1. Highly efficient generation of sheep with a defined FecB B mutation via adenine base editing
- Author
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Shiwei Zhou, Yige Ding, Jiao Liu, Yao Liu, Xiaoe Zhao, Guanwei Li, Chenguang Zhang, Chao Li, Ying Wang, Peter Kalds, Yawei Gao, Bo Zong, Xiaoyu Huang, Shuhong Huang, Honghao Yu, Qifang Kou, Bjoern Petersen, Xingxu Huang, Xiaolong Wang, Baohua Ma, and Yulin Chen
- Subjects
Animal culture ,SF1-1100 ,Genetics ,QH426-470 - Abstract
Abstract Base editing has the potential to improve important economic traits in agriculture and can precisely convert single nucleotides in DNA or RNA sequences into minimal double-strand DNA breaks (DSB). Adenine base editors (ABE) have recently emerged as a base editing tool for the conversion of targeted A:T to G:C, but have not yet been used in sheep. ABEmax is one of the latest versions of ABE, which consists of a catalytically-impaired nuclease and a laboratory-evolved DNA-adenosine deaminase. The Booroola fecundity (FecB B ) mutation (g.A746G, p.Q249R) in the bone morphogenetic protein receptor 1B (BMPR1B) gene influences fecundity in many sheep breeds. In this study, by using ABEmax we successfully obtained lambs with defined point mutations that result in an amino acid substitution (p.Gln249Arg). The efficiency of the defined point mutations was 75% in newborn lambs, since six lambs were heterozygous at the FecB B mutation site (g.A746G, p.Q249R), and two lambs were wild-type. We did not detect off-target mutations in the eight edited lambs. Here, we report the validation of the first gene-edited sheep generated by ABE and highlight its potential to improve economically important traits in livestock.
- Published
- 2020
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