OX than in Dongjin (wt) without P application. There are no variations in total phosphate-content of brown rice of OsPT1-OX in spite of high phosphate uptake. Practically the expression of OsPT1 has contributed to stabilize grain production without P fertilization in rice cultivation than Dongjin.
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