Isolation and partial characterization of amylase produced by fungal isolates from the agro-industrial waste source

Journal of Applied Biology & Biotechnology Pub Date : 2022-06-01 DOI:10.7324/jabb.2022.100406

Soumya Nandi, Twinkle Bose, Susmita Mahato, S. Chatterjee, Annalakhmi Chatterjee

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引用次数: 1

Abstract

Alpha-amylase (E.C.3.2.1.1) plays a great role as it has multiple applications in various industries. At present, its production has reached up to 65% of the enzyme market in the world and is continuously increasing. Alpha-amylase is produced by a variety of living organisms ranging from bacteria to plants and animals. The specific activity of α -amylase is dependent on various biochemical phenotype parameters such as substrate, pH, and temperature as well as metal ions requirements. Potato starch with a concentration of 5 mg/ml was found to be more enzyme-specific (34.02 IU/mg of protein) as substrate compared to other variety of starch. The enzyme was best active at pH 8.0 and incubation temperature of 37°C using Na 2+ as metal ions. The findings suggest that enzyme activity increases up to a certain concentration then decreases, structural properties also influence the enzyme activity. The optimum temperature and pH of enzyme activity are also dependent on the microbial strain used. Competition between the exogenous cations and the protein-associated cation decreases metalloenzyme activity. Therefore, this study was aimed to determine the specificity of isolated α -amylase by variety of substrate, pH, incubation temperature and metal ions by giving a crucial comparison between each of the parameter of the standard assay.

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农工废弃物源真菌淀粉酶的分离及部分特性研究

α -淀粉酶(E.C.3.2.1.1)在不同的行业中有着广泛的应用，发挥着重要的作用。目前，其产量已达到世界酶市场的65%，并在不断增加。α -淀粉酶是由多种生物体产生的，从细菌到植物和动物。α -淀粉酶的比活性取决于各种生化表型参数，如底物、pH、温度以及金属离子需求。与其他淀粉相比，浓度为5 mg/ml的马铃薯淀粉具有更强的酶特异性(34.02 IU/mg蛋白质)。以na2 +为金属离子，在pH 8.0和37℃的孵育条件下酶活性最佳。研究结果表明，酶的活性在达到一定浓度后会增加，然后降低，结构特性也会影响酶的活性。酶活性的最佳温度和pH值也取决于所使用的微生物菌株。外源阳离子和蛋白质相关阳离子之间的竞争降低了金属酶的活性。因此，本研究的目的是通过对标准实验的每个参数进行关键比较，确定分离的α -淀粉酶在不同底物、pH、培养温度和金属离子下的特异性。

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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Journal of Applied Biology & Biotechnology

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