Prime editor, an editing tool based on the CRISPR/Cas9 system, allows for all 12 types of nucleotide exchanges and arbitrary indels in genomic sequences without the need for inducing DNA double-strand breaks. Despite its flexibility and precision, prime editing efficiency is still low and hindered by various factors such as target sites, editing types, and the length of the primer binding site. In this study, we developed a prime editing system by incorporating an RNA motif at the 3' terminal of the pegRNA and integrating all twin prime editor factors into a single plasmid. These two strategies enhanced prime editing efficiency at target sites by up to 3.58-fold and 2.19-fold, respectively. Subsequently, enhanced prime editor was employed in goat cells and embryos to efficiently insert a 38 bp attB sequence into the Gt(ROSA)26Sor (Rosa26) and C-C motif chemokine receptor 5 (CCR5) loci. The enhanced prime editor can mediate 11.9% and 6.8% editing efficiency in parthenogenetic activation of embryos through embryo microinjection. In summary, our study introduces a modified prime editing system with improved editing and transfection efficiency, making it more suitable for inserting foreign sequences into primary cells and embryos. These results broaden the potential applications of prime editing technologies in the production of transgenic animals.
Keywords: CCR5; RNA motif; Rosa26; goat; prime editing.