固定化内纤维素酶在不同水解条件下的循环利用。

Q2 Biochemistry, Genetics and Molecular Biology Enzyme Research Pub Date : 2017-01-01 Epub Date: 2017-03-29 DOI:10.1155/2017/4362704
D F Silva, A F A Carvalho, T Y Shinya, G S Mazali, R D Herculano, P Oliva-Neto
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引用次数: 9

摘要

固定化纤维素酶是降低酶应用成本的一种经济可行的方法。在纸滤池水解循环中对固定化产物进行了评价。固定化过程表明,酶循环受混合物形状(滴或片)和类型的影响。E’片和B’滴液的酶循环28次,B’滴液的酶循环13次。衍生物E′在循环中表现出最高的稳定性,得到0.05 FPU/g, RA为10%,FPU Yield为1.64倍,高于FPU消耗或净FPU Yield的5.3倍,节省了更多的活性酶。衍生物B的稳定性达到0.15 FPU/g,活性回收率(RA)为25%,FPU产率为1.57倍,高于固定化消耗的FPU或净PFU产率2.81倍。乳胶提高了液滴的稳定性和抗阻性,但没有提高衍生物的FPU/g。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Recycle of Immobilized Endocellulases in Different Conditions for Cellulose Hydrolysis.

The immobilization of cellulases could be an economical alternative for cost reduction of enzyme application. The derivatives obtained in the immobilization derivatives were evaluated in recycles of paper filter hydrolysis. The immobilization process showed that the enzyme recycles were influenced by the shape (drop or sheet) and type of the mixture. The enzyme was recycled 28 times for sheets E' and 13 times for drops B'. The derivative E' showed the highest stability in the recycle obtaining 0.05 FPU/g, RA of 10%, and FPU Yield of 1.64 times, higher than FPU spent or Net FPU Yield of 5.3 times, saving more active enzymes. The derivative B showed stability in recycles reaching 0.15 FPU/g of derivative, yield of Recovered Activity (RA) of 25%, and FPU Yield of 1.57 times, higher than FPU spent on immobilization or Net PFU Yield of 2.81 times. The latex increased stability and resistance of the drops but did not improve the FPU/gram of derivative.

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来源期刊
Enzyme Research
Enzyme Research Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
4.60
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