Characterization of Amylase Produced by Thermophilic Bacillus sp. TS9

National Journal of Biological Sciences Pub Date : 2020-06-04 DOI:10.37605/njbs.v1i1.3

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Abstract

Amylases constitute the second largest group of enzymes in the world enzyme market and are produced by many bacterial and fungal strains. The potent producer of amylase is Bacillus due to the production of thermostable enzymes that can withstand harsh conditions in industrial bioprocess. The α-amylase produced by Bacillus sp. TS9 was purified through gel filtration chromatography and then crude, partially purified and purified α-amylase was characterized. The crude, partially purified and purified amylase showed stability to a wide range of temperature (35-80°C) and pH (6-9) with optimum temperature and pH is 55°C and 9 respectively. The purified amylase also retained 70% of its activity at 100°C after incubation of 3 hours. The crude, partially purified and purified amylase showed stability to Na +1 and Mg +2 , methanol, and commercial detergents, less affected by Zn+2 , (NH4)2SO4, Triton-X-100, Tween-80 and SDS and some solvents but its activity was reduced by Ca +2 and Hg +2 . The amylase obtained from Bacillus sp. TS9 is Ca+2 independent as don’t require Ca +2 ions for its activity, but still the purified amylase was sensitive to EDTA to some extent. Its activity was completely inhibited by mercapto-ethanol revealing that histidine residues are present at the active site of an enzyme. As the amylase obtained from thermophilic Bacillus sp. TS9 showed stability to high temperature and pH, solvents, metal ions, detergents, and surfactants, so can be utilized in starch processing, detergent, textile, and food industries.

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嗜热芽孢杆菌TS9淀粉酶的研究

淀粉酶是世界酶市场上第二大酶类，由许多细菌和真菌菌株产生。淀粉酶的强力生产者是芽孢杆菌，因为芽孢杆菌生产的耐热酶可以承受工业生物过程中的恶劣条件。采用凝胶过滤层析法对Bacillus sp. TS9产α-淀粉酶进行纯化，并对α-淀粉酶的粗酶、部分纯化酶和纯化酶进行表征。粗淀粉酶、部分纯化淀粉酶和纯化淀粉酶在较宽的温度(35 ~ 80℃)和pH(6 ~ 9)范围内表现出稳定性，其中最适温度和pH分别为55℃和9。纯化的淀粉酶在100℃孵育3小时后仍保持70%的活性。粗淀粉酶、部分纯化淀粉酶和纯化淀粉酶对Na +1和Mg +2、甲醇和工业洗涤剂具有较好的稳定性，对Zn+2、(NH4)2SO4、Triton-X-100、Tween-80和SDS以及部分溶剂的影响较小，但对Ca +2和Hg +2的活性降低。从Bacillus sp. TS9中获得的淀粉酶是不依赖Ca+2的，不需要Ca+2离子来产生活性，但纯化后的淀粉酶对EDTA仍有一定的敏感性。其活性被巯基乙醇完全抑制，表明组氨酸残基存在于酶的活性位点。从嗜热芽孢杆菌TS9中获得的淀粉酶对高温、pH值、溶剂、金属离子、洗涤剂、表面活性剂等具有良好的稳定性，可用于淀粉加工、洗涤剂、纺织、食品等行业。

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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National Journal of Biological Sciences

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