Optimization and Immobilization of Purified Labeo rohita Visceral Protease by Entrapment Method.

Q2 Biochemistry, Genetics and Molecular Biology

Enzyme Research Pub Date : 2013-01-01 Epub Date: 2013-02-27 DOI:10.1155/2013/874050

S Geethanjali, Anitha Subash

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引用次数: 32

Abstract

The purified fish visceral protease enzyme was immobilized by using various concentrations of sodium alginate and calcium chloride to optimize the best concentration for the formation of the beads. Then it was characterized by assaying the optimal pH, temperature, storage stability and reusability. The results on immobilization with sodium alginate and calcium chloride showed that a combination of 2% sodium alginate and 0.3 M calcium chloride weas found to be the optimum concentration for the formation of spherical and stable beads, this gave a maximal entrapped activity of 48.31%, and there was no change in the optimum pH 8.0 and temperature 40°C of protease before and after entrapment. The results on stability and reusability indicated that it was stable at 4°C retaining 100% residual activity after 5 days of storage and 67% loss of activity after ten days of storage and it retained 100% residual activity on the first reuse, 75% residual activity on the second reuse, 25% residual activity on the third use and complete loss in the activity on the fourth reuse.

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包埋法优化及固定化纯化的牛唇鱼内脏蛋白酶。

用不同浓度的海藻酸钠和氯化钙对纯化的鱼内脏蛋白酶进行固定化，以优化形成微球的最佳浓度。然后对其进行了最佳pH、温度、贮存稳定性和可重复使用性的表征。海藻酸钠和氯化钙的固定化结果表明，2%海藻酸钠和0.3 M氯化钙的组合是形成球形稳定微球的最佳浓度，其包封活性最高为48.31%，且包封前后蛋白酶的最佳pH 8.0和温度40℃没有变化。稳定性和可重用性结果表明，该材料在4℃条件下保持稳定，5天后保持100%的剩余活性，10天后活性损失67%，第一次重复使用时保持100%的剩余活性，第二次重复使用时保持75%的剩余活性，第三次使用时保持25%的剩余活性，第四次重复使用时完全失去活性。

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来源期刊

Enzyme Research Biochemistry, Genetics and Molecular Biology-Biochemistry

CiteScore

4.60

自引率

0.00%

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