Efficient Production of Recombinant Enzymes Using PVA-Encapsulated Bacteria
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概要
- 論文の詳細を見る
The recombinant Escherichia coli cells which produce a thermostable α-amylase and a β-galactosidase and the recombinant Bacillus brevis cells which produce a thermostable α-amylase, were immobilized in polyvinyl alcohol (PVA) capsules and the efficient production of the enzymes was investigated. The cell growth of E. coli in the PVA capsules declined with increasing incubation duration in methanol and may be caused by the decrease in medium pH due to oxygen transfer limitation and the decrease in available space for growth in a capsule. On the other hand, in the case of the immobilized B. brevis, the medium pH increased during cultivation and it suppressed the cell growth in the PVA capsules. In all experiments, the enzymes were released from the PVA capsules without cell leakage and cell growth outside the capsules. In the case of the immobilized E. coli cells, the enzymes were released by the addition of glycine to the growth medium. The higher the glycine concentration, the greater the number of enzymes produced. On the other hand, the immobilized B. brevis produced the enzyme without glycine. The composition of the growth media was optimized for the enzyme production and the continuous production of the enzymes was investigated.
- 社団法人日本生物工学会の論文
- 1997-12-25
著者
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ARIGA OSAMU
Department of Fine Material Engineering, Faculty of Texile Science and Technology, Shinshu Universit
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SANO YOSHIKI
Department of Fine Material Engineering, Faculty of Texile Science and Technology, Shinshu Universit
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Ariga O
Shinshu Univ. Nagano Jpn
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Ariga Osamu
Department Of Fine Material Engineering Faculty Of Texile Science And Technology Shinshu University
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Sano Y
Shinshu Univ. Nagano Jpn
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Sano Y
Department Of Fine Material Engineering Faculty Of Texile Science And Technology Shinshu University
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Sano Yoshiki
Department Of Fine Material Engineering Faculty Of Texile Science And Technology Shinshu University
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TOYOFUKU HISASHI
Department of Fine Materials Engineering, Faculty of Textile Science and Technology, Shinshu Univers
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MINEGISHI IKUO
Department of Fine Materials Engineering, Faculty of Textile Science and Technology, Shinshu Univers
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HATTORI TAKEHIKO
Department of Fine Materials Engineering, Faculty of Textile Science and Technology, Shinshu Univers
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NAGURA MASANOBU
Department of Fine Materials Engineering, Faculty of Textile Science and Technology, Shinshu Univers
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Minegishi Ikuo
Department Of Fine Materials Engineering Faculty Of Textile Science And Technology Shinshu Universit
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Toyofuku Hisashi
Department Of Fine Materials Engineering Faculty Of Textile Science And Technology Shinshu Universit
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Hattori Takehiko
Department Of Fine Materials Engineering Faculty Of Textile Science And Technology Shinshu Universit
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ARIGA OSAMU
Department of Chemical Engineering, Faculty of Engineering, Nagoya University
関連論文
- OVERPRODUCTION OF FOREIGN GENE PRODUCT IN RECOMBINANT ESCHERICHIA COLI BY IN SITU ADSORPTION OF TRYPTOPHAN
- Immobilization of β-Galactosidase with Polyvinyl Alcohol
- Immobilization of a Thermostable Enzyme Using a Sol-Gel Preparation Method
- Diauxie in Immobilized Microorganisms
- Simultaneous Release and Purification of Gene Product in an Aqueous Two-Phase System
- Effective Diffusivity of Glucose in PVA Hydrogel
- Immobilization of Microorganisms with PVA Hardened by Iterative Freezing and Thawing
- Efficient Production of Recombinant Enzymes Using PVA-Encapsulated Bacteria
- Effects of Incubation Conditions on the Release of a Recombinant Product in Immobilized Escherichia coli Cells
- Encapsulation of Biocatalyst with PVA Capsules
- Mechamical and Kinetic Properties of PVA Hydrogel Immobilizing β-Galactosidase
- Effect of Polyvinyl Alcohol on Kinetic and Thermal Properties of β-Galactosidase
- Production of Thermophilic α-Amylase Using Immobilized Transformed Escherichia coli by Addition of Glycine
- Release of Thermophilic α-Amylase from Transformed Escherichia coli by Addition of Glycine
- Efficient Release of Thermostable β-Galactosidase by Glycine Addition and Thermal Treatment of Escherichia coli Cells
- Effect of immobilization on stability of recombinant plasmids in gene-engineered microorganisms.
- Biomethanation under elevated pressure.
- Production of SCP and animal feed for entire utilization of LPC processing effluents.