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National Inst. For Basic Biology Okazaki Jpn | 論文
- A Proteinase-Storing Body that Prepares for Cell Death or Stresses in the Epidermal Cells of Arabidopsis
- β-Glucosidase in the Indigo Plant : Intracellular Localization and Tissue Specific Expression in Leaves
- AtVAM3 is Required for Normal Specification of Idioblasts, Myrosin Cells
- An ER-Localized Form of PV72, a Seed-Specific Vacuolar Sorting Receptor, Interferes the Transport of an NPIR-Containing Proteinase in Arabidopsis Leaves
- Functional Differentiation of Peroxisomes Revealed by Expression Profiles of Peroxisomal Genes in Arabidopsis thaliana
- The ER Body, a Novel Endoplasmic Reticulum-Derived Structure in Arabidopsis
- A Vacuolar Sorting Receptor PV72 on the Membrane of Vesicles that Accumulate Precursors of Seed Storage Proteins (PAC Vesicles)
- Proteomic Analysis of Leaf Peroxisomal proteins in Greening Cotyledons of Arabidopsis thaliana
- Direct Interaction and Determination of Binding Domains among Peroxisomal Import Factors in Arabidopsis thaliana
- Distribution and Characterization of Peroxisomes in Arabidopsis by Visualization with GFP : Dynamic Morphology and Actin-Dependent Movement
- Activation of Arabidopsis Vacuolar Processing Enzyme by Self-Catalytic Removal of an Auto-Inhibitory Domain of the C-Terminal Propeptide
- Ped3p is a Peroxisomal ATP-Binding Cassette Transporter that might Supply Substrates for Fatty Acid β-Oxidation
- Developmental Analysis of a Putative ATP/ADP Carrier Protein Localized on Glyoxysomal Membranes During the Peroxisome Transition in Pumpkin Cotyledons
- Pumpkin Peroxisomal Ascorbate Peroxidase is Localized on Peroxisomal Membranes and Unknown Membranous Structures
- Arabidopsis Pex14p Is Identified a Component in Peroxisomal Protein Import Machinery
- AtPex14p maintains peroxisomal functions by determining protein targeting to all plant peroxisomes
- Novel Glyoxysomal Protein Kinase, GPK1, Identified by Proteomic Analysis of Glyoxysomes in Etiolated Cotyledons of Arabidopsis thaliana
- Expression and Localization of a 36-kDa Peptide Derived from a 24-kDa Vacuolar Protein (VP24) Precursor in Anthocyanin-Producing Sweet Potato Cells in Suspension Culture
- INTRACELLULAR TRANSPORT PATHWAY FOR SEED PROTEINS
- γVPE mRNA Level Is Increased by Plant Hormones, Wounding and Senescence