Improved Bioassay Method for Plant Transformation Inhibitors
スポンサーリンク
概要
- 論文の詳細を見る
A convenient and quantitative bioassay method for evaluating the efficiency of plant transformation by Agrobacterium tumefaciens is important to search plant transformation inhibitors, possible biochemical probes for study on its mechanism. Our previously reported method, in which the plant transformation had been detected by the expression of β-glucuronidase in transformed plants, was improved. The difference between the previous and the improved methods is the use of suspension-cultured cells of Ageratum conyzoides as the host plant instead of Nicotiana tabacum BY-2 ; this alteration of the host enabled us to measure the β-glucuronidase activity in plant cells not only fluorometrically but also colorimetrically. The enzyme activity expressed in the cells of A. conyzoides was nearly 100 times higher than that of N. tabacum BY-2,and was enough for detection by colorimetric measurement. The method, therefore, is useful for a convenient determination of inhibitory activity against plant transformation.
- 社団法人日本農芸化学会の論文
- 1998-12-23
著者
-
神崎 浩
岡山大 大学院自然科学研究科(農学系)
-
KANZAKI HIROSHI
Laboratory of Bioresources Chemistry, Faculty of Agriculture, Okayama University
-
KAWAZU KAZUYOSHI
Laboratory of Bioresources Chemistry, Faculty of Agriculture, Okayama University
-
Kanzaki Hiroshi
Laboratory Of Bioresources Chemistry Faculty Of Agriculture Okayama University
-
Kawazu Kazuyoshi
The Graduate School Of Natural Sci. And Technol. Dep. Of Biofunctional Chemistry Lab. Of Applied Nat
-
Kawazu Kazuyoshi
Laboratory Of Bioresources Chemistry Department Of Agricutlural Science Okayama University
-
Kawazu Kazuyoshi
Department Of Bioresources Chemistry Okayama University
-
Kawazu Kazuyoshi
Laboratory Of Bioresources Chemistry Department Of Agricultural Science Okayama University
-
Kaji Hiroaki
Department Of Immunochemistry Faculty Of Pharmaceutical Sciences Okayama University
-
Kawazu K
The Graduate School Of Natural Sci. And Technol. Dep. Of Biofunctional Chemistry Lab. Of Applied Nat
-
Asano Satomi
Laboratory Of Bioresources Chemistry Faculty Of Agriculture Okayama University
-
KAGEMORI Toshihiko
Laboratory of Bioresources Chemistry, Faculty of Agriculture, Okayama University
-
Kagemori Toshihiko
Laboratory Of Bioresources Chemistry Faculty Of Agriculture Okayama University
-
Kagemiri Toshihiko
Laboratory of Bioresources Chemistry, Faculty of Agriculture, Okayama University
関連論文
- オリーブ二次代謝産物の微生物変換によって得られる新規抗酸化物質の性状解析
- 3A11-1 細胞周期阻害剤 dehydrophenylahistin の酵素合成
- 1 脱水素型環状ジペプチド生合成酵素による生理活性物質生産(口頭発表の部)
- C411 糸状菌由来の新規β-N-acetylglucosaminidase阻害剤
- 308 微生物のジケトピペラジン分解酵素
- 生物種の由来が異なる酵素を見分ける阻害剤 : 新規な構造と活性をもつ放線菌由来β-N-アセチルグルコサミニダーゼ阻害剤
- 学産学消の日本酒『おお岡大』
- 岡山大産米100%使用,日本酒「おお岡大」 : 学産学消から学産地消を目指して(大学発!美味しいバイオ)
- 微生物変換による新しい天然由来の化粧品素材開発を目指して--オリーブ葉由来抗酸化成分の微生物による高機能化 (特集 最近の抗老化・抗酸化研究と抗老化剤の開発)
- C209 新規β-N-acetylglucosaminidase阻害剤HU-1の構造解析
- C208 新規β-N-acetylglucosaminidase阻害剤HU-1の阻害特異性
- 昆虫のβ-N-acetylglucosaminidaseに対する阻害剤の探索および部分的性状解析
- 2D15-5 フッ素アミノ酸添加培養による新規フッ素化アルボノルシンの微生物合成(ペプチド工学・プロテオーム,生合成・天然物化学,一般講演)
- 2J13-4 細胞周期阻害剤dehydrophenylahistinのチオカルボニル化(有機化学・高分子化学・生合成・天然物化学,一般講演)
- デヒドロアミノ酸残基を含む生理活性環状ジペプチド類(異常アミノ酸の世界をヘテロな視点で覗く)
- 649 環状ジペプチド分解細菌が生産するジペプチダーゼの精製と諸性質の検討(酵素・酵素工学・タンパク質工学,一般講演)
- 環状ジペプチド脱水素酵素で新規生理活性物質を作る
- 酵素による生理活性物質生産と情報化学の接点
- 国際学会報告 : Bio Trans 2001に参加して
- 微生物由来のジケトピペラジン環化合物代謝酵素による生理活性物質生産
- Enzymatic Conversion of Cyclic Dipeptides to Dehydro Derivatives That Inhibit Cell Division
- 911 環状ジペプチド, cyclo(Gly-Leu)の微生物分解代謝に関与する新規酵素系
- Structures of New Seven-Membered Ring Vibsane-Type Diterpenes Isolated from Leaves of Viburnum awabuki
- NEOVIBSANINS H AND I, NOVEL DITERPENES FROM VIBURNUM AWABUKI
- 新規の環状ジペプチド脱水素酵素とその活性測定法の確立
- 抗がん活性化合物の酵素合成 (特集 次世代バイオテクノロジーの展開)
- 932 微生物によるcyclo(Gly-Leu)の分解
