利用疏水蛋白融合技术从植物提取物中进行重组蛋白的生物分离。

Bioseparation of recombinant proteins from plant extract with hydrophobin fusion technology.

作者信息

Joensuu Jussi J, Conley Andrew J, Linder Markus B, Menassa Rima

机构信息

VTT Technical Research Centre of Finland, Tietotie, Finland.

出版信息

Methods Mol Biol. 2012;824:527-34. doi: 10.1007/978-1-61779-433-9_28.

DOI:10.1007/978-1-61779-433-9_28

PMID:22160918

Abstract

Two main hurdles hinder the widespread acceptance of plants as a preferred protein expression platform: low accumulation levels and expensive chromatographic purification methods. Fusion of proteins of interest to fungal hydrophobins has provided a tool to address both accumulation and purification issues. In this method, we describe the one-step purification of a GFP-HFBI fusion from crude plant extract using an aqueous two-phase system (ATPS). ATPS can be carried out in a very short time frame, yields relatively pure protein with very few contaminants, and does not require any chromatographic column steps. This purification system takes advantage of the affinity of hydrophobins to the micellar phase of widely available nonionic surfactants, such as Triton X-114, and can be easily scaled up for industrial-scale protein purification.

摘要

两个主要障碍阻碍了植物作为首选蛋白质表达平台被广泛接受

积累水平低和昂贵的色谱纯化方法。将感兴趣的蛋白质与真菌疏水蛋白融合提供了一种解决积累和纯化问题的工具。在本方法中，我们描述了使用双水相系统（ATPS）从植物粗提物中一步纯化GFP-HFBI融合蛋白。ATPS可以在非常短的时间内完成，能产生相对纯净且几乎没有污染物的蛋白质，并且不需要任何色谱柱步骤。该纯化系统利用了疏水蛋白对广泛使用的非离子表面活性剂（如Triton X-114）胶束相的亲和力，并且可以很容易地扩大规模用于工业规模的蛋白质纯化。

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利用疏水蛋白融合技术从植物提取物中进行重组蛋白的生物分离。

Bioseparation of recombinant proteins from plant extract with hydrophobin fusion technology.

作者信息

机构信息

出版信息

两个主要障碍阻碍了植物作为首选蛋白质表达平台被广泛接受

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