Genome editing approaches to augment livestock breeding programs.

Thomas Frederick Bishop,Alison Louise Van Eenennaam,Leslie B Vosshall,Julian A T Dow,Michael H Dickinson

doi:10.1242/jeb.207159

Thomas Frederick Bishop, Alison Louise Van Eenennaam + Show 3 more

Open Access

https://doi.org/10.1242/jeb.207159

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Abstract

The prospect of genome editing offers a number of promising opportunities for livestock breeders. Firstly, these tools can be used in functional genomics to elucidate gene function, and identify causal variants underlying monogenic traits. Secondly, they can be used to precisely introduce useful genetic variation into structured livestock breeding programs. Such variation may include repair of genetic defects, the inactivation of undesired genes, and the moving of useful alleles and haplotypes between breeds in the absence of linkage drag. Editing could also be used to accelerate the rate of genetic progress by enabling the replacement of the germ cell lineage of commercial breeding animals with cells derived from genetically elite lines. In the future, editing may also provide a useful complement to evolving approaches to decrease the length of the generation interval through in vitro generation of gametes. For editing to be adopted, it will need to seamlessly integrate with livestock breeding schemes. This will likely involve introducing edits into multiple elite animals to avoid genetic bottlenecks. It will also require editing of different breeds and lines to maintain genetic diversity, and enable structured cross-breeding. This requirement is at odds with the process-based trigger and event-based regulatory approach that has been proposed for the products of genome editing by several countries. In the absence of regulatory harmony, researchers in some countries will have the ability to use genome editing in food animals, while others will not, resulting in disparate access to these tools, and ultimately the potential for global trade disruptions.

Highlights

Livestock genetic improvement programs have been a powerful driving force for improving efficiencies, and thereby decreasing the environmental footprint and emission intensity of milk, meat and egg production
The use of adult Spermatogonial stem cells (SSCs), Mesenchymal stromal cells (MSCs)-derived primordial germ cell-like cells (PGCLCs) or induced pluripotent stem cells (iPSC) could allow elite donor animals to be selected based on phenotypic observations and measurements, which may be especially important for species and breeds where there is no genomic way to estimate their genetic merit at a young age
There is obviously considerable potential to use this approach to introduce useful genetic variations into livestock improvement programs, and a multiplicity of ways in which it might accelerate the rate of genetic gain through breeding program redesign

Summary

Introduction

Livestock genetic improvement programs have been a powerful driving force for improving efficiencies, and thereby decreasing the environmental footprint and emission intensity of milk, meat and egg production. Nuclease and repair template delivery In animal breeding programs, germline transmission is the ultimate goal because edits must be passed on to the generation for genetic improvement.

Results

Conclusion