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One-step generation of complete gene knockout mice and monkeys by CRISPR/Cas9-mediated gene editing with multiple sgRNAs

by Erwei Zuo Yi-Jun Cai Kui Li Yu Wei Bang-An Wang Yidi Sun Zhen Liu Jiwei Liu Xinde Hu Wei Wei Xiaona Huo Linyu Shi Cheng Tang Dan Liang Yan Wang Yan-Hong Nie Chen-Chen Zhang Xuan Yao Xing Wang Changyang Zhou Wenqin Ying Qifang Wang Ren-Chao Chen Qi Shen Guo-Liang Xu Jinsong Li Qiang Sun Zhi-Qi Xiong Hui Yang

in 631/1647/1511 / 631/1647/1513/1967/3196 / 631/1647/767/722 / 631/45/500 / Animal models / Animals / ARNTL Transcription Factors - genetics / Bacterial Proteins / Biomedical and Life Sciences / Cell Biology / Chromosome deletion / Clonal deletion / CRISPR / CRISPR-Associated Protein 9 / CRISPR-Cas Systems - genetics / Embryo, Mammalian - cytology / Embryos / Endonucleases / Exons - genetics / Gene deletion / Gene Editing - methods / Gene Knockout Techniques / Genes / Genetic modification / Genome editing / Haplorhini - genetics / Life Sciences / Membrane Proteins - genetics / Mice / Mice, Inbred C57BL / Mice, Knockout / Monkeys / Mosaicism / Mosaicism - embryology / mRNA / Oocyte Retrieval / Original / original-article / Phenotype / RNA, Guide, CRISPR-Cas Systems - genetics / RNA, Messenger - genetics / Rodents / Whole Genome Sequencing / Y Chromosome / Y chromosomes / Zygote - cytology

2017

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One-step generation of complete gene knockout mice and monkeys by CRISPR/Cas9-mediated gene editing with multiple sgRNAs

2017

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2017

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Journal Article

One-step generation of complete gene knockout mice and monkeys by CRISPR/Cas9-mediated gene editing with multiple sgRNAs

Erwei Zuo Yi-Jun Cai Kui Li Yu Wei Bang-An Wang Yidi Sun Zhen Liu Jiwei Liu Xinde Hu Wei Wei Xiaona Huo Linyu Shi Cheng Tang Dan Liang Yan Wang Yan-Hong Nie Chen-Chen Zhang Xuan Yao Xing Wang Changyang Zhou Wenqin Ying Qifang Wang Ren-Chao Chen Qi Shen Guo-Liang Xu Jinsong Li Qiang Sun Zhi-Qi Xiong Hui Yang

2017

Overview

The CRISPR/Cas9 system is an efficient gene-editing method, but the majority of gene-edited animals showed mosaicism, with editing occurring only in a portion of cells. Here we show that single gene or multiple genes can be completely knocked out in mouse and monkey embryos by zygotic injection of Cas9 mRNA and multiple adjacent single-guide RNAs （spaced 10-200 bp apart） that target only a single key exon of each gene. Phenotypic analysis of F0 mice following targeted deletion of eight genes on the Y chromosome individually demonstrated the robustness of this approach in generating knockout mice. Importantly, this approach delivers complete gene knockout at high efficien- cies （100% on Arnt[ and 91% on Prrt2） in monkey embryos. Finally, we could generate a complete Prrt2 knockout monkey in a single step, demonstrating the usefulness of this approach in rapidly establishing gene-edited monkey models.

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Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

631/1647/1511

/ 631/1647/1513/1967/3196

/ 631/1647/767/722

/ 631/45/500

/ Animal models

/ Animals

/ ARNTL Transcription Factors - genetics