Efficient CRISPR/Cas9-Assisted Knockin of Large DNA Donors by Pronuclear Microinjection During S-Phase in Mouse Zygotes

In the CRISPR/Cas9-mediated gene cassette knockin (KI) strategy, a gene cassette is integrated into a target locus through a proper DNA repair pathway after the Cas9-induced double-strand DNA breaks; the activation of the DNA repair pathway is known to be correlated with the cell cycle. Recently, we have reported a new KI approach named SPRINT (S-phase pronuclear injection for targeting)-CRISPR, focusing on the correlation between the cell cycle and the KI efficiency in the mouse zygote microinjection. Our results suggest that the CRISPR-mediated KI with a homologous recombination-based donor vector during S-phase enhances the KI efficiency. For SPRINT-CRISPR, the uniformity of the zygotes in the cell cycle is achieved by in vitro fertilization, and the zygotes are cryopreserved until use. These reproductive techniques are necessary for efficient KI. Furthermore, Piezo-assisted microinjection has been successful in improving the survival rate of the injected embryos. In this chapter, we describe the protocols that focus on the zygote preparation and Piezo-assisted microinjection of the SPRINT-CRISPR method.