REGULATION BY GRAVITY OF ELONGATION GROWTH AND XYLOGLUCAN METABOLISM IN ARABIDOPSIS HYPOCOTYLS
スポンサーリンク
概要
著者
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Hoson Takayuki
Dept. Biol. Fac. Sci. Osaka City Univ.
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Soga Kouichi
Dept. Biol. Grad. Sch. Sci. Osaka City Univ.
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Kamigaichi S
Nasda
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Kumasaki Saori
Department Of Biology And Geosciences Graduate School Of Science Osaka City University
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Wakabayashi Kazuyuki
Department Of Biology And Geosciences Graduate School Of Science Osaka City University
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Wakabayashi Kazuyuki
Dept. Biol. Fac. Sci. Osaka City Univ.
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Kamisaka Seiichiro
Dept. Biol. Fac. Sci. Osada City Univ.
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Soga Kouichi
Dept. Biol. Fac. Sci. Osaka Univ.
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KAMISAKA Seiichiro
Dept. Biol. , Fac. Sci. , Osada City Univ.
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HOSON Takayuki
Dept. Biol. , Fac. Sci. , Osaka City Univ.
関連論文
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- Inhibition of root elongation in microgravity by an applied electric field
- Morphagensis of Rice and Arabidopsis Seedlings in Space
- Growth and Development, and Auxin Polar Transport in Higher Plants under Microgravity Conditions in Space: BRIC-AUX on STS-95 Space Experiment
- Growth Regulation Mechanisms in Higher Plants under Microgravity Conditions - Changes in Cell Wall Metabolism
- Gravimorphogenesis of Cucurbitaceae plants: Development of peg cells and graviperception mechanism in cucumber seedlings
- Inhibition of root elongation in microgravity by an applied electric field
- STS-95 space experiment for plant growth and development, and auxin polar transport
- Inhibition of Root Elongation in Microgravity an Applied Electric Field
- Growth and Development, and Auxin Polar Transport in Higher Plants under Microgravity Conditions in Space:BRIC-AUX on STS-95 Space Experiment
- Morphogenesis of Rice and Arabidopsis Seedlings in Space
- DEVELOPMENTAL PATTERN OF PEG IN CUCUMBER SEEDLINGS AND ITS NEGATIVE CONTROL BY GRAVITY
- Plant growth processes in Arabidopsis under microgravity conditions simulated by a clinostat
- Effects of Altered Gravity Conditions on Lignin and Secondary Wall Formation in Herbaceous Dicots and Woody Plants
- Hypergravity condition increases the expression level of lignin-biosynthesis related genes in Arabidopsis thaliana L.
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- Growth and Development in Arabidopsis thaliana through an Entire Life Cycle under Simulated Microgravity Conditions on a Clinostat
- EFFECT OF SIMILATED MICROGRAVITY ON THE ACTIVITY OF AUXIN POLAR TRANSPORT IN INFLORESCENCE AXIS OF Arabidopsis thaliana
- Effect of simulated microgravity on auxin polar transport in inflorescence axis of Arabidopsis thaliana
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- Role of the Cell Wall-Sustaining System in Gravity Resistance in Plants
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- The Transcript Level of Katanin Gene is Increased Transiently in Response to Changes in Gravitational Conditions in Azuki Bean Epicotyls
- 重力によるアズキ上胚軸の表層微小管の配向変化時に起こるγ-チューブリン複合体遺伝子レベルの一過的な増加
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- Alteration of molecular size of xyloglucans in cell walls of azuki bean epicotyls
- Role of Membrane Sterol in Gravity Resistance of Plants
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- Cellular basis for the automorphic curvature of rice coleoptiles on a three-dimensional clinostat : possible involvement of reorientation of cortical microtubules
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- Is Water Immersion Useful for Analyzing Gravity Resistance Responses in Terrestrial Plants?
