酶法脱毛制革技术的关键机理:蛋白酶对兽皮的渗透行为及电荷调节机制

Mengchu Gao, Jinzhi Song, Xu Zhang, Chunxiao Zhang, Biyu Peng, Sadaqat Ali Chattha
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引用次数: 0

摘要

由于酶具有满足日益增长的环境要求的优点,酶已被广泛用于清洁皮革工艺中作为传统化学品的替代品。特别是以蛋白酶为基础的酶解脱毛技术在制革中应用已久,但其在兽皮中的渗透速度慢,导致脱毛速度慢,脱毛效果差,兽皮胶原蛋白水解过度,皮革质量下降。针对生物脱毛技术的关键问题,采用荧光标记技术和激光共聚焦扫描显微镜技术,在制备好的标记蛋白酶的基础上,研究了蛋白酶对兽皮的渗透行为,并定量分析了不同兽皮层中蛋白酶的含量。结果表明,蛋白酶主要从毛侧经毛囊途径渗透到牛皮中,虽然也存在细胞间-纤维间途径,但并不起重要作用。此外,蛋白酶在皮革中的渗透行为很大程度上受到皮革和蛋白酶蛋白的电荷状态的影响,这取决于蛋白质的等电点(pI)和溶液pH值。当溶液的pH值不在两种蛋白质的pI值之间时,由于静电斥力的作用,带类似电荷的蛋白酶可以迅速而深入地渗透到皮中。所建立的机制为开发高效的皮革酶脱毛技术提供了理论基础,也可应用于涉及酶渗透到皮革或皮革中的其他工艺。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Key mechanism of enzymatic dehairing technology for leather-making: permeation behaviors of protease into animal hide and the mechanism of charge regulation

Enzymes have been widely used as alternatives to conventional chemicals in cleaner leather processes due to their advantages of meeting increasing environmental demands. Especially, enzymatic unhairing based on protease has been applied to leather-making for a long time, however, it still has the key problem of slow permeation in the animal hide, resulting in slow unhairing rate, poor hair removal effect, excessive proteolysis of hide collagen, and decreased leather quality. Aiming at the key problem of bio-unhairing technology, fluorescent labeling technique and confocal laser scanning microscopy were used to investigate the protease permeation behaviors into the animal hide based on well-prepared labeled proteases, as well as the quantitative analysis of the protease amount in different hide layers. The results show that the protease mainly permeates the bovine hide through transfollicular routes from the hair side, and although the intercellular-interfibrillar pathway also exists, it does not play an important role. Additionally, the protease permeation behaviors into the hide are greatly impacted by the charge states of the hide and protease proteins, depending on the isoelectric points (pI) of the proteins and solution pH values. When the solution pH is not between the pI values of the two proteins, the similarly charged protease can quickly and deeply penetrate the hide because of the electrostatic repulsion. The established mechanism provides a theoretical basis for developing an efficient enzymatic unhairing technology for leather-making, and this can also be applied to other processes involving the enzyme permeation into the hide or leather.

Graphical Abstract

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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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