Abstract
Microinjection of the CRISPR/Cas9 system in zygotes is an efficient and comparatively fast method to generate genetically modified mice. So far, only few knock-in mice have been generated using this approach, and because no systematic study has been performed, parameters controlling the efficacy of CRISPR/Cas9-mediated targeted insertion are not fully established. Here, we evaluated the effect of several parameters on knock-in efficiency changing only one variable at a time. We found that knock-in efficiency was dependent on injected Cas9 mRNA and single-guide RNA concentrations and that cytoplasmic injection resulted in more genotypic complexity compared to pronuclear injection. Our results also indicated that injection into the pronucleus compared to the cytoplasm is preferable to generate knock-in alleles with an oligonucleotide or a circular plasmid. Finally, we showed that Cas9D10A nickase variant was less efficient than wild-type Cas9 for generating knock-in alleles and caused a higher rate of mosaicism. Thus, our study provides valuable information that will help to improve the future production of precise genetic modifications in mice.
Highlights
Study has been performed, the parameters controlling the efficacy of KI and their relative contributions are not fully established
By performing an extensive study in which a single parameter varied while the others were kept constant, we have demonstrated that KI efficiency with a single stranded oligo DNA nucleotide (ssODN) repair matrix was dependent on the concentration of Cas9mRNA/sgRNA injected but not on the site of injection
In a previous report comparing cytoplasmic and pronuclear injections[12, 20] times more Cas9mRNA/sgRNA and 5–50 times more ssODN repair matrix were used for cytoplasmic injections, making it difficult to discriminate between contributions of the site of injection and the concentration of RNAs and repair matrix
Summary
Study has been performed, the parameters controlling the efficacy of KI and their relative contributions are not fully established. KI efficiency with ssODN repair matrix depends on Cas[9] mRNA/sgRNA concentration but not on the site of injection.
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