Simulation of dual-purpose chicken breeding programs implementing gene editing.

IF 3.6 1区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Edward Y S Chuang, Robin Wellmann, Franck L B Meijboom, Jens Tetens, Jörn Bennewitz
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引用次数: 0

Abstract

Background: In spite of being controversial and raising ethical concerns, the application of gene editing is more likely to be accepted when it contributes to improving animal welfare. One of the animal welfare and ethical issues in chicken breeding is chick culling, the killing of the male layer chicks after hatching due to the poor fattening performance. Although establishing dual-purpose chicken lines could solve this problem, unfavorable genetic correlations between egg and meat production traits hindered their competitiveness. Although it is also controversial in ethical terms, gene editing may accelerate genetic progress in dual-purpose chicken and alleviate the ethical concerns from chick culling.

Results: The simulation compared the utility improvement in dual-purpose use under two breeding schemes: one consisting in the improvement of the laying hens, and the second in the improvement of a synthetic line obtained from a layer broiler cross. In each breeding scheme, the breeding programs were simulated with and without gene editing. Polygenic breeding values and 500 simulated quantitative trait loci (QTL) with different levels of pleiotropy caused negative correlations between egg production, meat production, and overall health. The results of the simulation demonstrated that genetic gain could be accelerated by at most 81% for several generations if gene editing was used. The actual increase in genetic gain depended on the number of single nucleotide polymorphisms (SNPs) being edited per animal. The rate of genetic improvement became equal in scenarios with and without gene editing after 20 generations. This is because the remaining segregating QTL had small effects and their edition would have negative overall health effects from potential off-target edits. Although gene editing can improve genetic gain in quantitative traits, it can only be recommended as long as QTL with reasonable effect sizes are segregating and detectable.

Conclusions: This simulation demonstrates the potential of gene editing to accelerate the simultaneous improvement of negatively correlated traits. When the risk of negative consequences from gene editing persists, the number of SNPs to be edited should be chosen carefully to obtain the optimal genetic gain.

模拟实施基因编辑的两用鸡育种计划。
背景:基因编辑的应用尽管存在争议并引发伦理问题,但如果它有助于改善动物福利,则更有可能被接受。鸡育种中的一个动物福利和伦理问题是剔除雏鸡,即孵化后因育肥性能差而杀死雄性蛋鸡。虽然建立两用鸡品系可以解决这一问题,但产蛋和产肉性状之间不利的遗传相关性阻碍了它们的竞争力。虽然在伦理方面也存在争议,但基因编辑可能会加快两用鸡的遗传进展,并减轻剔除雏鸡带来的伦理问题:模拟比较了两种育种方案下两用鸡效用的提高:一种是蛋鸡的改良,另一种是蛋鸡肉鸡杂交合成品系的改良。在每种育种方案中,都模拟了有基因编辑和无基因编辑的育种计划。多基因育种值和 500 个具有不同褶积水平的模拟数量性状位点(QTL)造成了产蛋量、产肉量和整体健康之间的负相关。模拟结果表明,如果使用基因编辑技术,遗传增益最多可在数代内提高 81%。基因增殖的实际增幅取决于每只动物被编辑的单核苷酸多态性(SNP)的数量。经过 20 代后,使用基因编辑和不使用基因编辑的情况下,遗传改良率相同。这是因为剩余的分离 QTL 影响较小,其编辑会因潜在的脱靶编辑而对整体健康产生负面影响。虽然基因编辑可以提高数量性状的遗传增益,但只有在具有合理效应大小的 QTL 能够分离和检测的情况下,才能推荐使用基因编辑:这一模拟证明了基因编辑在加速同时改良负相关性状方面的潜力。当基因编辑的负面影响风险持续存在时,应谨慎选择要编辑的 SNPs 数量,以获得最佳遗传增益。
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来源期刊
Genetics Selection Evolution
Genetics Selection Evolution 生物-奶制品与动物科学
CiteScore
6.50
自引率
9.80%
发文量
74
审稿时长
1 months
期刊介绍: Genetics Selection Evolution invites basic, applied and methodological content that will aid the current understanding and the utilization of genetic variability in domestic animal species. Although the focus is on domestic animal species, research on other species is invited if it contributes to the understanding of the use of genetic variability in domestic animals. Genetics Selection Evolution publishes results from all levels of study, from the gene to the quantitative trait, from the individual to the population, the breed or the species. Contributions concerning both the biological approach, from molecular genetics to quantitative genetics, as well as the mathematical approach, from population genetics to statistics, are welcome. Specific areas of interest include but are not limited to: gene and QTL identification, mapping and characterization, analysis of new phenotypes, high-throughput SNP data analysis, functional genomics, cytogenetics, genetic diversity of populations and breeds, genetic evaluation, applied and experimental selection, genomic selection, selection efficiency, and statistical methodology for the genetic analysis of phenotypes with quantitative and mixed inheritance.
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