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Molecular And Cell Biology Section Bio-resources Technology Division Forestry And Forest Products Re | 論文
- Ancestral MADS Box Genes in Sugi, Cryptomeria japonica D. Don (Taxodiaceae), Homologous to the B Function Genes in Angiosperms
- EFFECTS OF GIBBERELLIN A_3 ON THE GROWTH OF LOMBARDY POPLAR
- Expression of Genes for β-Glucuronidase and Luciferase in Three Species of Japanese Conifer (Pinus thunbergii, P. densiflora and Cryptomeria japonica) after Transfer of DNA by Microprojectile Bombardment
- FROM TREE PHYSIOLOGY TO PLANT MOLECULAR BIOLOGY : APPLICATIONS TO POLICIES AGAINST SUGI POLLINOSIS
- Pollen-Specific Expression of the Gene for an Allergen, Cry j 1, in Cryptomeria japonica
- MALE STROBILUS-SPECIFIC EXPRESSION OF PISTILLATA HOMOLOGS IN SUGI (Cryptomeria japonica)
- MALE STROBILUS-SPECIFIC EXPRESSION OF AGAMOUS HOMOLOGS IN SUGI (Cryptomeria japonica)
- Photoactivation of Oxygen-Evolving Enzyme in Dark-Grown Pine Cotyledons: Relationship between Assembly of Photosystem II Proteins and Integration of Manganese and Calcium
- Sites of Expression of DnaJ Homologs and Hsp 70 in Male and Female Flowers of the Japanese Willow Salix gilgiana Seemen
- Male Flower-Specific Expression of Genes for Polygalacturonase, Pectin Methylesterase and β-1, 3-Glucanase in a Dioecious Willow(Salix gilgiana Seemen)
- Expression of DnaJ homologs and Hsp70 in the Japanese Willow : Salix gilgiana Seemen
- Agrobacterium-Mediated Transformation of Poplar (Populus nigra L. var. italica Koehne) Stem Segments : A Biolistic Approach for the Transfer and Expression of a Luciferase Gene in Paulownia (Paulownia fortunei) : The 1998 Japanese Forestry Society Progres
- Agrobacterium-Mediated Transformation of Lombardy Poplar (Populus nigra L. var. italica Koehne) Using Stem Segments
- EXPRESSION OF GENES FOR PECTINASES IN REPRODUCTIVE ORGANS OF A WILLOW (Salix gilgiana Seemen)
- Changes in Levels of Thylakoid Components in Chloroplasts of Pine Needles of Different Ages
- Transit Peptides of Thylakoid Luminal Proteins : the Sites of Stromal Processing are Conserved among Higher Plants
- Acetyl-CoA Carboxylase in Higher Plants: Most Plants Other Than Gramineae Have Both the Prokaryotic and the Eukaryotic Forms of This Enzyme
- Phylogenetic relationships of Combretoideae (Combretaceae) inferred from plastid, nuclear gene and spacer sequences