- Isolation and Characterization of Two Novel Nematicidal Depsipeptides from an Imperfect Fungus, Strain D1084
- Synthesis and Antinematodal Activity of 3-n-Alkylphenols
- Novel Bioactive Oxazolomycin Isomers Produced by Streptomyces albus JA3453
- A Novel Potent Cell Cycle Inhibitor Dehydrophenylahistin : Enzymatic Synthesis and Inhibitory Activity toward Sea Urchin Embryo
- Effective Production of Potent Cell Cycle Inhibitor Dehydrophenylahistin by a Combination of Chemical Racemization and Streptomyces Enzyme-catalyzed Conversion
- Oxazolomycin Esters, Specific Inhibitors of Plant Transformation
- Inhibitory Effect of Oxazolomycin on Crown Gall Formation(Organic Chemistry)
- SECONDARY METABOLITE PRODUCTION BY Tectona grandis CELL SYSTEM
- Effective Production of Dehydro Cyclic Dipeptide Albonoursin Exhibiting Pronuclear Fusion Inhibitory Activity I. Taxonomy and Fermentation
- Microbial Hydrolysis of Diketopiperazines : Different Types of Diketopiperazine-Assimilating Bacteria
- Inhibitory Effect of Curromycins and Their Esters on Plant Transformation
- An Effective Method of Screening Glucose-rich Microbial Culture Filtrates for Insect Trehalase Inhibitors
- A Novel Bioassay Method for Inhibitors of Plant Transformation
- Production of a New Type of Bioactive Phenolic Compound
- Bisanthraquinones, Inhibitors of Plant Transformation
- ST-1, a Novel Radical Scavenger From Fungus F-124
- Activation of Murine Peritoneal Macrophages by Water-Soluble Extracts of Bursaphelenchus xylophilus, a Pine Wood Nematode
- Augmentation by Bursaphelenchus xylophilus, a Pine Wood Nematode, of Polyclonal IgE Production Induced by Lipopolysaccharide Plus Interleukin-4 in Murine Splenocytes
- Differences in Neutral Components of the Defensive Secretion in Formic Acid-Secreting Carabid Beetles
- Enzymatic Synthesis of Dehydro Cyclo(His-Phe)s, Analogs of the Potent Cell Cycle Inhibitor, Dehydrophenylahistin, and Their Inhibitory Activities toward Cell Division
- Isolation and Structure of Neoannonin, a Novel Insecticidal Compound from the Seeds of Annona squamosa(Organic Chemistry)
- Relationship between the Pathogenicity of the Pine Wood Nematode, Bursaphelenchus xylophilus, and Phenylacetic Acid Production
- Accumulation of Benzoic Acid in Suspension Cultured Cells of Pinus thunbergii Parl. in Response to Phenylacetic Acid Administration
- A New γ-Dihydropyrone from Streptomyces sp. as a Microtubule Association Inhibitor toward Pronuclear Fusion in Sea Urchin Eggs(Organic Chemistry)
- A β-Hydroxychalcone and Flavonoids from Alfalfa Callus Stimulated by a Fungal Naphthoquinone, PO-1(Organic Chemistry)
- Unique Spindle Poisons, Curvularin and Its Derivatives, Isolated from Penicillium Species(Organic Chemistry)
- PC30 NEW ATTEMPTS TO SEARCH FOR MICROTUBULE INHIBITORS USING SEA URCHIN EMBRYO SYSTEM
- Three antinematodal diterpenes from Euphorbia kansui
- Enzymatic Synthesis of Dehydroderivatives from Proline-Containing Cyclic Dipeptides and Their Effects toward Cell Division
- Enzymatic Synthesis of Dehydroderivatives from Proline-Containing Cyclic Dipeptides and Their Effects toward Cell Division
- Novel Diketopiperazine Metabolism in a Microorganism : Two-Step Hydrolysis of Cyclo(Gly-Leu)to Amino Acids and Preliminary Characterization of Cyclo(Gly-Leu)Hydrolase and Dipeptidase
- Effective Production of Dehydro Cyclic Dipeptide Albonoursin Exhibiting Pronuclear Fusion Inhibitory Activity : II. Biosynthetic and Bioconversion Studies
- Inhibition of Plant Transformation by Phytolaccoside B from Phytolacca americana Callus
- Improved Bioassay Method for Plant Transformation Inhibitors
- Biosynthetic Intermediates of the Tetradehydro Cyclic Dipeptide Albonoursin Produced by Streptomyces albulus KO-23
- Fungal Trichothecenes Which Promote Callus Initiation from the Alfalfa Cotyledon