RICE CRISPR: Rapidly increased cut ends by an exonuclease Cas9 fusion in zebrafish

Thomas P. Clements; Bhavna Tandon; Hendrik A. Lintel; Joseph H. McCarty; Daniel S. Wagner

doi:10.1002/dvg.23044

RICE CRISPR: Rapidly increased cut ends by an exonuclease Cas9 fusion in zebrafish

Thomas P. Clements, Bhavna Tandon, Hendrik A. Lintel, Joseph H. McCarty, Daniel S. Wagner

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Application of CRISPR-Cas9 technology in diverse organisms has resulted in an explosion of genome modification efforts. To expand the toolbox of applications, we have created an E. coli Exonuclease I (sbcB)–Cas9 fusion that has altered enzymatic activity in zebrafish embryos. This Cas9 variant has increased mutation efficiency and favors longer deletions relative to wild-type Cas9. We anticipate that this variant will allow for more efficient screening for F0 phenotypes and mutation of a larger spectrum of genomic targets including deletion of regulatory regions and creating loss of function mutations in transcription units with poor sequence conservation such as lncRNAs where larger deletions may be required for loss of function.

Original language	English (US)
Article number	e23044
Journal	Genesis
Volume	55
Issue number	8
DOIs	https://doi.org/10.1002/dvg.23044
State	Published - Aug 2017

Keywords

Danio rerio
S. pyogenes Cas9
targeted mutagenesis

ASJC Scopus subject areas

Genetics
Endocrinology
Cell Biology

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10.1002/dvg.23044

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abstract = "Application of CRISPR-Cas9 technology in diverse organisms has resulted in an explosion of genome modification efforts. To expand the toolbox of applications, we have created an E. coli Exonuclease I (sbcB)–Cas9 fusion that has altered enzymatic activity in zebrafish embryos. This Cas9 variant has increased mutation efficiency and favors longer deletions relative to wild-type Cas9. We anticipate that this variant will allow for more efficient screening for F0 phenotypes and mutation of a larger spectrum of genomic targets including deletion of regulatory regions and creating loss of function mutations in transcription units with poor sequence conservation such as lncRNAs where larger deletions may be required for loss of function.",

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AU - McCarty, Joseph H.

AU - Wagner, Daniel S.

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RICE CRISPR: Rapidly increased cut ends by an exonuclease Cas9 fusion in zebrafish

Abstract

Keywords

ASJC Scopus subject areas

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