Effect of Algal Extract on H_2 Production by a Photosynthetic Bacterium Rhodobium marinum A-501 : Analysis of Stimulating Effect Using a Kinetic Model(ENVIRONMENTAL BIOTECHNOLOGY)
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概要
- 論文の詳細を見る
We have established a system for hydrogen (H_2) production from algal starch via lactic acid using a mixed culture of a lactic acid bacterium, Lactobacillus amylovorus, and a photosynthetic bacterium, Rhodobium marinum A-501. We found that the H_2 production from lactate was stimulated in the presence of algal extract, which was obtained from algal biomass homogenate used as a substrate in the system by removing settleable solids including starch. To analyze the stimulating effect of algal extract on H_2 production, we developed a kinetic model for H_2 production by R. marinum A-501. The model revealed that approximately 20% of lactate was consumed for cell mass production, and the remaining portion was a source of reducing power to drive hydrogen production or other cellular processes. In the presence of algal extract, the model indicated that the conversion efficiency from lactate to the reducing power increased from 0.56 to 0.80 and nitrogenase activity increased up to twofold, resulting in the increase in yield of hydrogen from lactate from 29% to 48%. These results suggest that algal extract can attenuate the limitation process in lactate catabolism by which the supplementation of reducing power to drive H_2 production was suppressed.
- 社団法人日本生物工学会の論文
- 2002-07-25
著者
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Hirata Kazumasa
Applied Environmental Biology Graduate School Of Pharmaceutical Sciences Osaka University
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永瀬 裕康
Environmental Biotechnology Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Hashimoto K
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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HIRATA KAZUMASA
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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MIYAMOTO KAZUHISA
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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NAGASE HIROYASU
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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Miyaoku Kohei
Department Of Synthetic Chemistry And Biological Chemistry Graduate School Of Engineering Kyoto Univ
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Doi Mikio
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Hashimoto Kyoko
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Kawaguchi Hideo
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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KIMATA SHIHO
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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Kimata Shiho
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Department Of Biochemical Engineering Faculty Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Environmental Bioengineering Laboratory Graduated School Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Environ. Bioeng. Lab Grad. Sch. Pharm. Sci. Osaka Univ.
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Miyamoto Kazuhisa
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Miyamoto Kazuhisa
Environmental Bioengineering Laboratory Graduated School Of Pharmaceutical Sciences Osaka University
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Miyamoto Kazuhisa
Laboratory Of Biological Defenoe Department Of Insect Physiology And Behavior National Institute Of
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Miyamoto K
Environmental Biotechnology Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Hirata K
Environmental Biotechnology Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Miyamoto K
Faculty Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Osaka Municipal Technical Research Institute
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Miyamoto Kazuhisa
Environmental Bioengineering Laboratory Faculty Of Pharmaceutical Sciences Osaka University
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