H_2 Production from Algal Biomass by a Mixed Culture of Rhodobium marinum A-501 and Lactobacillus amylovorus
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概要
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To produce hydrogen from starch accumulated in an algal biomass, we used a mixed culture of the lactic acid bacterium, Lactobacillus amylovorus, and the photosynthetic bacterium, Rhodobium marinum A-501. In this system L.amylovorus, which possesses amylase activity, utilized algal starch for lactic acid production, and R.marinum A-501 produced hydrogen in the presence of light using lactic acid as an electron donor. Algal starch accumulated in the marine green alga Dunaliella tertiolecta, and the freshwater green alga Chlamydomonas reinhardtii, was more suitable for lactic acid fermentation by L.amylovorus than an authentic starch sample. Consequently, the yields of hydrogen obtained from starch contained in D.tertiolecta and C.reinhardtii were 61% and 52%, respectively, in the mixed culture of L.amylovorus and R.marinum A-501. These values were markedly superior to those obtained using a mixed culture of Vibrio fluvialis T-522 and R.marinum A-501 described previously. The yield and production rate of hydrogen by R.marinum A-501 from the lactic acid fermentates were higher than from authentic lactic acid, suggesting that the fermentates contain a factor(s) which promotes H_2 production by this bacterium.
- 社団法人日本生物工学会の論文
- 2001-03-25
著者
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Hirata Kazumasa
Applied Environmental Biology 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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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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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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