INORGANIC PHOSPHATE (Pi) TRANSPORT IN CHARA INTERNODAL CELLS ; DEMONSTRATION OF Pi/Na^+ CO-TRANSPORT SYSTEM AND ANALYSIS OF INDUCTION MECHANISM UNDER Pi-STARVATION
スポンサーリンク
概要
著者
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Mimura Tetsuro
Biol. Labo. Hitotsubashi Univ.
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Ohsumi Yoshinori
Dept. Cell Biol. Nibb
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Reid R.
Dept. Botany Univ. Adelaide
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SMITH F.
Dept. Botany, Univ. Adelaide
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WALKER N.
Dept. Botany, Univ. Adelaide
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Ohsumi Yoshinori
Dept. Biol. Col. Arts And Sci. Univ.tokyo
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Smith F.
Dept. Botany Univ. Adelaide
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Walker N.
Dept. Botany Univ. Adelaide
関連論文
- Molecular cloning and characterization of mangrove Na^+/H^+ antiporter cDNA
- IDENTIFICATION AND LOCALIZATION OF MYOSININ HIGHER PLANT CELLS
- INORGANIC PHOSPHATE(Pi) TRANSPORT IN CHARA INTERNODAL CELLS ; ANALYSIS OF Pi/Na^+ CO-TRANSPORT SYSTEM AND ITS INDUCTION MECHANISM UNDER Pi-STARVATION.
- INORGANIC PHOSPHATE (Pi) TRANSPORT IN CHARA INTERNODAL CELLS ; DEMONSTRATION OF Pi/Na^+ CO-TRANSPORT SYSTEM AND ANALYSIS OF INDUCTION MECHANISM UNDER Pi-STARVATION
- Localization of the APG9 product responsible for autophagy in the yeast Saccharomyces cerevisiae
- Characterization of the VAM6 generequired for vacuolar morphogenesis in yeast
- Establish ment of cultured cell strain of mangrove plant, Bruguiera sexan gula ; Effect of Na 〓 on callus initiation, growth and regeneration.
- Isolation of yeast VAM homologue from A.thaliana
- RE-EVALUATION OF ROLE OF VACUOLE DURING SALT ADAPTATION IN HIGHER PLANT CELLS
- ION CONTENTS AND MORPHOLOGICAL CHANGES IN VACUOLES OF SUSPENSION-CULTURED CELLS OF MANGROVE PLANT, Bruguiera sexangula DURING SALT ADAPTATION.
- Isolation and characterization ofautophagy-defective mutants
- ANALYSIS OF PPF3 DISRUPTION EFFECTS ONBUDDING PATTERNS OF S. CEREVISIAE
- INORGANIC PHOSPHATE (Pi) TRANSPORT IN CHARA CELLS ; INDUCTION MECHANISM OF Pi TRANSPORT SYSTEM UNDER Pi-STARVATION IN AN ISOLATED CHARA INTERNODE