A HIT-trapping strategy for rapid generation of reversible and conditional alleles using a universal donor

Targeted mutagenesis in model organisms is key for gene functional annotation and biomedical research. Despite technological advances in gene editing by the CRISPR-Cas9 systems, rapid and efficient introduction of site-directed mutations remains a challenge in large animal models. Here, we developed...

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Veröffentlicht in:	Genome research 2021-05, Vol.31 (5), p.900-909
Hauptverfasser:	Lu, Hengxing, Liu, Jun, Feng, Tao, Guo, Zihang, Yin, Yunjun, Gao, Fei, Cao, Gengsheng, Du, Xuguang, Wu, Sen
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Sprache:	eng
Schlagworte:	Alleles Animal models Animals CRISPR CRISPR-Cas Systems Embryo cells Fibroblasts Gene Editing Homology Insertional mutagenesis Medical research Method Mutagenesis Mutagenesis, Insertional Mutants Mutation Site-directed mutagenesis Stem cell transplantation Stem cells Swine Trapping
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container_title	Genome research
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creator	Lu, Hengxing Liu, Jun Feng, Tao Guo, Zihang Yin, Yunjun Gao, Fei Cao, Gengsheng Du, Xuguang Wu, Sen
description	Targeted mutagenesis in model organisms is key for gene functional annotation and biomedical research. Despite technological advances in gene editing by the CRISPR-Cas9 systems, rapid and efficient introduction of site-directed mutations remains a challenge in large animal models. Here, we developed a robust and flexible insertional mutagenesis strategy, homology-independent targeted trapping (HIT-trapping), which is generic and can efficiently target-trap an endogenous gene of interest independent of homology arm and embryonic stem cells. Further optimization and equipping the HIT-trap donor with a site-specific DNA inversion mechanism enabled one-step generation of reversible and conditional alleles in a single experiment. As a proof of concept, we successfully created mutant alleles for 21 disease-related genes in primary porcine fibroblasts with an average knock-in frequency of 53.2%, a great improvement over previous approaches. The versatile HIT-trapping strategy presented here is expected to simplify the targeted generation of mutant alleles and facilitate large-scale mutagenesis in large mammals such as pigs.
doi_str_mv	10.1101/gr.271312.120
format	Article
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Despite technological advances in gene editing by the CRISPR-Cas9 systems, rapid and efficient introduction of site-directed mutations remains a challenge in large animal models. Here, we developed a robust and flexible insertional mutagenesis strategy, homology-independent targeted trapping (HIT-trapping), which is generic and can efficiently target-trap an endogenous gene of interest independent of homology arm and embryonic stem cells. Further optimization and equipping the HIT-trap donor with a site-specific DNA inversion mechanism enabled one-step generation of reversible and conditional alleles in a single experiment. As a proof of concept, we successfully created mutant alleles for 21 disease-related genes in primary porcine fibroblasts with an average knock-in frequency of 53.2%, a great improvement over previous approaches. 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subjects	Alleles Animal models Animals CRISPR CRISPR-Cas Systems Embryo cells Fibroblasts Gene Editing Homology Insertional mutagenesis Medical research Method Mutagenesis Mutagenesis, Insertional Mutants Mutation Site-directed mutagenesis Stem cell transplantation Stem cells Swine Trapping
title	A HIT-trapping strategy for rapid generation of reversible and conditional alleles using a universal donor
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