综述木聚糖酶的来源、分类、作用方式、发酵过程以及作为一种有前途的生物催化剂的应用。

Biotechnologia Pub Date : 2024-09-30 eCollection Date: 2024-01-01 DOI:10.5114/bta.2024.141806
Tariku Abena, Addis Simachew
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引用次数: 0

摘要

与化学催化剂相比,水解酶在全球各种工业流程中的利用受到更多关注,这是因为酶的选择性高,易于控制,而且对环境的影响微乎其微,因为它们产生的副产品量极少。木聚糖酶就是这样一种酶,它能催化木聚糖β-1,4连接的分解,木聚糖是植物细胞壁中第二丰富的可再生杂多糖和半纤维素成分。天然木聚糖酶可从各种来源获得,如软体动物、昆虫、植物、动物和各种微生物(细菌、真菌、酵母和藻类)。利用木聚糖酶可以大大提高加工木质纤维素材料生成单糖、液体燃料和化学品的整体经济效益。微生物木聚糖酶适用于食品和饲料、造纸和纸浆、纺织、制药和生物精炼行业。由于其底物特异性、生物化学性质和各种生物技术应用,它已受到全球关注。本综述重点介绍木聚糖酶的生产、来源、发酵过程、作用模式、纯化方法以及在各行业中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A review on xylanase sources, classification, mode of action, fermentation processes, and applications as a promising biocatalyst.

The utilization of hydrolytic enzymes in various industrial processes worldwide has gained more attention than chemical catalysts due to the high selectivity of enzymes, their ease of control, and their negligible environmental impact, as they produce very small amounts of byproducts. Xylanase is one such enzyme that catalyzes the breakdown of the β-1,4 linkage of xylan, the second most abundant renewable heteropolysaccharide and hemicellulosic constituent of the plant cell wall. Naturally, xylanase can be obtained from various sources such as mollusks, insects, plants, animals, and various microorganisms (bacteria, fungi, yeast, and algae). The utilization of xylanase could greatly improve the overall economics of processing lignocellulosic materials for the generation of monosaccharides, liquid fuels, and chemicals. Microbial xylanase is suitable for applications in food and feed, paper and pulp, textile, pharmaceutical, and biorefining industries. It has gained global attention due to its substrate specificities, biochemical properties, and various biotechnological applications. This review focuses on xylanase production, sources, fermentation processes, modes of action, purification methods, and applications in various industries.

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