The Tobacco Etch Virus (TEV) protease with 6x His-tag
The (+)-strand viral RNA genomes are often translated by the host to polyprotein. Then the virus provides protease to cleave these precursors into mature proteins co-translationally. One of these proteases was found in the plant pathogenic Tobacco Etch Virus (TEV)1.
For scientists the TEV protease is a molecular tool to cleave of all sorts of protein tags precisely due to its sequence specificity. It recognizes the amino acid sequence Glu-Asn-Leu-Tyr-Gln-Ser and cleaves then between glutamic acid and serine. In our project, the TEV protease is a main component in the Intein-Extein readout, but also was used in the purification procedure of our Cas13a proteins. We improved the BioBrick BBa_K1319008 by adding a His6-tag, which made it possible to purify this protease.
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Figure 2 The TEV plasmid map shows the binding sites of the overhang primers. Indicated are also coding sequence, terminator, T7 promotor and RBS
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Figure 3 The TEV plasmid map shows the binding sites of the overhang primers. Indicated are also coding sequence, terminator, T7 promotor and RBS
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For an activity test, we incubated 30 µg His-MBP-Cas13a-Lsh as substrate with 1 µg of our TEV protease. We inactivated the cleavage reaction by adding 1x SDS-loading buffer. We analyzed the reaction with a SDS-PAGE and loaded samples, which were incubated 0, 1, 2, 3, 4 ,5 and overnight. The gel shows that nearly all our substrate is already cleaved after 1 h into His-MBP and Cas13a-Lsh.
Next, the activity should be analyzed between 0 and 1 h to correctly evaluate the results. However, we highly purified our His-TEV protease and also used it successfully to process our Cas13a proteins. Here, we provide a BioBrick, which could be useful for all future iGEM teams.
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