Abstract
Genome modification at specific loci in livestock species was only achievable by performing homologous recombination in somatic cells followed by somatic cell nuclear transfer. The difficulty and inefficiency of this method have slowed down the multiple applications of genome modification in farm animals. The discovery of site-specific endonucleases has provided a different and more direct route for targeted mutagenesis, as these enzymes allow the ablation (KO) or insertion (KI) of specific genomic sequences on a single step, directly applied to zygotes. Clustered regularly interspaced short palindromic repeats (CRISPR), the last site-specific endonuclease to be developed, is a RNA-guided endonuclease, easy to engineer and direct to a given target site. This technology has been successfully applied to rabbits, swine, goats, sheep and cattle, situating genome editing in livestock species at an attainable distance, thereby empowering scientist to develop a myriad of applications. Genetically modified livestock animals can be used as biomodels to study human or livestock physiology and disease, as bioreactors to produce complex proteins, or as organ donors for transplantation. Specifically on livestock production, genome editing in farm animals may serve to improve productive genetic traits, to improve various animal products, to confer resistance to diseases or to minimize the environmental impact on farming. In this review, we provide an overview of the current methods for site-specific genome modification in livestock species, discuss potential and already developed applications of genome edition in farm animals and debate about the possibilities for approval of products derived from gene-edited animals for human consumption.
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