Immobilization of α-Amylase onto Luffa operculata Fibers.

Q2 Biochemistry, Genetics and Molecular Biology Enzyme Research Pub Date : 2013-01-01 Epub Date: 2013-03-31 DOI:10.1155/2013/803415
Ricardo R Morais, Aline M Pascoal, Samantha S Caramori, Flavio M Lopes, Kátia F Fernandes
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引用次数: 9

Abstract

A commercial amylase (amy) was immobilized by adsorption onto Luffa operculata fibers (LOFs). The derivative LOF-amy presented capacity to hydrolyze starch continuously and repeatedly for over three weeks, preserving more than 80% of the initial activity. This system hydrolyzed more than 97% of starch during 5 min, at room temperature. LOF-amy was capable to hydrolyze starch from different sources, such as maize (93.96%), wheat (85.24%), and cassava (79.03%). A semi-industrial scale reactor containing LOF-amy was prepared and showed the same yield of the laboratory-scale system. After five cycles of reuse, the LOF-amy reactor preserved over 80% of the initial amylase activity. Additionally, the LOF-amy was capable to operate as a kitchen grease trap component in a real situation during 30 days, preserving 30% of their initial amylase activity.

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α-淀粉酶在丝瓜纤维上的固定化。
用吸附法固定化了一种商业淀粉酶(amy)。衍生物LOF-amy表现出连续和重复水解淀粉超过三周的能力,保留了80%以上的初始活性。在室温下,该系统在5分钟内水解97%以上的淀粉。LOF-amy能够水解不同来源的淀粉,如玉米(93.96%)、小麦(85.24%)和木薯(79.03%)。制备了一个半工业规模的含LOF-amy反应器,其产率与实验室规模的反应器相当。经过5次循环再利用,LOF-amy反应器保留了超过80%的初始淀粉酶活性。此外,LOF-amy能够在30天的实际情况下作为厨房隔油器组件运行,保留其初始淀粉酶活性的30%。
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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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