Efficient Methods for Targeted Mutagenesis in Zebrafish Using Zinc-Finger Nucleases: Data from Targeting of Nine Genes Using CompoZr or CoDA ZFNs

Sood, Raman; Carrington, Blake; Bishop, Kevin; Jones, MaryPat; Rissone, Alberto; Candotti, Fabio; Chandrasekharappa, Settara C.; Liu, Paul

doi:10.1371/journal.pone.0057239

Cited by 59 publications

(58 citation statements)

References 45 publications

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“…Previously, we targeted 26 genes with ZFNs or TALENs and successfully generated multiple knockout alleles for 21 genes (Sood et al 2013). In addition to the substantial reduction in cost and increased ease of design and assembly for CRISPR targets compared to ZFNs and TALENs, our data showed that the CRISPRs were significantly more efficient in generating genetic mutations (Fig.…”

Section: Direct Comparison Of Crispr/cas9 To Zfns and Talensmentioning

confidence: 69%

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High-throughput gene targeting and phenotyping in zebrafish using CRISPR/Cas9

et al. 2015

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The use of CRISPR/Cas9 as a genome-editing tool in various model organisms has radically changed targeted mutagenesis.Here, we present a high-throughput targeted mutagenesis pipeline using CRISPR/Cas9 technology in zebrafish that will make possible both saturation mutagenesis of the genome and large-scale phenotyping efforts. We describe a cloningfree single-guide RNA (sgRNA) synthesis, coupled with streamlined mutant identification methods utilizing fluorescent PCR and multiplexed, high-throughput sequencing. We report germline transmission data from 162 loci targeting 83 genes in the zebrafish genome, in which we obtained a 99% success rate for generating mutations and an average germline transmission rate of 28%. We verified 678 unique alleles from 58 genes by high-throughput sequencing. We demonstrate that our method can be used for efficient multiplexed gene targeting. We also demonstrate that phenotyping can be done in the F 1 generation by inbreeding two injected founder fish, significantly reducing animal husbandry and time. This study compares germline transmission data from CRISPR/Cas9 with those of TALENs and ZFNs and shows that efficiency of CRISPR/ Cas9 is sixfold more efficient than other techniques. We show that the majority of published "rules" for efficient sgRNA design do not effectively predict germline transmission rates in zebrafish, with the exception of a GG or GA dinucleotide genomic match at the 5 ′ end of the sgRNA. Finally, we show that predicted off-target mutagenesis is of low concern for in vivo genetic studies.

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Section: Direct Comparison Of Crispr/cas9 To Zfns and Talensmentioning

confidence: 69%

“…Injected fish were grown to adulthood and screened for germline transmission of CRISPR-induced mutations by fluorescence PCR (Sood et al 2013). Each putative founder fish was crossed with a wild-type fish and embryos were harvested at 24-72 h post-fertilization in 96-well plates, one embryo per well.…”

Section: Genomic Dna Extractionmentioning

confidence: 99%

High-throughput gene targeting and phenotyping in zebrafish using CRISPR/Cas9

et al. 2015

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“…Injection of mRNA, founder screening, and identification of cbfb heterozygous adult fish has been described in detail previously. 30 For each experiment, cbfb-Del4 and cbfb-Ins4 were genotyped by fluorescent polymerase chain reaction (PCR) using a mixture of M13F-tailed (59-TGTAAAACGACGGCCAGT-39) cbfb-specific forward primer (59-ATGCTCGGGCCTGGCTTTCT-39), 6-FAM-labeled M13F primer, and PIG-tailed (59-GTGTCTT-39) cbfb-specific reverse primer (59-AGG GGCGTGAGTTAGAGT-39) in the PCR mix. 30 Genotyping of fixed samples has been performed as above but using a different PCR mix (Sigma RED Extract-N-Amp PCR Ready Mix R4775 REDExtract-N-Amp PCR Ready Mix, R4775; Sigma-Aldrich).…”

