Photoproduction of Hydrogen from Raw Starch Using a Halophilic Bacterial Community
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概要
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The bacterial community designated BC1, which originates from night soil treatment sludge, exhibited a strong ability to produce H_2 from raw starch in the light in the presence of 3% NaCl. Three halophilic or halotolerant bacterial species, Vibrio fluvialis, Rhodobium marinum, and Proteus vulgaris, were isolated from BC1 and identified. The level of H_2 production from starch by coculture of V.fluvialis and R.marinum was nearly equal to that by BC1, indicating that these two strains play roles in starch degradation and H_2 production from the degraded products in BC1, respectively. Acetic acid and ehtanol, which were detected as the major products of degradation of starch by V.fluvialis in pure culture, seemed to be mainly utilized for H_2 production by R.marinum in BC1 and the coculture. However, R.marinum in pure culture could not produce H_2 from a synthetic medium containing acetic acid and ethanol, suggesting that V.fluvialis supplied not only substrates but also some unknown factors capable of inducing H_2 production from these substrates by R.marinum. A study using the starch-rich microalgae, Chlamydomonas reinhardtii and Dunaliella teriolecta, demonstrated that the above coculture could be applied to the production of H_2 at high yield from raw starch in an algal biomass.
- 社団法人日本生物工学会の論文
- 1999-07-25
著者
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Hirata Kazumasa
Applied Environmental Biology Graduate School Of Pharmaceutical Sciences Osaka University
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Ike Akiko
Environmental Bioengineering 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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Miyaoku Kohei
Department Of Synthetic Chemistry And Biological Chemistry Graduate School Of Engineering Kyoto Univ
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Murakawa Tomoko
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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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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Ike A
Environmental Bioengineering 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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