Kyushu University Academic Staff Educational and Research Activities Database
List of Reports
Toyoaki Anai Last modified date:2023.11.27

Professor / Agrobiological Science / University Farm,Kyushu University / Faculty of Agriculture


Reports
1. ダイズRXP遺伝子へのT挿入がダイズ葉焼病圃場抵抗性をもたらす.
2. 2step‐TILLINGを用いた自家不和合植物ハツカダイコンの突然変異体選抜法.
3. Development and utilization of soybean mutant resources.
4. ナショナルバイオリソースプロジェクト(NBRP)ミヤコグサ・ダイズ―作物学研究分野におけるミヤコグサ・ダイズバイオリソースの利用―.
5. エンレイ高頻度突然変異体ライブラリーの作出と次世代シーケンサーによる突然変異検索方法の開発.
6. 光質が与える植物ホルモン合成への影響.
7. ダイズにおける新規開花期関連遺伝子の探索.
8. ゲノム研究成果を活用した大豆等イネ科以外の新品種開発 第2章 ダイズの重要形質に関わる遺伝子の解明(4)ダイズの開花期関連遺伝子の単離と機能解析(DD2040)ダイズの開花期に関与する遺伝子の同定と機能解明(SOY2003).
9. CE/TOF‐MSを用いたダイズ遺伝資源のメタボローム解析.
10. EMSによるエンレイ突然変異体ライブラリの作出と評価.
11. ダイズの日長反応性を介した開花制御に関わる遺伝子を解明.
12. 逆遺伝学的手法を用いたダイズMyb遺伝子についての機能解析.
13. 逆遺伝学的手法を用いたダイズMyb遺伝子の機能解析.
14. ダイズ突然変異体ライブラリーの増幅を目的としたMultiple Displacement Amplification(MDA)法の最適化.
15. ダイズ開花関連遺伝子GmphyA3の多様性解析.
16. Transformants of Arabidopsis thaliana with Turnip mosaic virus (TuMV) Coat Protein (CP) Gene Show Broad Spectrum of Resistance to TuMV(Abstracts of the Papers Presented at the 2003 Annual Meeting in Tokyo).
17. A determination of expressional regulation of water channel gene family in rice.
18. Characterization of mutated genes in low linolenic acid soybean lines.
19. Characterization of mutated genes in high oleic acid soybean lines.
20. A novel soybean germplasm with elevated saturated fatty acids developed by gene combination.
21. Determination of combining possibility in loci for high oleic and low linolenic acids in soybean.
22. Production of transgenic rice plants transformed with a microsomal ω-3 fatty acid desaturase gene of soybean and analysis of their fatty acid composition.
23. Structual analysis of membrane associated auxin-binding proteins (ABP1s).
24. Allelopathic substances exudated from germinating seeds and seedlings.
25. Light-induced plant growth inhibitors from de-etiolated sunflower seedllings.
26. cDNA cloning of rice plant sucrose-phosphoric acid synthetase..
27. A new anti-auxin substance isolated from light-grown maize shoots.
28. UEDA Takashi, ANAI Toyoaki, TSUKAYA Hirokaza, HASEGAWA Koji, UCHIMIYA Hirofumi, ESTABLISHMENT OF MODEL SYSTEM FORANALYZING INTRACELLULAR TRANSPORT OF THE PLANT CELLS, Plant and cell physiology, Vol.36, p.S53, 1995.03.
29. ANAI Toyoaki, OHTAKE Nobuyuki, KOSEMURA Seiji, YAMAMURA Shosuke, HASEGAWA Koji, ISOLATION AND CHARACTERIZATION OFANTI-AUXIN SUBSTANCES IN LIGHT-TREATED MAIZE SEEDLINGS, Plant and cell physiology, Vol.36, p.S7, 1995.03.
30. T ANAI, K HASEGAWA, Y WATANABE, H UCHIMIYA, R ISHIZAKI, M MATSUI, ISOLATION AND ANALYSIS OF CDNAS ENCODING SMALL GTP-BINDING PROTEINS OF ARABIDOPSIS-THALIANA, GENE, Vol.108, No.2, pp.259-264, 1991.12, We previously isolated a DNA fragment from Arabidopsis thaliana homologous to the mammalian ras gene and named it ara [Matsui et al., Gene 76 (1989) 313-319]. Screening of cDNA clones homologous to ara in A. thaliana resulted in the isolation of four homologous genes. The products of these genes, ARA-2, ARA-3, ARA-4 and ARA-5, showed conservation of amino acids (aa) in four regions, all of which are present in small GTP-binding proteins, and are important for GTPase/GTP-binding activities. These products were highly homologous to those of the YPT genes of Saccharomyces cerevisiae and the ypt gene of Schizosaccharomyces pombe in the regions around aa 45, which is thought to be the site interacting with effector molecules. The products of these four genes showed characteristic aa sequence at their C termini, Cys-Cys-Xaa-Xaa. Another characteristic of this family is presence of Ser in place of Gly in the first conserved region (Gly12 of mammalian GTP-binding Ras protein)..