Ren Guoping, Ke Na, Berkmen Mehmet
New England Biolabs, Ipswich, Massachusetts.
Curr Protoc Protein Sci. 2016 Aug 1;85:5.26.1-5.26.21. doi: 10.1002/cpps.11.
Escherichia coli continues to be a popular expression host for the production of proteins, yet successful recombinant expression of active proteins to high yields remains a trial and error process. This is mainly due to decoupling of the folding factors of a protein from its native host, when expressed recombinantly in E. coli. Failure to fold could be due to many reasons but is often due to lack of post-translational modifications that are absent in E. coli. One such post-translational modification is the formation of disulfide bonds, a common feature of secreted proteins. The genetically engineered SHuffle cells offer an expression solution to proteins that require disulfide bonds for their folding and activity. The purpose of this protocol unit is to familiarize the researcher with the biology of SHuffle cells and guide the experimental design in order to optimize and increase the chances of successful expression of their desired protein of choice. Example of the expression and purification of a model disulfide-bonded protein DsbC is described in detail. © 2016 by John Wiley & Sons, Inc.
大肠杆菌仍然是生产蛋白质的常用表达宿主,但要成功地将活性蛋白以高产率进行重组表达,仍然是一个反复试验的过程。这主要是因为当在大肠杆菌中进行重组表达时,蛋白质的折叠因子与其天然宿主解耦。无法折叠可能有多种原因,但通常是由于大肠杆菌中缺乏翻译后修饰。一种这样的翻译后修饰是二硫键的形成,这是分泌蛋白的一个共同特征。基因工程改造的SHuffle细胞为需要二硫键进行折叠和发挥活性的蛋白质提供了一种表达解决方案。本方案单元的目的是使研究人员熟悉SHuffle细胞的生物学特性,并指导实验设计,以优化并增加成功表达其所需目标蛋白的机会。详细描述了模型二硫键结合蛋白DsbC的表达和纯化示例。© 2016约翰威立父子公司版权所有
