两种带有碳水化合物结合模块标签的乙醇脱氢酶的克隆、表达及一步纯化/固定化

Cloning, expression, and one-step purification/immobilization of two carbohydrate-binding module-tagged alcohol dehydrogenases.

作者信息

Benito Mario, Román Ramón, Ortiz Garazi, Casablancas Antoni, Álvaro Gregorio, Caminal Gloria, González Gloria, Guillén Marina

机构信息

Bioprocess Engineering and Applied Biocatalysis Group, Department of Chemical Biological and Environmental Engineering, Universitat Autònoma de Barcelona, 08193, Bellaterra, Spain.

Institute of Advanced Chemistry of Catalonia, IQAC-CSIC, Jordi Girona 18-26, 08034, Barcelona, Spain.

出版信息

J Biol Eng. 2022 Jun 28;16(1):16. doi: 10.1186/s13036-022-00295-8.

DOI:10.1186/s13036-022-00295-8

PMID:35765016

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9241262/

Abstract

BACKGROUND

The feasibility of biochemical transformation processes is usually greatly dependent on biocatalysts cost. Therefore, immobilizing and reusing biocatalysts is an approach to be considered to bring biotransformations closer to industrial feasibility, since it does not only allow to reuse enzymes but can also improve their stability towards several reaction conditions. Carbohydrate-Binding Modules (CBM) are well-described domains involved in substrate binding which have been already used as purification tags.

RESULTS

In this work, two different Carbohydrate-Binding Modules (CBM3 and CBM9) have been successfully fused to an alcohol dehydrogenase from Saccharomyces cerevisiae, which has been produced in bench-scale reactor using an auxotrophic M15-derived E. coli strain, following a fed-batch strategy with antibiotic-free medium. Around 40 mg·g DCW of both fusion proteins were produced, with a specific activity of > 65 AU·mg. Overexpressed proteins were bound to a low-cost and highly selective cellulosic support by one-step immobilization/purification process at > 98% yield, retaining about a 90% of initial activity. Finally, the same support was also used for protein purification, aiming to establish an alternative to metal affinity chromatography, by which CBM9 tag proved to be useful, with a recovery yield of > 97% and 5-fold increased purity grade.

CONCLUSION

CBM domains were proved to be suitable for one-step immobilization/purification process, retaining almost total activity offered. However, purification process was only successful with CBM9.

摘要

背景

生化转化过程的可行性通常在很大程度上取决于生物催化剂的成本。因此，固定化和重复使用生物催化剂是一种值得考虑的方法，以使生物转化更接近工业可行性，因为它不仅允许酶的重复使用，还可以提高它们在多种反应条件下的稳定性。碳水化合物结合模块（CBM）是参与底物结合的已被充分描述的结构域，已被用作纯化标签。

结果

在这项工作中，两种不同的碳水化合物结合模块（CBM3和CBM9）已成功融合到酿酒酵母的乙醇脱氢酶上，该酶已在实验室规模的反应器中使用源自营养缺陷型M15的大肠杆菌菌株，采用无抗生素培养基的分批补料策略进行生产。两种融合蛋白的产量约为40mg·g干细胞重量，比活性>65AU·mg。通过一步固定化/纯化过程，将过表达的蛋白质以>98%的产率结合到低成本且高度选择性的纤维素载体上，保留了约90%的初始活性。最后，相同的载体也用于蛋白质纯化，旨在建立一种替代金属亲和色谱的方法，结果证明CBM9标签是有用的，回收率>97%，纯度等级提高了5倍。

结论

已证明CBM结构域适用于一步固定化/纯化过程，几乎保留了全部活性。然而，纯化过程仅在CBM9上成功。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f9fa/9241262/61de5f085912/13036_2022_295_Fig1_HTML.jpg

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两种带有碳水化合物结合模块标签的乙醇脱氢酶的克隆、表达及一步纯化/固定化

Cloning, expression, and one-step purification/immobilization of two carbohydrate-binding module-tagged alcohol dehydrogenases.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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