Irene Nigi, Louise Fairall, John W.R. Schwabe
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引用次数: 10
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Abstract
Prokaryotic expression systems have been widely used to express proteins for structural studies. Such expression systems have the advantage of being economical, straightforward and fast. However, for many eukaryotic proteins and particularly protein complexes, bacterial expression systems do not produce significant yields of soluble protein. This may result from failure to efficiently transcribe/translate the required protein or may result from the formation of insoluble aggregates known as inclusion bodies. Mammalian expression systems can often produce natively folded proteins, sometimes with native post-translational modifications. However, such expression systems are underutilized due to the perception that they are costly, technically challenging and result in limited protein yields. In fact, HEK 293F cells are straightforward to grow, transfect with high efficiency and often produce significant yields of recombinant proteins. In this unit, we describe a method to express and purify milligram quantities of a human protein complex from HEK 293F cells grown in suspension transiently transfected with the appropriate plasmids. © 2017 by John Wiley & Sons, Inc.
适用于哺乳动物HEK 293F细胞结构研究的蛋白复合物的表达和纯化
原核表达系统已广泛用于表达蛋白质的结构研究。该表达系统具有经济、简单、快捷等优点。然而,对于许多真核蛋白,特别是蛋白质复合物,细菌表达系统不能产生显著的可溶性蛋白产量。这可能是由于不能有效地转录/翻译所需的蛋白质,也可能是由于形成了不溶性的聚集体,即包涵体。哺乳动物的表达系统通常可以产生天然折叠蛋白,有时具有天然的翻译后修饰。然而,这种表达系统没有得到充分利用,因为人们认为它们成本高昂,技术上具有挑战性,并且导致蛋白质产量有限。事实上,HEK 293F细胞生长简单,转染效率高,通常能产生大量重组蛋白。在本单元中,我们描述了一种从悬浮生长的HEK 293F细胞中表达和纯化毫克量的人蛋白复合物的方法,该细胞瞬时转染了适当的质粒。©2017 by John Wiley &儿子,Inc。
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