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Literature DB >> 25752963

A CRISPR/Cas9 vector system for tissue-specific gene disruption in zebrafish.

Julien Ablain¹, Ellen M Durand¹, Song Yang¹, Yi Zhou², Leonard I Zon³.

Abstract

CRISPR/Cas9 technology of genome editing has greatly facilitated the targeted inactivation of genes in vitro and in vivo in a wide range of organisms. In zebrafish, it allows the rapid generation of knockout lines by simply injecting a guide RNA (gRNA) and Cas9 mRNA into one-cell stage embryos. Here, we report a simple and scalable CRISPR-based vector system for tissue-specific gene inactivation in zebrafish. As proof of principle, we used our vector with the gata1 promoter driving Cas9 expression to silence the urod gene, implicated in heme biosynthesis, specifically in the erythrocytic lineage. Urod targeting yielded red fluorescent erythrocytes in zebrafish embryos, recapitulating the phenotype observed in the yquem mutant. While F0 embryos displayed mosaic gene disruption, the phenotype appeared very penetrant in stable F1 fish. This vector system constitutes a unique tool to spatially control gene knockout and greatly broadens the scope of loss-of-function studies in zebrafish.

Entities: Chemical

Mesh：

Substances：

Year: 2015 PMID： 25752963 PMCID： PMC4379706 DOI： 10.1016/j.devcel.2015.01.032

Source DB: PubMed Journal: Dev Cell ISSN： 1534-5807 Impact factor: 12.270

31 in total

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2. Targeted genome engineering in human cells with the Cas9 RNA-guided endonuclease.

Authors: Seung Woo Cho; Sojung Kim; Jong Min Kim; Jin-Soo Kim
Journal: Nat Biotechnol Date: 2013-01-29 Impact factor: 54.908

3. Genetic screens in human cells using the CRISPR-Cas9 system.

Authors: Tim Wang; Jenny J Wei; David M Sabatini; Eric S Lander
Journal: Science Date: 2013-12-12 Impact factor: 47.728

4. Zebrafish rhabdomyosarcoma reflects the developmental stage of oncogene expression during myogenesis.

Authors: Narie Y Storer; Richard M White; Audrey Uong; Emily Price; G Petur Nielsen; David M Langenau; Leonard I Zon
Journal: Development Date: 2013-07 Impact factor: 6.868

Review 5. CRISPR-Cas systems for editing, regulating and targeting genomes.

Authors: Jeffry D Sander; J Keith Joung
Journal: Nat Biotechnol Date: 2014-03-02 Impact factor: 54.908

6. RNA-guided human genome engineering via Cas9.

Authors: Prashant Mali; Luhan Yang; Kevin M Esvelt; John Aach; Marc Guell; James E DiCarlo; Julie E Norville; George M Church
Journal: Science Date: 2013-01-03 Impact factor: 47.728

7. One-step generation of mice carrying mutations in multiple genes by CRISPR/Cas-mediated genome engineering.

Authors: Haoyi Wang; Hui Yang; Chikdu S Shivalila; Meelad M Dawlaty; Albert W Cheng; Feng Zhang; Rudolf Jaenisch
Journal: Cell Date: 2013-05-02 Impact factor: 41.582

8. High-frequency off-target mutagenesis induced by CRISPR-Cas nucleases in human cells.

Authors: Yanfang Fu; Jennifer A Foden; Cyd Khayter; Morgan L Maeder; Deepak Reyon; J Keith Joung; Jeffry D Sander
Journal: Nat Biotechnol Date: 2013-06-23 Impact factor: 54.908

9. Efficient genome editing in zebrafish using a CRISPR-Cas system.

Authors: Woong Y Hwang; Yanfang Fu; Deepak Reyon; Morgan L Maeder; Shengdar Q Tsai; Jeffry D Sander; Randall T Peterson; J-R Joanna Yeh; J Keith Joung
Journal: Nat Biotechnol Date: 2013-01-29 Impact factor: 54.908

10. DNA interrogation by the CRISPR RNA-guided endonuclease Cas9.

Authors: Samuel H Sternberg; Sy Redding; Martin Jinek; Eric C Greene; Jennifer A Doudna
Journal: Nature Date: 2014-01-29 Impact factor: 49.962

145 in total

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Review 3. Genomic Approaches to Zebrafish Cancer.

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Review 4. CRISP Points on Establishing CRISPR-Cas9 In Vitro Culture Experiments in a Resource Constraint Haematology Oncology Research Lab.

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Review 10. Regeneration Genetics.

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