RESUMO
CRISPR/Cas9-based genome editing technologies are revolutionizing developmental biology. One of the advanced CRISPR-based techniques is prime editing (PE), which enables precise gene modification in multiple model organisms. However, there has been no report of taking advantage of the PE system for gene editing in primordial germ cells (PGCs) thus far. In the current study, we describe a method to apply PE to the genome of chicken fibroblasts and PGCs. By combining PE with a transposon-mediated genomic integration, drug selection, and the single-cell culture method, we successfully generated prime-edited chicken fibroblasts and PGCs. The chicken PGC is widely used as an experimental model to study germ cell formation and as a vector for gene transfer to produce transgenic chickens. Such experimental models are useful in the developmental biology field and as potential bioreactors to produce pharmaceutical and nutritious proteins. Thus, the method presented here will provide not only a powerful tool to investigate gene function in germ cell development but also a basis for generating prime-edited transgenic birds.