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使用三膜吸附剂周期性逆流色谱法连续纯化脂肪酶B。

Continuous purification of lipase B using 3-membrane adsorber periodic counter-current chromatography.

作者信息

Brämer Chantal, Schreiber Sarah, Scheper Thomas, Beutel Sascha

机构信息

Institute of Technical Chemistry Gottfried Wilhelm Leibniz University of Hanover Hanover Germany.

出版信息

Eng Life Sci. 2018 Apr 30;18(7):414-424. doi: 10.1002/elsc.201700159. eCollection 2018 Jul.

DOI:10.1002/elsc.201700159
PMID:32624922
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6999568/
Abstract

Batch chromatography has several disadvantages, such as insufficient utilization of the capacity of the resin, high buffer consumption and discontinuity. Considering the high costs for downstream processing, a continuously working chromatographic system with three membrane adsorber units was designed, tested and put into operation. The basic principle of the setup is periodic counter-current chromatography (PCCC). The PCCC system was used for capturing and purifying lipase B (CalB) directly from cell lysate in one single unit operation. The best purification result was achieved by means of anion-exchange chromatography. The dynamic binding capacity with Sartobind® Q 75 amounted to 4.2 mg (56 g/cm). After transferring the method to the 3MA-PCCC, 0.22 g CalB (73 U/mg) were obtained from 0.9 L lysate within 6 h and a recovery of 80%. Compared to the batch process, the productivity could be increased by 36% and the buffer consumption could be reduced by about 20%. Although the purification of CalB from lysate by means of anion-exchange chromatography was not selective and quantitative using the 3MA-PCCC device, it could be shown that the concept of the system was successfully implemented and led to a significant improvement of CalB purification.

摘要

间歇色谱法有几个缺点,例如树脂容量利用不充分、缓冲液消耗量大以及不连续。考虑到下游加工成本高昂,设计、测试并运行了一种带有三个膜吸附器单元的连续工作色谱系统。该装置的基本原理是周期性逆流色谱法(PCCC)。PCCC系统用于在单个单元操作中直接从细胞裂解液中捕获和纯化脂肪酶B(CalB)。通过阴离子交换色谱法获得了最佳纯化效果。使用Sartobind® Q 75的动态结合容量为4.2毫克(56克/厘米)。将该方法应用于3MA-PCCC后,在6小时内从0.9升裂解液中获得了0.22克CalB(73 U/毫克),回收率为80%。与间歇法相比,生产率提高了36%,缓冲液消耗量减少了约20%。尽管使用3MA-PCCC装置通过阴离子交换色谱法从裂解液中纯化CalB并非选择性和定量的,但可以证明该系统的概念已成功实施,并显著改进了CalB的纯化。

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