- Modification of Cell Wall Architecture of Wheat Coleoptiles Grown under Hypergravity Conditions
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- Increase in Expression Level of Alpha-tubulin Gene in Arabidopsis Seedlings under Hypergravity Conditions
- Stimulation of Elongation Growth and Cell Wall Loosening in Rice Coleoptiles under Microgravity Conditions in Space
- Optical microscopy of Arabidopsis seedlings fixed in non-fresh FAA using Kennedy Fixation Tubes(1)
- A Spaceflight Experiment for the Study of Gravimorphogenesis and Hydrotroposm in Cucumber Seedlings
- EXPERIENCE AND LESSON LEARNED FROM INTERNATIONAL SELECTION OF SPACE LIFE SCIENCES EXPERIMENT
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- Control of gravimorphogenesis by auxin: accumulation pattern of CS-IAA1 mRNA in cucumber seedlings grown in space and on the ground
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- Effects of hypergravity conditions on elongation growth and lignin formation in the inflorescence stem of Arabidopsis thaliana
- Effects of hypergravity environment on lignin formation in Arabidopsis
- Involvement of Ethylene and Gibberellin Signalings in Chromosaponin I-Induced Cell Division and Cell Elongation in the Roots of Arabidopsis Seedlings
- CHROMOSAPONIN I STIMULATES CELL DIVISION AS WELL AS CELL ELONGATION IN ARABIDOPSIS ROOTS
- Increased Moleculer Mass of Hemicellulosic Polysaccharides is involeved in Growth Inhibition of Maize Coleoptiles and Mesocotyls under Hypergravity Conditions
- Effects of Abscisic Acid on the Synthesis of Cell-Wall Polysaccharides in Segments of Etiolated Squash Hypocotyl II. Levels of UDP-Neutral Sugars
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- EFFECTS OF MICROGRAVITY AND PLANT HORMONES ON GROWTH OF AZUKI BEAN EPICOTYLS
- EFFECTS OF A SIMULATED MICROGRAVITY CONDITION AND PHYTOHORMONES ON CELL GROWTH IN LETTUCE AND AZUKI BEAN PLANTS
- SUPPRESSION OF (1→3), (1→4) -β-D-GLUCAN HYDROLYSIS IS INVOLVED IN INHIBITION OF RICE COLEOPTILE GROWTH BY LIGHT
- DE-ESTERIFICATION IS INVOLVED IN THE DEPOLYMERIZATION OF POLYURONIDES IN CELL WALLS OF RIPENING A VOCADO FRUIT
- NOVEL XYLOGLUCAN-HYDROLYZING ENZYMES INTHE CELL WALL OF AZUKI BEAN EPICOTYLS
- Xyloglucan Oligosaccharides Cause Cell Wall Loosening by Enhancing Xyloglucan Endotransglucosylase/Hydrolase Activity in Azuki Bean Epicotyls
- Action of Xyloglucan Hydrolase within the Native Cell Wall Architecture and Its Effect on Cell Wall Extensibility in Azuki Bean Epicotyls
- A New Type of Endo-Xyloglucan Transferase Devoted to Xyloglucan Hydrolysis in the Cell Wall of Azuki Bean Epicotyls
- A NEW XYLOGLUCAN HYDROLASE FROM THE CELL WALL OF AZUKI BEAN EPICOTYLS
- CHARACTERISTICS OF SUBFRACTIONS OF XYLOGLUCAN-DEGRADING ENZYMES IN AZUKI BEAN EPICOTYLS
- Purification of Xyloglucan Hydrolase/Endotransferase from Cell Walls of Azuki Bean Epicotyls
- CHARACTERIZATION OF XYLOGLUCANDEGRADING ENZYMES FROM THE CELL WALL OF AZUKI BEAN EPICOTYL
