Highly efficient visual selection of transgenic rice plants using green fluorescent protein or anthocyanin synthetic genes
スポンサーリンク
概要
- 論文の詳細を見る
Visual selection enables transformation in plants that are sensitive to the stress of antibiotic selection. Furthermore, we proposed a method of isolating transformed cells in which the gene of interest is expressed at high level using visual selection. However, visual selection was inefficient and laborious because of the technical difficulties involved in clonal propagation of transformed calli selected using GFP (9.4–20.5% in the model japonica rice variety Nipponbare in our previous report). Very recently, we have discovered that an indica model cultivar, Kasalath, is very highly competent for Agrobacterium-mediated transformation compared to Nipponbare, suggesting that visual selection would be achieved more efficiently in Kasalath than in Nipponbare. We confirmed that the number of transformed cells emitting green fluorescence in Agrobacterium co-cultivated callus of Kasalath under no antibiotic pressure was >50-fold higher than the number obtained in Nipponbare. We succeeded in clonal propagation of GFP emitting cells at a frequency of 62.2–85% in Kasalath. Moreover, we showed that anthocyanin, that is an intrinsic pigmentation and thus might be more acceptable to consumers, can be used as an intrinsic marker in visual selection of rice. Thus, we propose that combination of the use of cultivar which has high transformation competency and visual selection system could enhance efficient production of transgenic rice expressing foreign gene product at higher level.
- 2011-03-25
著者
-
Saika Hiroaki
Plant Genetic Engineering Research Unit, National Institute of Agrobiological Sciences
-
Sakamoto Wataru
Institute of Plant Science and Resources, Okayama University
-
Toki Seiichi
Plant Genetic Engineering Research Unit, National Institute of Agrobiological Sciences
-
Maekawa Masahiko
Institute Of Plant Science And Resources Okayama University
-
Saika Hiroaki
Plant Genetic Engineering Research Unit National Institute Of Agrobiological Sciences
-
Sakamoto Wataru
Institute Of Plant Science And Resources Okayama University
-
Toki Seiichi
Plant Genetic Engineering Research Unit National Institute Of Agrobiological Sciences
-
Sakamoto Wataru
Institute Of Plant Science And Resources (ipsr) Okayama University
関連論文
- Highly efficient visual selection of transgenic rice plants using green fluorescent protein or anthocyanin synthetic genes
- Transgenic note: Highly efficient visual selection of transgenic rice plants using green fluorescent protein or anthocyanin synthetic genes
- A Rapid, Direct Observation Method to Isolate Mutants with Defects in Starch Grain Morphology in Rice
- Examination of transpositional activity of nDart1 at different stages of rice development
- Highly efficient visual selection of transgenic rice plants using green fluorescent protein or anthocyanin synthetic genes
- Examination of transpositional activity of nDart1 at different stages of rice development
- Variegated Tobacco Leaves Generated by Chloroplast FtsH Suppression : Implication of FtsH Function in the Maintenance of Thylakoid Membranes
- Activation and Epigenetic Regulation of DNA Transposon nDart1 in Rice
- Sequential Monitoring of Transgene Expression Following Agrobacterium-Mediated Transformation of Rice
- Overexpression of OsRecQI4 and/or OsExo1 Enhances DSB-Induced Homologous Recombination in Rice
- A Phylogenetic Re-evaluation of Morphological Variations of Starch Grains among Poaceae Species
- Two WUSCHEL-related homeobox Genes, narrow leaf2 and narrow leaf3, Control Leaf Width in Rice