T7 Expression Systems for Inducible Production of Proteins from Cloned Genes in E. coli

Q2 Biochemistry, Genetics and Molecular Biology Current Protocols in Molecular Biology Pub Date : 2018-07-17 DOI:10.1002/cpmb.63

F. William Studier

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引用次数: 15

Abstract

Inducible T7 expression systems are capable of producing a wide range of proteins in E. coli. Improvements over common practice include: (1) preventing unintended induction by establishing and maintaining expression strains in non-inducing growth media composed entirely of purified components instead of complex growth media that may variably induce target proteins on approach to saturation; and (2) expressing many target proteins in parallel by convenient and productive auto-induction in BL21(DE3) and other suitable hosts, instead of IPTG induction. From the earliest days, basal expression prevented establishment of inducible strains for producing proteins that are stressful to the host. Newly developed pAL vectors now reduce basal expression to levels where coding sequences for even the most stressful proteins can be maintained and induced. Asymmetric ligation allows simple and efficient cloning of individual coding sequences or simultaneous cloning of two or three coding sequences for co-expression from a single pAL vector. © 2018 by John Wiley & Sons, Inc.

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克隆基因在大肠杆菌中诱导产蛋白的T7表达系统

诱导型T7表达系统能够在大肠杆菌中产生多种蛋白质。与一般做法相比，改进包括:(1)通过在完全由纯化组分组成的非诱导生长介质中建立和维持表达菌株，而不是在接近饱和时可能可变地诱导靶蛋白的复杂生长介质中建立和维持表达菌株，防止意外诱导;(2)代替IPTG诱导，在BL21(DE3)和其他合适的宿主中方便高效地自动诱导，平行表达多个目标蛋白。从早期开始，基础表达阻止了诱导菌株的建立，以产生对宿主有压力的蛋白质。新开发的pAL载体现在降低了基础表达水平，即使是最紧张的蛋白质的编码序列也可以维持和诱导。不对称连接允许简单有效地克隆单个编码序列或同时克隆两个或三个编码序列以从单个pAL载体中共表达。©2018 by John Wiley &儿子,Inc。

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Current Protocols in Molecular Biology Biochemistry, Genetics and Molecular Biology-Molecular Biology

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