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Marine Biotechnology Institute, Kamaishi Laboratories | 論文
- Ethanol Production by Dark Fermentation in the Marine Green Alga, Chlorococcum littorale
- Some Cyanobacteria Synthesize Semi-amylopectin Type α-Polyglucans Instead of Glycogen
- PIGMENT COMPOSITION OF A NOVEL OXYGENIC PHOTOSYNTHETIC PROKARYOTE CONTAINING CHLOROPHYLL D AS THE MAJOR CHLOROPHYLL
- Pigment Composition of a Novel Oxygenic Photosynthetic Prokaryote Containing Chlorophyll d as the Major Chlorophyll
- A NEW OXYGENIC PHOTOSYNTHETIC PROKARYOTE CONTAINING CHLOROPHYLL d AS A MAJOR PIGMENT
- Carbon dioxide uptake rzte of Chlorococcum littorale
- Effects of Chloramphenicol on Photosynthesis, Protein Profiles and Transketolase Activity under Extremely High CO_2 Concentration in an Extremely-high-CO_2-tolerant Green Microalga, Chlorococcum littorale
- Regulation of Energy Balance in Photosystems in Response to Changes in CO_2 Concentrations and Light Intensities during Growth in Extremely-High-CO_2-Tolerant Green Microalgae
- EFFECT OF CO_2 CONCENTRATIONS AND LIGHT CONDITIONS ON FLUORESCENCE EMISSION SPECTRA AT 77°K IN EXTREMELY-HIGH-CO_2-TOLERANT MICROALGAE
- EFFECT OF CARBONIC ANHYDRASE ON PHOTOSYNTHESIS UNDER EXCESS CO_2 CONCENTRATIONS IN TWO ALGAL SPECIES WHICH ARE TOLERANT AND INTOLERANT TO SUCH CO_2 CONCENTRATIONS
- SHORT-TERM RESPONSES OF PHOTOSYNTHESIS TO EXTREMELY HIGH-CO_2 STRESS ON TWO TYPES OF MARINE MICROALGAE
- Isolation of PSI and PS II complexes containing chlorophyll d from Acaryochloris marina
- LIGHT-INDUCED REDOX CHANGE OF CYTOCHROME B_6/F OF HIGH-CO_2 TOLERANT GREEN ALGA, Chlorococcum littorale AND INTOLERANT Stichococcus bacillaris
- EFFECT OF HIGH-CO_2 STRESS TO PHOTOSYSTEM II IN A GREEN ALGA, Chlorococcum littorale, WHICH HAS A TOLERANCE TO HIGH-CO_2
- Changes in Photosynthetic Characteristics Induced by Transferring Air-Grown Cells of Chlorococcum littorale to High-CO_2 Conditions : ENVIRONMENTAL AND STRESS RESPONSES : PROTEINS, ENZYMES AND METABOLISM
- Induction of Ferric Reductase Activity and of Iron Uptake Capacity in Chlorococcum littorale Cells under Extremely High-CO_2 and Iron-Deficient Conditions
- Cloning and Characterization of High-CO_2-Specific cDNAs from a Marine Microalga, Chlorococcum littorale, and Effect of CO_2 Concentration and Iron Deficiency on the Gene Expression
- Induction of ferric reductase activity in Chlorococcum littorale under high-CO_2 and iron deprivation conditions
- Effects of Deep Seawater Acclimation on Components and Texture of the Muscle of Red Sea Bream
- Short-term Rearing of Red Sea Bream in Deep Seawater and Its Effects on Rigor Mortis