Photoproduction of Hydrogen from Glucose by a Co-Culture of a Photosynthetic Bacterium and Clostridium butyricum
スポンサーリンク
概要
- 論文の詳細を見る
Clostridium butyricum IFO-13949 and a photosynthetic bacterium, Rhodopseudomonas sp. RV were co-cultured to produce hydrogen from glucose with light irradiation.G. butyricum converts glucose mainly to butyrate with evolution of hydrogen by hydrogenase. Butyrate was then converted to hydrogen by nitrogenase of Rhodopseudomonas sp. RV, newly isolated for the combination. Agar-immobilized co-culture of both bacteria evolved hydrogen at 7.0 mol per mol of glucose consumed in the light, and 1.1 mol in the dark. We estimate the contributions of hydrogenase and nitrogenase to hydrogen production were 16 and 84%, respectively.
- 社団法人日本生物工学会の論文
- 1984-12-25
著者
-
Miyake Jun
Fermentation Research Institute, Agency of Industrial Science and Technology, Ministry of Internatio
-
Kawamura Sugio
Fermentation Research Institute, Agency of Industrial Science and Technology (AIST)
-
Miyake J
Fermentation Research Inst. Ibaraki Jpn
-
Miyake J
Tissue Engineering Research Center (terc) National Institute Of Advanced Industrial Science And Tech
-
Kawamura S
Fermentation Research Institute
-
Kawamura Sugio
Fermentation Research Institute
-
MAO XING-YI
Fermentation Research Institute
-
Miyake J
Tokyo Univ. Agric. & Technol.:rice Aist
-
Miyake Jun
Fermentation Research Institute
関連論文
- 2P223 培養細胞へのナノニードル挿入に対するフィブロネクチンナノ薄膜の効果(細胞生物的課題(接着,運動,骨格,伝達,膜),第48回日本生物物理学会年会)
- 3TA4-08 抗体修飾ナノ針を用いた細胞内繊維状タンパク質の力学検出による細胞選別法の開発(細胞生物的課題(接着,運動,骨格,伝達,膜),第47回日本生物物理学会年会)
- 3P-166 針状材料の細胞挿入成功率に対する骨格タンパク質の寄与(細胞生物学的課題(3),第46回日本生物物理学会年会)
- 2H11-5 Detection of bisphenol A by immobilized liposome column tandem with antibody column
- Enhancement of Hydrogen Production by a Photosynthetic Bacterium Mutant with Reduced Pigment
- Avidin-biotin-immobilized liposome column for chromatographic fluorescence on-line analysis of solute-membrane interactions
- Simulation of the Daily Sunlight Illumination Pattern for Bacterial Photo-Hydrogen Production
- Entrapment of Rhodobacter sphaeroides RV in Cationic polymer/Agar Gels for Hydrogen Production in the Presence of NH^+_4
- In Vitro and in Vivo Coupling of Thiocapsa Hydrogenase with Cyanobacterial and Algal Electron Mediators
- Immobilization of P450 Monooxygenase and Chloroplast for Use in Light-Driven Bioreactors
- Enhanced Hydrogen Production by a Mutant of Rhodobacter sphaeroides Having an Altered Light-Harvesting System
- Purified Fusion Enzyme between Rat Cytochrome P4501A1 and Yeast NADPH-Cytochrome P450 Oxidoreductase
- Control of the Unidirectional Topological Orientation of a Cross-Linked Complex Composed of the Bacterial Photosynthetic Reaction Center and Horse Heart Cytochrome c Reconstituted into Proteoliposomes
- 1073 Competitive relationship of hydrogen and polyhydroxybutyrate (PHB) production in Rhodobacter sphaeroides
- Avidin-biotin immobilization of unilamellar liposomes in gel beads for chromatographic analysis of drug-membrane partitioning
- Regeneration of NADPH by Cactus Chloroplasts : Coupling Reaction with P450 Monooxygenase
- Orientation of Photosynthetic Reaction Center Reconstituted in Neutral and Charged Liposomes
- REDOX PROPERTIES OF PHOTOSYNTHETIC REACTION CENTER IN DRY STATE
- REDOX PROPERTIES OF H SUBUNIT-DEPLETED PHOTOSYNTHETIC REACTION CENTER (RC^)
- Fermentative Metabolism to Produce Hydrogen Gas and Organic Compounds in a Cyanobacterium, Spirulina platensis
- PCR-Based Ribosomal DNA Detection Technique for Microalga (Heterosigma carterae) Causing Red Tide and Its Application to a Biosensor Using Labeled Probe
- A polymerase chain reaction-based ribosomal DNA detection technique using a surface plasmon resonance detector for a red tide causing microalga, Alexandrium affine
- Photoreaction Unit Sheet of Rhodopseudomonas viridis
- Preparation of Stable Langmuir-Blodgett Films of Photosynthetic Bacterial Reaction Center from Rhodopseudomonas viridis Using Poly-L-lysine
- A Capillary Photocell
- The Photoreaction Unit in Rhodopseudomonas viridis
- Measurement of Intramolecular Energy Dissipation and Stiffness of a Single Peptide Molecule by Magnetically Modulated Atomic Force Microscopy
- Investigation of the Peptide Conformation by Measuring Force Curve using AFM
- Measurement of the Length of the α Helical Section of a Peptide Directly Using Atomic Force Microscopy
- Screening Photosynthetic Bacteria for Hydrogen Production from Organic Acids
- Photoproduction of Hydrogen from Glucose by a Co-Culture of a Photosynthetic Bacterium and Clostridium butyricum
- MN-P31 Development of a detection method for intracellular mRNA using in situ nanoprobe(Section X Micro/Nano Technology for Analysis and Cell Manipulation)
- Application of vector pKE4-9 carrying a strong promoter to the expression of foreign proteins in Synechococcus PCC7942
- Strong expression of foreign protein in Synechococcus PCC7942
- Characterization of photosynthetic bacterium Rhodobacter sphaeroides RV for hydrogen production
- Photobioreactor with Photosynthetic Bacteria Immobilized on Porous Glass for Hydrogen Photoproduction
- Switching from light limitation to ammonium limitation in chemostat cultures of Rhodobacter capsulatus grown in different types of photobioreactor
- Hydrogen production by gel-immobilized cells of Rhodobacter sphaeroides-distribution of cells, pigments, and hydrogen evolution
- Light Penetration into Cell Suspensions of Photosynthetic Bacteria and Relatioin to Hydrogen Production
- Screening for Cyanobacteria that Evolve Molecular Hydrogen under Dark and Anaerobic Conditions
- Prolonged Hydrogen Evolution by a Cyanobacterium (Blue-Green Alga), Anabaena sp.
- Evaluation of the insertion efficiencies of tapered silicon nanoneedles and invasiveness of diamond nanoneedles in manipulations of living single cells
- Prolonged Photo-Hydrogen Production by Rhodospirillum rubrum
- Incorporation of [14C]Methanol and [14C]Bicarbonate by Hyphomicrobium sp. 53-49 under Various Growth Conditions: Aerobic, Denitrifying and Autotrophic
- Comparison of the Key Enzymes of Hyphomicrobium sp. 53-49 under Various Growth Conditions: Aerobic, Denitrifying and Autotrophic
- Hydrogen Evolution by Microcystis aeruginosa in Darkness