Co-Expression of Soybean Glycinins A1aB1b and A3B4 Enhances Their Accumulation Levels in Transgenic Rice Seed
スポンサーリンク
概要
著者
-
Takaiwa Fumio
Transgenic Crop Res. And Dev. Center National Inst. Of Agrobiological Sciences
-
Choi Seon-kang
Laboratory Of Applied Molecular Design Marine Biotechnology Institute
-
Sakuta Chiyoko
Transgenic Croup Research And Development Center National Institute Of Agrobiological Sciences
-
Utsumi Shigeru
Laboratory Of Food Quality Design And Development Division Of Agronomy And Horticultural Science Gra
-
Tada Yoshifumi
Transgenic Croup Research And Development Center National Institute Of Agrobiological Sciences
-
Choi Seon‐kang
Laboratory Of Food Quality Design And Development Graduate School Of Agriculture Kyoto University
-
Motoyama Takayasu
Laboratory Of Food Quality Design And Development Graduate School Of Agriculture Kyoto University
関連論文
- Production of Ascaris suum As14 Protein and Its Fusion Protein with Cholera Toxin B Subunit in Rice Seeds
- Soybean Glycinin A1aB1b Subunit Has a Molecular Chaperone-like Function to Assist Folding of the Other Subunit Having Low Folding Ability
- Improved Bile Acid-binding Ability of Soybean Glycinin A1a Polypeptide by the Introduction of a Bile Acid-binding Peptide (VAWWMY)
- Identification of the Bile Acid-binding Region in the Soy Glycinin A1aB1b Subunit(Food & Nutrition Science)
- Higher-level accumulation of foreign gene products in transgenic rice seeds by the callus-specific selection system(PLANT BIOTECHNOLOGY)
- Characterization of β-Carotene Ketolases, CrtW, from Marine Bacteria by Complementation Analysis in Escherichia coli
- Gelling Properties of Soybean β-Conglycinin Having Different Subunit Compositions
- Increased Lysine Content in Rice Grains by Over-Accumulation of BiP in the Endosperm
- Soybean Basic 7S Globulin : Subunit Heterogeneity and Molecular Evolution
- Vacuolar Sorting Behaviors of 11S Globulins in Plant Cells
- Overexpression of BiP has Inhibitory Effects on the Accumulation of Seed Storage Proteins in Endosperm Cells of Rice
- Physicochemical and Functional Characterization of Cocosin, the Coconut 11S Globulin
- Co-Expression of Soybean Glycinins A1aB1b and A3B4 Enhances Their Accumulation Levels in Transgenic Rice Seed
- The Development of Transgenic Crops to Improve Human Health by Advanced Utilization of Seed Storage Proteins
- Generation of Transgenic Rice Lines with Reduced Contents of Multiple Potential Allergens Using a Null Mutant in Combination with an RNA Silencing Method