根霉脂肪酶的部分纯化、固定化及初步生化特性研究

A. L. Ferrarezi, D. Pivetta, G. O. Bonilla-Rodriguez, R. Silva, J. Guisán, E. Gomes, B. Pessela
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引用次数: 4

摘要

脂肪酶在生物技术过程中有着重要的应用,促使我们生产、纯化、固定化和进行生物化学表征从根霉脂肪酶。通过固态发酵培养该菌,产生约0.5 U/mL(4U/g)的解脂活性。在Se-phacryl S-100中通过凝胶过滤层析进行部分纯化,可获得约85%的收率和5.7的纯化系数。我们的研究结果表明,纯化后的酶非常稳定,与粗提物相比,其性质有一些显着差异。粗酶提物的最佳pH和温度分别为7.5℃和40℃。纯化后,观察到最佳pH值从7变为8,最佳温度上升到60°C,稳定性增加。将酶固定在cnbr -琼脂糖和辛基-琼脂糖载体上,第二种树脂的固定化率最高,达94%。在疏水介质(如辛酯)中固定化的主要优势在于它的超激活,在这种情况下超过200%,这是一个非常有趣的发现。这种固定方式的另一个优点是可以将其衍生物用于生物技术应用,例如富含omega-3的油,本研究的结果显示,沙丁鱼油中水解了40%的EPA和7%的DHA,与文献相比,这是一个很有希望的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Partial purification, immobilization and preliminary biochemical characterization of lipases from Rhizomucor pusillus
Lipases have important applications in biotechnological processes, motivating us to produce, purify, immobilize and perform a biochemical characterization of the lipase from Rhizomucor pusillus. The fungus was cultivated by solid state fermentation producing lipolytic activity of about 0.5 U/mL(4U/g). A partial purification by gel filtration chromatography in Se-phacryl S-100 allowed obtaining a yield of about 85% and a purification factor of 5.7. Our results revealed that the purified enzyme is very stable with some significant differences in its properties when compared to crude extract. The crude enzyme extract has an optimum pH and temperature of 7.5 ° C and 40 ° C, respectively. After purification, a shift of the optimum pH from 7 to 8 was observed, as well as a rise in optimumtemperature to 60 ° C and an increase in stability. The enzyme was immobilized on CNBr-Agarose and Octyl-Agarose supports, having the highest immobilization yield of 94% in the second resin. The major advantage of immobilization in hydrophobic media such as Octyl is in its hyper activation, which in this case was over 200%, a very interesting finding. Another advantage of this type of immobilization is the possibility of using the derivatives in biotechnological applications, such as in oil enriched with omega-3 as the results obtained in this study display the hydrolysis of 40% EPA and 7% DHA from sardine oil, promising results compared to the literature.
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