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Laboratory Of Plant Molecular Genetics Graduate School Of Agricultural And Life Sciences The University Of Tokyo | 論文
- Analysis of Expression of Genes for Mitochondrial Aldehyde Dehydrogenase in Maize during Submergence and Following Re-aeration
- Morphogenesis in cucumber seedlings is negatively controlled by gravity
- Gravimorphogenesis of Cucurbitaceae plants: Development of peg cells and graviperception mechanism in cucumber seedlings
- DEVELOPMENTAL PATTERN OF PEG IN CUCUMBER SEEDLINGS AND ITS NEGATIVE CONTROL BY GRAVITY
- Development of experimental system for isolating novel Arabidopsis mutants of root gravitropism
- Efficient Repair of DNA Damage Induced by Heavy Ion Particles in Meiotic Prophase I Nuclei of Caenorhabditis elegans
- Effects of gravity on early embryogeneis in Caenorhabditis elegans
- Anther-specific genes, which expressed through microsporogenesis, are temporally and spatially regulated in model legume, Lotus japonicus
- Cloning and expression pattern of a novel microspore-specific gene encoding hypersensitive-induced response protein (LjHIR1) from the model legume, Lotus japonicus
- Identification and molecular characterization of novel anther-specific genes in Oryza sativa L. by using cDNA microarray
- A Spaceflight Experiment for the Study of Gravimorphogenesis and Hydrotroposm in Cucumber Seedlings
- Perturbation of oocyte meiotic division by hypergravity in Caenorhabditis elegans
- Isolation of auxin efflux carrier cDNA from cucumber
- Control of gravimorphogenesis by auxin: accumulation pattern of CS-IAA1 mRNA in cucumber seedlings grown in space and on the ground
- THE GRAVITY-REGULATED FORMATION OF PEG IN CUCUMBER SEEDLINGS AND EXPRESSION OF AUXIN TANSPORTER GENES
- THE LIGHT INHIBITS THE PEG FORMATION IN CUCUMBER PLANTS
- Effects of High Temperature on the Development of Pollen Mother Cells and Microspores in Barley Hordeum vulgare L.
- APPROACH FOR IDENTIFICATION OF THE ENTIRE GENE EXPRESSION DURING REPRODUCTIVE DEVELOPMENT OF BARLEY (Hordeum vulgare L.)
- Effect of gravity on apical dominance in Pharbitis nil
- INVOVEMENT OF ENDO-XYLOGLUCAN TRANSFERASE (EXGT) GENE DURING THE DIFFERENTAL GROWTH OF PER(Pisum sativum L. ) ROOTS