Many recombinant proteins are products of great value in biomedical and industrial fields. The use of solubility and affinity tags are commonly used to increase yields and facilitate the purification process. However, it is of paramount importance in several applications to remove the fusion tag from the final product. In this regard, the Tobacco Etch Virus protease (TEV) is one of the most widely used for tag removal. The presence in the TEV of the same tag to be removed facilitates the separation of TEV and the tag from the cleaved recombinant protein in a single purification step. We generated a double-tagged (StrepTagII and HisTag) TEV variant with reported mutations that improve the activity, the expression yield in E.coli, and that decrease the auto-proteolysis. This TEV can be easily purified by two consecutive affinity chromatography steps with high yields and purity. The cleavage reaction can be done to almost completeness in as fast as 15 min at room temperature and the removal of the protease and tags is performed in a single purification step, independent of the previous presence of a StrepTagII or a HisTag on the target.
Keywords: HisTag; Protein purification; Recombinant protein; StrepTagII; TEV protease; Target cleavage.
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