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Department of Brology, Faculty of Science, Okayama University | 論文
- Isolation and Characterization of a Photosystem II Core Complex Depleted in the 43 kDa-Chlorophyll-Binding Subunit
- A Versatile Chromatographic Procedure for Purifying PS II Reaction Center Complex from Digitonin Extracts of Spinach Thylakoids
- Artificial Quinones Replace the Function of Quinone Electron Acceptor (Q_A) in the Isolated D1-D2-Cytochrolne b_ Photosystem II Reaction Center Complex
- Characterization of a 47-Kilodalton Chlorophyll-Binding Polypeptide (CP-47) Isolated from a Photosystem II Core Complex
- The Level of Stromal ATP Regulates Translation of the D1 Protein in Isolated Chloroplasts
- Viability of Chlamydomonas Mutants with Amino Acid Substitutions in the Precursor D1 Protein at the Carboxyl-Terminal Processing Site : an Analysis by Mixed-Culture Growth Experiments
- Mechanism of photoinactivation in photosynthetic systems IV. Light-induced changes in the fluorescence transient
- Identification of the Carboxyl-Terminal Processing Protease for the D1 Precursor Protein of the Photosystem II Reaction Center of Spinach : PROTEINS, ENZYMES AND METABOLISM : MEMBRANES AND BIOENERGETICS
- Mechanism of photoinactivation in photosynthetic systems III. Site and mode of photoinactivation in photosystem I
- Properties of light-harvesting chlorophyll a/b-protein, and photosystem I chlorophyll a-protein, purified from digitonin extracts of spinach chloroplasts by isoelectrofocusing
- Mechanism of photoinactivation in photosynthetic systems I. The dark reaction in photoinactivation
- Chromatographic Purification and Determination of the Carboxy-Terminal Sequences of Photosystem ll Reaction Center Proteins, D1 and D2
- PHOTOSYNTHETIC NITRITE REDUCTASE II. FURTHER PURIFICATION AND BIOCHEMICAL PROPERTIES OF THE ENZYME
- Mechanism of photoinactivation in photosynthetic systems II. The occurrence and properties of two different types of photoinactivation
- Effects of urea and o-phenanthroline on F-695 emission in chloroplasts