Media Selection for Refolding of Thermolysin by Use of Immobilized Preparation
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概要
- 論文の詳細を見る
Selection of the most effective medium for the correct refolding of thermolysin was performed. Thermolysin that had been denatured with 6 M guanidinium chloride at pH 2.0 could not be recovered to its activity larger than ca. 10% even when the denaturant was dilluted with a conventional buffer solution. The amount of activity recovered by this method decreased with time. The recovered activity was ca. 20% at most where 1 M calcium chloride or 1.6M calcium acetate was employed as the refolding medium instead of the conventional buffer solution. In this case also, the activity decreased with time. Not only the low recovered activity or yield, but also the elimination of the activity once recovered, was probably mainly due to the intermolecular interactions between protein molecules such as autolysis and aggregation. In order to exclude the influence of the intermolecular interactions and to select the effective media for the correct refolding of thermolysin, immobilized thermolysin was prepared using agarose gel. Employment of the immobilized preparation made it possible to quantitatively determine the refolding of thermolysin and results revealed that the salts of organic acid, such as potassium acetate and sodium acetate, were excellent media for refolding. The immobilization was confirmed to be available for the selection of protein refolding media and indispensable, especially in the case of proteases. Since these results were partly similar to those obtained in the case of subtilisin reported previously, results of both cases were compared.
- 社団法人日本生物工学会の論文
- 2000-02-25
著者
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野原 大輔
名古屋市立大学薬学部 薬品製造工学教室
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酒井 朝也
名古屋市立大学薬学部 薬品製造工学教室
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NOHARA DAISUKE
Department of Chemical Reaction Engineering, Faculty of Pharmaceutical Sciences, Nagoya City Univers
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SENGA YASUHIRO
Department of Chemical Reaction Engineering, Faculty of Pharmaceutical Sciences, Nagoya City Univers
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MATSUBARA MAMORU
Department of Chemical Reaction Engineering, Faculty of Pharmaceutical Sciences, Nagoya City Univers
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SAKAI TOMOYA
Department of Chemical Reaction Engineering, Faculty of Pharmaceutical Sciences, Nagoya City Univers
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Sakai Tomoya
Department Of Chemical Reaction Engineering Faculty Of Pharmaceutical Sciences Nagoya City Universit
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Nohara Daisuke
Department Of Biomolecular Science Faculty Of Engineering Gifu University
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Senga Yasuhiro
Department Of Chemical Reaction Engineering Faculty Of Pharmaceutical Sciences Nagoya City Universit
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Matsubara Mamoru
Department Of Chemical Reaction Engineering Faculty Of Pharmaceutical Sciences Nagoya City Universit
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