- CHANGES IN THE CELL WALL PROPERTIES AND MICROTUBULE ORIENTATION IN AUTOMORPHOGENESIS OF RICE COLEOPTILES GROWN ON A 3-D CLINOSTAT
- GROWTH INHIBITION OF AZUKI BEAN AND MAIZE SEEDLINGS BY HYPERGRAVITY
- EFFECTS OF CHROMOSAPONIN I AND BRASSINOLIDE ON THE GROWTH OF ROOTS IN ETIOLATED ARABIDOPSIS SEEDLINGS
- INHIBITION OF PEA EPICOTYL ELONGATION BY WHITE LIGHT : DIFFERENT EFFECTS OF LIGHT ON CELL WALL POLYSACCHARIDES IN THE INNER AND EPIDERMAL TISSUES
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- Inhibition of the Breakdown of Xyloglucans in Azuki Bean Epicotyls by Concanavalin A : GROWTH AND DEVELOPMENT : STRUCTURE AND FUNCTION OF CELLS
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- Effects of temperature on the cell wall and osmotic properties in dark-grown rice and azuki bean seedlings
- EFFECTS OF TEMPERATURE ON CELL WALL AND OSMOTIC PROPERTIES IN RICE AND AZUKI BEAN SEEDLINGS
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- Perception mechanism of gravistimuli in gravity resistance responses of plants
- Changes in the Sugar Composition and Molecular Mass Distribution of Matrix Polysaccharides during Cotton Fiber Development
- GROWTH RESTORATION IN AZUKI BEAN AND MAIZE SEEDLINGS BY REMOVAL OF HYPERGRAVITY STIMULUS
- CHANGES IN THE STRUCTURE AND DEGRADING ACTIVITY OF MATRIX POLYSACCHARIDES IN CELL WALLS OF DEVELOPING COTTON FIBERS
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- REGULATION BY WHITE LIGHT OF ELONGATION GROWTH AND XYLOGLUCAN-DEGRADING ACTIVITY IN AZUKI BEAN EPICOTYLS
- GROWTH REGULATION MECHANISMS IN HIGHER PLANTS UNDER MICROGRAVITY CONDITIONS
- Lesson Learned from Space Experiment (3) : GROWTH REGULATION MECHANISMS IN HIGHER PLANTS UNDER MICROGRAVITY CONDITONS
- REGULATION OF POLYSACCHARIDE BREAKDOWNIN THE CELL WALL
- HYPERGRAVITY INCREASES THE MOLECULAR SIZE OF XYLOGLUCANS BY DECREASING XYLOGLUCAN-DEGRADING ACTIVITY IN AZUKI BEAN EPICOTYLS
- Changes in the Apoplastic pH Are Involved in Regulation of Xyloglucan Breakdown of Azuki Bean Epicotyls under Hypergravity Conditions
- REGULATION BY GRAVITY OF ELONGATION GROWTH AND XYLOGLUCAN METABOLISM IN ARABIDOPSIS HYPOCOTYLS
- Hypergravity Increases the Molecular Mass of Xyloglucans by Decreasing Xyloglucan-Degrading Activity in Azuki Bean Epicotyls
- GROWTH PHYSIOLOGY OF LONG HYPOCOTYLMUTANTS IN ARABIDOPSIS THALIANA
- Blue and Red Light-Induced Suppression of Maize Coleoptile Growth
- INVOLVEMENT OF WALL-BOUND PHENOLICS AND PAL IN LIGHT-INDUCED INHIBITION OF MAIZE COLEOPTILE GROWTH
- MECHANISM OF LIGHT-MEDIATED INHIBITIONOF MAIZE COLEOPTILE GROWTH
- Suppression of Cell Wall Stiffening along Coleoptiles of Wheat(Triticum aestivum L. )Seedlings Grown under Osmotic Stress Conditions
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- Osmotic Stress-Induced Growth Suppression of Dark-Grown Wheat (Triticum aestivum L.) Coleoptiles
- Water Stress-Induced Growth Suppression of Dark-Grown Wheat Coleoptiles
- EFFECT OF ABSCISIC ACID ON THE AMOUNTSOF FERULIC AND DIFERULIC ACIDS IN CELL WALLS OF WHEAT COLEOPTILES