Industrial Processing of Commercially Significant Enzymes

A. Vimal, Gauresh Sharma
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Abstract

Enzymes are highly specific and highly sensitive biocatalyst proteins that play important roles in various life processes. As they are proteins, thus, they are composed of amino acids joined together to form chains. These amino acids are linked by peptide bonds that form between the amino-terminal and carboxylic end. There is the multifaceted application of enzymes in various sectors that include food, textile, paints, pharmaceuticals, leather, oil industries, etc. There is a wide range of sources available for the extraction of enzymes. The commercially important enzymes are generally harvested from microbial sources. Some enzymes are produced extracellularly while some enzymes are produced intracellularly. The production of this bioactive compound could be enhanced by applying suitable optimization techniques, genetic engineering tools, and other modern techniques. One of the major challenges in the commercial production of enzymes is their extraction in pure form without losing their properties. Extraction of enzymes starts from upstream processing that mainly includes two types of fermentation; one is submerged fermentation and another one is solid-state fermentation. After upstream processing, downstream processing is followed which includes cell disruption, filtration, sedimentation and centrifugation, flocculation and coagulation, and chromatography. Then, enzyme purification strategies are followed (salting-out method, dialysis, gel filtration, ion-exchange chromatography, gel electrophoresis. The purpose of down streaming is to purify and concentrate the enzyme from the complex bulk matrix. A significant amount of total production cost is contributed by downstream processing. The review discusses the industrial importance of enzymes and their downstream processing techniques economically and sustainably.
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具有商业意义的酶的工业加工
酶是一种高度特异、高度敏感的生物催化蛋白,在各种生命过程中起着重要作用。因为它们是蛋白质,所以它们是由连接在一起形成链的氨基酸组成的。这些氨基酸由氨基端和羧基端之间形成的肽键连接。酶在各个领域有多方面的应用,包括食品、纺织、油漆、制药、皮革、石油工业等。酶的提取方法有很多种。商业上重要的酶通常是从微生物中获取的。有些酶在细胞外产生,有些酶在细胞内产生。利用适当的优化技术、基因工程工具和其他现代技术可以提高这种生物活性化合物的产量。酶的商业生产面临的主要挑战之一是在不失去其特性的情况下以纯形式提取酶。酶的提取从上游加工开始,主要包括两种发酵;一种是浸没发酵,另一种是固态发酵。上游处理后,下游处理包括细胞破坏、过滤、沉淀和离心、絮凝和混凝以及色谱。然后,酶的纯化策略遵循(盐析法,透析,凝胶过滤,离子交换色谱,凝胶电泳。向下流动的目的是从复杂的散装基质中纯化和浓缩酶。下游加工占总生产成本的很大一部分。综述了酶的工业重要性及其下游加工技术的经济和可持续发展。
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