Paired CRISPR/Cas9 Nickases Mediate Efficient Site-Specific Integration of F9 into rDNA Locus of Mouse ESCs

Wang, Yanchi; Zhao, Junya; Duan, Nannan; Liu, Wei; Zhang, Yuxuan; Zhou, Miaojin; Hu, Zhiqing; Feng, Mai; Liu, Xionghao; Wu, Lingqian; Li, Zhuo

doi:10.3390/ijms19103035

Cited by 19 publications

(11 citation statements)

References 38 publications

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“…Thus, this is the first report demonstrating that L755507 promotes HDR events in vivo. In contrast, we did not observe a significant increase in the that, unlike DNA DSB-dependent strategies using wild-type Cas9, the nicking-based approach via Cas9n prevented the activation of NHEJ in medaka as well as other organisms or cells (Gao et al, 2017;Murakami et al, 2020;Paulsen et al, 2017;Y. Wang et al, 2018).…”

Section: Discussioncontrasting

confidence: 81%

An effective double gene knock‐in strategy using small‐molecule L755507 in the medaka fish (Oryzias latipes)

Murakami

Kobayashi

2022

Genesis

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Homology-directed repair (HDR)-mediated genome editing has become a powerful method for altering chromosomal sequences in a seamless and accurate manner.However, the low efficiency of HDR in most cells hinders the establishment of desired strains harboring accurately modified genomes. To enhance HDR-mediated knock-in events, we explored two approaches, namely low-temperature incubation and chemical compound administration using medaka embryos after microinjection.We validated the performance of each method by calculating the knock-in efficiencies according to the expression area of fluorescent protein in the embryos. The in vivo assay indicated that the reduction in temperature did not promote HDR events, whereas among the nine compounds screened, the small molecule L755507 could enhance the HDR-mediated targeted integration of reporter cassettes. Addi-

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Section: Discussioncontrasting

confidence: 81%

An effective double gene knock‐in strategy using small‐molecule L755507 in the medaka fish (Oryzias latipes)

Murakami

Kobayashi

2022

Genesis

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“…The Cas9n D10A and Cas9n H840A are the variants of Cas9 containing a single amino acid substitution, which permit generation of site‐specific nicks on a gRNA complementary or non‐complementary DNA single strand, respectively. The Cas9n‐based approach has been reported to be available for the HDR‐mediated knock‐in in human or mouse cells and cattle, which contributed to circumvent unwanted NHEJ‐mediated gene disruptions (Gao et al., 2017; Paulsen et al., 2017; Wang et al., 2018). In medaka, several studies have reported the successful knock‐in mediated by wild‐type Cas9‐based approaches (Gutierrez‐Triana et al., 2018; Murakami et al., 2017; Watakabe et al., 2018); however, no studies have achieved DSBs‐free knock‐in with the Cas9n in medaka and other teleost fish.…”

Section: Introductionmentioning

confidence: 99%

“…The Cas9n-based approach has been reported to be available for the HDR-mediated knock-in in human or mouse cells and cattle, which contributed to circumvent unwanted NHEJ-mediated gene disruptions (Gao et al, 2017;Paulsen et al, 2017;Wang et al, 2018).…”

mentioning

confidence: 99%

CRISPR/Cas9 nickase‐mediated efficient and seamless knock‐in of lethal genes in the medaka fish Oryzias latipes

et al. 2020

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Genome editing with CRISPR/Cas9 system has become a powerful technology for targeted modification of chromosomal sequences in a wide range of organisms. This system consisting of Cas9 and guide RNA (gRNA) can introduce the double strand DNA breaks (DSBs) into the genomic target sites, consequently activating the DNA repair pathways such as non-homologous end-joining (NHEJ) and homology-directed repair (HDR) (Goodarzi & Jeggo, 2013; Sander & Joung, 2014). Although HDR is more ideal than NHEJ for the seamless and specific integration of foreign genes into genomes, generally HDR is not the dominant repair pathway (Han & Huang, 2020; Lieber et al., 2003; Mao et al., 2008). Thus, a majority of DSBs are repaired by error-prone NHEJ rather than the accurate HDR, and this could result in complex and unpredicted genetic mutations, including small insertions and deletions (indels) or imprecise insertion of a donor DNA, into the genomes (

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“…nD10A has been used to generate paired DNA nicks and efficiently disrupts genes in Drosophila and cell culture (Gopalappa et al, 2018; Port et al, 2014). Nicks induced by nD10A promoted higher HDR rates than nH840A, where HDR was almost undetectable (Bothmer et al, 2017; Hyodo et al, 2020; Mali et al, 2013; Wang et al, 2021, 2018). Furthermore, nD10A can boost specificity while reducing off-target effects since it requires two gRNAs that target complementary DNA strands to either disrupt a gene function or trigger HDR.…”

Section: Introductionmentioning

confidence: 95%

A nickase Cas9 gene-drive system promotes super-Mendelian inheritance in Drosophila

Amo

Juste

Gantz

2021

Preprint

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CRISPR-based gene drive systems can be used to modify entire wild populations due to their ability to bias their own inheritance towards super-Mendelian rates (>100%). Current gene drives contain a Cas9 and a gRNA gene inserted at the location targeted by the gRNA. These gene products are able to cut the opposing wildtype allele, and lead to its replacement with a copy of the gene drive through the homology-directed DNA repair pathway. When this allelic conversion occurs in the germline it leads to the preferential inheritance of the engineered allele — a property that has been proposed to disseminate engineered traits for managing disease-transmitting mosquito populations. Here, we report a novel gene-drive strategy relying on Cas9 nickases which operates by generating staggered paired-nicks in the DNA to promote propagation of the gene drive allele. We show that only when 5’ overhangs are generated, the system efficiently leads to allelic conversion. Further, the nickase gene-drive arrangement produces large stereotyped deletions, providing potential advantages for targeting essential genes. Indeed, the nickase-gene-drive design should expand the options available for gene drive designs aimed at applications in mosquitoes and beyond.

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Paired CRISPR/Cas9 Nickases Mediate Efficient Site-Specific Integration of F9 into rDNA Locus of Mouse ESCs

Cited by 19 publications

References 38 publications

An effective double gene knock‐in strategy using small‐molecule L755507 in the medaka fish (Oryzias latipes)

An effective double gene knock‐in strategy using small‐molecule L755507 in the medaka fish (Oryzias latipes)

CRISPR/Cas9 nickase‐mediated efficient and seamless knock‐in of lethal genes in the medaka fish Oryzias latipes

A nickase Cas9 gene-drive system promotes super-Mendelian inheritance in Drosophila

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