结合细胞破坏和亲和萃取纯化蛋白质的捷径。

M Schuster, E Wasserbauer, C Ortner, K Graumann, A Jungbauer, F Hammerschmid, G Werner
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引用次数: 22

摘要

基于功能基因组学的筛选策略需要以快速和通用的方式分离数百个cDNA克隆的基因产物。传统的净化策略将无法在合理的时间框架内实现这一目标。为了缩短这些程序,我们开发了细胞分解和亲和技术相结合的快速分离和纯化。为了达到我们的目的,在酵母中通过融合编码相应蛋白质的cdna 5'端附近的flag序列来产生标记蛋白。过表达的flag标记融合蛋白的例子,人血清白蛋白(HSA),被释放到细胞质中。使用针对flag -肽的小鼠单克隆抗体对flag -融合蛋白进行检测和纯化。为了纯化抗体,将抗体固定在PROSEP磁性玻璃微珠上。这些直径为500微米的磁性玻璃微珠被用于酵母的分解和靶蛋白的同时捕获。60 s后,以20微升酵母细胞悬浮液与100微升玻璃的比例涡流时,达到最大崩解水平的90%。经过一个清洗步骤后,用螯合剂(如EDTA)洗脱flag融合蛋白。与使用亲和层析过程的传统纯化策略相比,该快捷程序已被比较。由于所应用的免疫亲和吸附剂具有良好的结合特性,在批量操作中观察到的收率为90%,纯度在70-80%之间。
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Short cut of protein purification by integration of cell-disrupture and affinity extraction.

Screening strategies based on functional genomics require the isolation of gene products of several hundred cDNA clones in a fast and versatile manner. Conventional purification strategies will fail to accomplish this goal within a reasonable time frame. In order to short-cut these procedures, we have developed a combination of cell disintegration and affinity technique for rapid isolation and purification. For our purpose, tagged proteins have been produced in yeast by fusing the FLAG-sequence adjacent to the 5' end of cDNAs coding for the respective protein. The example of an over-expressed FLAG-tagged fusion protein, human serum albumin (HSA), was released into the cytoplasm. Detection and purification of the FLAG-fusion protein were carried out by using a mouse monoclonal antibody directed against the FLAG-peptide. For purification purposes, the antibody was immobilized on PROSEP magnetic glass beads. These magnetic glass beads with 500 microns diameter have been investigated for disintegration of yeast and simultaneous capturing of the target protein. After 60 s, 90% of the maximal disintegration level was achieved when a ratio of 20 microliters yeast cell suspension and 100 microliters glass are vortexed. After a wash step, the FLAG-fusion proteins have been eluted with chelating agents such as EDTA. The short-cut procedure has been compared to a conventional purification strategy using an affinity chromatography process. Due to the highly favorable binding characteristics of the applied immunoaffinity sorbent the yield observed in batch operation was 90% and purity in the range of 70-80%.

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