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Gene Experiment Center Institute Of Biological Sciences University Of Tsukuba | 論文
- Phytosulfokine - α, a Peptidyl Plant Growth Factor, Stimulates Cell Cycle Progression in Carrot Non - Embryogenic Cells
- Effect of pH on Absorption Spectra of Pea 114 and 121 Kilodalton Phytochromes during and after Red-Light Irradiation
- Comparison and Characterization of cis-Regulatory Regions in Some Embryo-Specific and ABA-Responsive Carrot Genes, DcECPs
- Isolation and Characterization of Six Abscisic Acid-Inducible Genes from Carrot Somatic Embryos
- THE EFFECTS OF PSK-α ON GENE EXPRESSION OF CELL CYCLE-RELATED GENES IN CARROT CELL CULTURE
- Analysis of cis-Regulatory Elements in Carrot Embryo-Specific and ABA-Responsive Gene, DcECP31
- Structure of a New Opine, Mikimopine, in Hairy Root Induced by Agrobacterium rhizogenes(Organic Chemistry)
- EXPRESSION ANALYSIS OF EMBRYOGENESIS RELATED GENES USING IN SITU HYBRIDIZATION
- ISOLATION AND CHARACTERIZATION OF PIF3 GENES FROM HORSERADISH
- EFFECTS OF OVEREXPRESSION OF PHYTOCHROME GENES ON LIGHT-INDUCED FORMATION OF ADVENTITIOUS SHOOTS FROM HORSERADISH HAIRY ROOTS
- ISOLATION AND CHARACTERIZATION OF ECP45 GENE CARROT
- EFFECTS OF INTRODUCED PHYA TO LIGHT-INDUCED FORMATION OF ADVENTITIOUS SHOOTS FROM HORSERADISH HAIRY ROOTS.
- Phytochrome Activities and Biological Activities of Genes for Phytochrome A of Horseradish in Horseradish Hairy Roots
- Isolation and characterization of LEC1 homolog in somatic and zygotic embryos in carrot
- Changes in Protein Pattern during Stress-induction of Carrot (Daucus carota L.) Somatic Embryogenesis
- ISOLATION AND CHARACTERIZATION OF PHYTOCHROME GENES FROM HORSERADISH HAIRY ROOTS ・II : PHYB AND PHYE GENES
- ISOLATION AND CHARACTERIZATION OF PHYTOCHROME GENES FROM HORSERADISH HAIRY ROOTS
- C-ABI3, the Carrot Homologue of the Arabidopsis ABI3, is Expressed during Both Zygotic and Somatic Embryogenesis and Functions in the Regulation of Embryo-Specific ABA-Inducible Genes
- FUNCTION ANALYSIS OF C-AB13 IN TRANSGENIC CARROT NON-EMBRYOGENIC CELLS
- Induction of double flowers in Pharbitis nil using a class-C MADS-box transcription factor with Chimeric REpressor gene-Silencing Technology