改进的CNBr切割方案高效分离含OmpX-Om14膜蛋白融合

Ankit Gupta, Deepti Chaturvedi, R. Mahalakshmi
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引用次数: 3

摘要

在蛋氨酸残基由丝氨酸或苏氨酸接替的序列中,溴化氰(CNBr)的裂解效率急剧降低。与膜蛋白相关的溶解度问题进一步减少了Met-Xxx位点的裂解。此外,在CNBr裂解所需的高酸性反应条件下,长时间孵育数小时至数天,通常会导致蛋白质降解。为了避免这些问题,我们开发了一种CNBr切割蛋白质融合体的方案,这对Met-Ser序列特别有用。该方案有助于在1-2小时的短孵育时间内提高裂解效率。在最终反应中,在8M尿素中掺入高达40%的乙腈,或在6M盐酸胍中掺入微量乙腈。我们展示了该协议在含Met-Ser的膜蛋白融合OmpX-Om14中的成功应用。从大肠杆菌OmpX(外膜蛋白X)中切割Om14(酵母线粒体外膜蛋白)提供了高达70%的产品,而没有检测到降解水平。劈裂反应直接用于Om14的快速和低成本的纯化已经被证明。通过数据库分析,我们讨论了该协议对几种具有Met-Ser序列的膜蛋白的重要性
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modified CNBr Cleavage Protocol for Efficient Separation of Met-Ser Containing OmpX-Om14 Membrane Protein Fusion
Cleavage efficiencies of cyanogen bromide (CNBr) are drastically reduced in sequences wherein the methionine residue is succeeded by serine or threonine. Solubility issues associated especially with membrane proteins contribute further to reduced cleavage at Met-Xxx sites. Moreover, prolonged incubations of several hours to days, in highly acidic reaction conditions required for CNBr cleavage, often lead to protein degradation. To circumvent these problems, we have developed a protocol for CNBr cleavage of protein fusions, which is particularly useful for Met-Ser sequences. This protocol facilitates enhanced cleavage efficiencies in short incubation times of 1-2 hours. It incorporates up to 40% acetonitrile in 8M urea, or trace amounts of acetonitrile in 6M guanidine hydrochloride, in the final reaction. We demonstrate the successful application of this protocol for the Met-Ser containing membrane protein fusion OmpX-Om14. Cleavage of the Om14 (the yeast mitochondrial outer membrane protein) from E. coli OmpX (Outer membrane protein X) has provided yields of up to 70% product without detectable degradation levels. The direct use of the cleavage reaction for the rapid and cost-effective purification of Om14 has been shown. Using a database analysis, we discuss the importance of this protocol for several membrane proteins that have Met-Ser sequences
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