Generation of gene-modified goats targeting MSTN and FGF5 via zygote injection of CRISPR/Cas9 system

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作者
Xiaolong Wang
Honghao Yu
Anmin Lei
Jiankui Zhou
Wenxian Zeng
Haijing Zhu
Zhiming Dong
Yiyuan Niu
Bingbo Shi
Bei Cai
Jinwang Liu
Shuai Huang
Hailong Yan
Xiaoe Zhao
Guangxian Zhou
Xiaoling He
Xiaoxu Chen
Yuxin Yang
Yu Jiang
Lei Shi
Xiue Tian
Yongjun Wang
Baohua Ma
Xingxu Huang
Lei Qu
Yulin Chen
机构
[1] College of Animal Science and Technology,
[2] Northwest A&F University,undefined
[3] Shaanxi Provincial Engineering and Technology Research Center of Cashmere Goats,undefined
[4] Yulin University,undefined
[5] Life Science Research Center,undefined
[6] Yulin University,undefined
[7] College of Veterinary Medicine,undefined
[8] Northwest A&F University,undefined
[9] MOE Key Laboratory of Model Animal for Disease Study,undefined
[10] Model Animal Research Center of Nanjing University,undefined
[11] National Resource Center for Mutant Mice,undefined
[12] School of Life Science and Technology,undefined
[13] ShanghaiTech University,undefined
来源
Scientific Reports | / 5卷
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摘要
Recent advances in the study of the CRISPR/Cas9 system have provided a precise and versatile approach for genome editing in various species. However, the applicability and efficiency of this method in large animal models, such as the goat, have not been extensively studied. Here, by co-injection of one-cell stage embryos with Cas9 mRNA and sgRNAs targeting two functional genes (MSTN and FGF5), we successfully produced gene-modified goats with either one or both genes disrupted. The targeting efficiency of MSTN and FGF5 in cultured primary fibroblasts was as high as 60%, while the efficiency of disrupting MSTN and FGF5 in 98 tested animals was 15% and 21% respectively and 10% for double gene modifications. The on- and off-target mutations of the target genes in fibroblasts, as well as in somatic tissues and testis of founder and dead animals, were carefully analyzed. The results showed that simultaneous editing of several sites was achieved in large animals, demonstrating that the CRISPR/Cas9 system has the potential to become a robust and efficient gene engineering tool in farm animals and therefore will be critically important and applicable for breeding.
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