1. Versatile and efficient in vivo genome editing with compact Streptococcus pasteurianus Cas9.Molecular Therapy.2022 Jan 5;30(1):256-267.通讯作者;
2. CRISPR/Cas9-mediated gene correction in newborn rabbits with hereditary tyrosinemia type I,Molecular Therapy.2021, Mar 3;29(3):1001-1015.通讯作者;
3. Generation of permanent neonatal diabetes mellitus dogs with glucokinase point mutations through base editing. Cell Discovery.2021 Oct 12;7(1):92.通讯作者;
4. ACBE, a new base editor for simultaneous C-to-T and A-to-G substitutions in mammalian systems,BMC, 2020,通讯作者
5. Development of a rabbit model of Wiskott-Aldrich syndrome,FASEB J, 2020,通讯作者
6. Efficient base editing for multiple genes and loci in pigs using base editors.Nature Communications. 2019, 10(1): 2852.通讯作者;
7.Efficient base editing for multiple genes and loci in pigs using base editors,Nature Communications, 2019,通讯作者
8. XIST Derepression in Active X Chromosome Hinders Pig Somatic Cell Nuclear Transfer,Stem Cell Reports, 2018,通讯作者
9. Generation of ApoE deficient dogs via combination of embryo injection of CRISPR/Cas9 with somatic cell nuclear transfer,Journal of Genetics and Genomics, 2018,通讯作者
10. Engineering CRISPR /Cpf1 with tRNA promotes genome editing capability in mammalian systems,Cellular and Molecular Life Sciences, 2018,通讯作者
11. A huntingtin knockin pig model recapitulates features of selective neurodegeneration in huntington's disease.Cell.2018, 173(4): 989-1002.通讯作者;
12. CRISPR-induced exon skipping is dependent on premature termination codon mutations.Genome Biology.2018, 19(1): 164.通讯作者;
13. Highly efficient RNA-guided base editing in rabbit.Nature Communications. 2018, 9(1): 2717.通讯作者;
14. Cre-dependent cas9-expressing pigs enable efficient in vivo genome editing.Genome Res.2017, 27 (12): 2061-2071.通讯作者;
