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Efficient generation of mouse models of human diseases via ABE- and BE-mediated base editing.

Nat Commun. 2018; 
LiuZhen,LuZongyang,YangGuang,HuangShisheng,LiGuanglei,FengSongjie,LiuYajing,LiJianan,YuWenxia,ZhangYu,ChenJia,SunQiang,HuangXi
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Gene Synthesis The lysed and neutralized sample was added with 5 μl of a 400 μM solution of random primers (Genscript, Nanjing, China), 6 μl of 10× PCR buffer (Takara, Dalian, China), 3 μl of a mixture of the 4 dNTPs (each at 2.5 mM), and 1 μl of Taq polymerase (Takara, Dalian, China) and brought to 60 μl with water. Get A Quote

摘要

A recently developed adenine base editor (ABE) efficiently converts A to G and is potentially useful for clinical applications. However, its precision and efficiency in vivo remains to be addressed. Here we achieve A-to-G conversion in vivo at frequencies up to 100% by microinjection of ABE mRNA together with sgRNAs. We then generate mouse models harboring clinically relevant mutations at Ar and Hoxd13, which recapitulates respective clinical defects. Furthermore, we achieve both C-to-T and A-to-G base editing by using a combination of ABE and SaBE3, thus creating mouse model harboring multiple mutations. We also demonstrate the specificity of ABE by deep sequencing and whole-genome sequencing (WGS). Ta... More

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