Preparation and isolation of recombinant proteins is one of the most common procedures in life sciences' research. Because each protein requires different conditions for fermentation and specific isolation technique, there is no universal protocol to follow. We usually determine these optimal conditions, which depend on the characteristics of the expressed protein, by a series of testing fermentations.
The Cas9 protein is one of the key elements of the CRISPR/Cas9 system, which is a promising tool in genome editing. One of the possible improvements of this technique is connecting Cas9 with exonuclease III (ExoIII), which is capable of forming a bigger gap at the site of double strand break. By doing so a greater part of the target gene is deleted and the frequency of knock-out increases.
We prepared the nucleotide sequences encoding recombinant proteins Cas9 and ExoIII in fusion with two pairs of orthogonal α helices, which form a coiled coil when simultaneously present in vitro or in vivo. By doing so they physically connect the two recombinant proteins. We inserted our constructs into the expression vector pET-28b-Cas9-His and transformed them into E. coli expression strains. We isolated the proteins, tagged with a hexahistidine group, with Ni2+-NTA affinity chromatography and concentrated the samples. These isolated and purified recombinant proteins can be further used for testing the efficiency of Cas9 – ExoIII connection and for genome editing experiments.
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