Recombination-Independent Genome Editing through CRISPR/Cas9-EnhancedTargeTron Delivery

Group II introns were developed some time ago as tools for the construction of knockout mutants in a wide range of organisms, ranging from Gram-positive and Gram-negative bacteria to human cells. Utilizing these introns is advantageous because they are independent of the host’s DNA recombination machinery, they can carry heterologous sequences (and thus be used as vehicles for gene delivery), and they can be easily retargeted for subsequent insertions of additional genes at the user’s will. Alas, the use of this platform has been limited, as insertion efficiencies greatly change depending on the target sites and cannot be predicted a priori. Moreover, the ability of introns to perform their own splicing and integration is compromised when they carry foreign sequences. To overcome these limitations, we merged the group II intron-based TargeTron system with CRISPR/Cas9 counterselection. To this end, we first engineered a new group-II intron by replacing the retrotransposition-activated selectable marker (RA...