双水相体系萃取在各种生物分子分离纯化中的应用:四元体系带来的进展

M. Marchel, I. Marrucho
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引用次数: 1

摘要

水相萃取系统(ABS)是一种简单、选择性强、高效且易于扩大规模的技术,多年来,作为多种生物分子下游加工的替代方法,引起了研究人员的广泛关注。本文综述并讨论了ABS作为一种生物分子分离纯化技术的基本特点及其优缺点。本文重点介绍了在常规ABS的基础上加入中性盐和离子液体形成的季系ABS,以及由深共晶溶剂和其他成相化合物组成的季系ABS。讨论了季系ABS在分离和纯化生物分子方面的优势,以及控制这些体系相行为的主要问题。第四季ABS作为一种替代提取和纯化方法的应用实例表明,这种ABS是一种有前途的方法,可以提高生物分子下游加工的有效性,有可能满足对高纯度生物产品日益增长的需求。此外,所讨论的一些季ABS具有巨大的潜力,作为生物分子下游加工的新型、可持续和经济的纯化平台,可以简化整个基于ABS的纯化过程,因为不需要目标生物产物的回收或相形成物的去除。最后,对四元ABS的发展前景进行了展望,并指出了未来面临的挑战。
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Application of Aqueous Biphasic Systems Extraction in Various Biomolecules Separation and Purification: Advancements Brought by Quaternary Systems
ABSTRACT Aqueous biphasic systems (ABS) extraction is a simple, selective, efficient and easy to scale-up technology that, over the years, has attracted a considerable attention from the researcher community as an alternative methodology in downstream processing of a wide variety of biomolecules. This review summarizes and discusses the fundamental features of ABS, as well as its advantages and disadvantages, as a separation and purification technology of biomolecules. Nevertheless, the focus of this review are quaternary ABS formed by the addition of neutral salts and ionic liquids to conventional ABS or those ABS composed by deep eutectic solvents and another phase forming compound. The advantages brought by quaternary ABS in terms of separation and purification of biomolecules, as well as the main issues governing the phase behavior of these systems, are discussed. With examples of application of quaternary ABS as an alternative extraction and purification methodology, it is shown that such ABS are a promising method to improve the effectiveness of biomolecules downstream processing, potentially providing a response to the increasing demand for high purity bioproduct. Furthermore, some of the discussed quaternary ABS have a great potential as a novel, sustainable and cost-effective purification platform for biomolecules downstream processing that can potentially simplify the whole ABS-based purification process due to no need for target bioproduct recovery or phase formers removal. Finally, perspectives of such quaternary ABS are made, and some future challenges pointed out.
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