Section: Generation Of Cbfb Mutants and Genotypingmentioning

confidence: 99%

“…32,33 The selected CompoZr ZFN pair targeted a specific region within cbfb exon 3 ( Figure 1A). 30 Among 9 mutations identified 30 from 6 germline-transmitting founders, we selected 2 mutations predicted to cause frameshifts with premature terminations, cbfb hg10 (c.215delACCT, p.N72IfsX25) and cbfb hg11 (c.215insACCT, p.H74PfsX43), denoted here as cbfb del4 and cbfb ins4 ( Figure 1B). In order to test whether the mutations lead to loss of cbfb expression, we evaluated the presence of cbfb transcripts in cbfb del4/del4…”

Section: Generation Of Zebrafish Cbfb 2/2 Mutantsmentioning

confidence: 99%

CBFβ and RUNX1 are required at 2 different steps during the development of hematopoietic stem cells in zebrafish

Bresciani¹,

Carrington

Wincovitch

et al. 2014

Blood

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• CBFb is not required for the emergence of nascent HSCs but is essential for a subsequent step before their release from the AGM.• RUNX1 is able to drive the emergence of nascent HSCs in the AGM in the absence of its cofactor CBFb.CBFb and RUNX1 form a DNA-binding heterodimer and are both required for hematopoietic stem cell (HSC) generation in mice. However, the exact role of CBFb in the production of HSCs remains unclear. Here, we generated and characterized 2 zebrafish cbfb null mutants. The cbfb 2/2 embryos underwent primitive hematopoiesis and developed transient erythromyeloid progenitors, but they lacked definitive hematopoiesis. Unlike runx1 mutants, in which HSCs are not formed, nascent, runx1 1 /c-myb 1 HSCs were formed in cbfb 2/2 embryos. However, the nascent HSCs were not released from the aortagonad-mesonephros (AGM) region, as evidenced by the accumulation of runx1 1 cells in the AGM that could not enter circulation. Moreover, wild-type embryos treated with an inhibitor of RUNX1-CBFb interaction, Ro5-3335, phenocopied the hematopoietic defects in cbfb 2/2 mutants, rather than those in runx1 2/2 mutants. Finally, we found that cbfb was downstream of the Notch pathway during HSC development. Our data suggest that runx1 and cbfb are required at 2 different steps during early HSC development. CBFb is not required for nascent HSC emergence but is required for the release of HSCs from AGM into circulation. Our results also indicate that RUNX1 can drive the emergence of nascent HSCs in the AGM without its heterodimeric partner CBFb. (Blood. 2014;124(1):70-78)

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“…To date, three major types of customizable endonucleases have been developed, namely zinc finger nucleases (ZFNs) [5–13], transcription activator-like effector nucleases (TALENs) [10,14–21] and clustered regularly interspaced short palindromic repeats (CRISPR) RNA-guided Cas9 (CRISPR/Cas) nucleases [22–32]. All three classes have been shown to cause efficient target gene disruption in zebrafish [5,6,8,9,14,17,19,27,33–39]. Nevertheless, each platform differs in the ease of their construction methods, potential off-target activities and the theoretical targeting range.…”

Section: Introductionmentioning

confidence: 99%

Methods for targeted mutagenesis in zebrafish using TALENs

Hwang

Peterson

Yeh

2014

Methods

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The transcription activator-like effector (TALE) nucleases, or TALENs, are customizable restriction enzymes that may be used to induce mutations at nearly any investigator-specified DNA sequence in zebrafish. The DNA-binding specificities of TALENs are determined by a protein array comprised of four types of TALE repeats, where each repeat recognizes a different DNA base. Here, we describe methods for constructing TALEN vectors that have been shown to achieve high success rates and mutation efficiencies in zebrafish. In addition, we discuss simple techniques and protocols that can be used to detect TALEN-induced mutations at almost any genomic locus. These methods should enable zebrafish researchers to quickly generate targeted mutations at their genes-of-interest.

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Efficient Methods for Targeted Mutagenesis in Zebrafish Using Zinc-Finger Nucleases: Data from Targeting of Nine Genes Using CompoZr or CoDA ZFNs

Cited by 59 publications

References 45 publications

High-throughput gene targeting and phenotyping in zebrafish using CRISPR/Cas9

High-throughput gene targeting and phenotyping in zebrafish using CRISPR/Cas9

CBFβ and RUNX1 are required at 2 different steps during the development of hematopoietic stem cells in zebrafish

Methods for targeted mutagenesis in zebrafish using TALENs

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