The Rise of CRISPR/Cas for Genome Editing in Stem Cells

Bing Shui; Liz Hernandez Matias; Yi Guo; Ying Peng

doi:10.1155/2016/8140168

The Rise of CRISPR/Cas for Genome Editing in Stem Cells

Bing Shui, Liz Hernandez Matias, Yi Guo, Ying Peng

Biochemistry and Molecular Biology

Research output: Contribution to journal › Review article › peer-review

16 Scopus citations

Abstract

Genetic manipulation is a powerful tool to establish the causal relationship between a genetic lesion and a particular pathological phenotype. The rise of CRISPR/Cas9 genome-engineering tools overcame the traditional technical bottleneck for routine site-specific genetic manipulation in cells. To create the perfect in vitro cell model, there is significant interest from the stem cell research community to adopt this fast evolving technology. This review addresses this need directly by providing both the up-to-date biochemical rationale of CRISPR-mediated genome engineering and detailed practical guidelines for the design and execution of CRISPR experiments in cell models. Ultimately, this review will serve as a timely and comprehensive guide for this fast developing technology.

Original language	English (US)
Article number	8140168
Journal	Stem Cells International
Volume	2016
DOIs	https://doi.org/10.1155/2016/8140168
State	Published - 2016

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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title = "The Rise of CRISPR/Cas for Genome Editing in Stem Cells",

abstract = "Genetic manipulation is a powerful tool to establish the causal relationship between a genetic lesion and a particular pathological phenotype. The rise of CRISPR/Cas9 genome-engineering tools overcame the traditional technical bottleneck for routine site-specific genetic manipulation in cells. To create the perfect in vitro cell model, there is significant interest from the stem cell research community to adopt this fast evolving technology. This review addresses this need directly by providing both the up-to-date biochemical rationale of CRISPR-mediated genome engineering and detailed practical guidelines for the design and execution of CRISPR experiments in cell models. Ultimately, this review will serve as a timely and comprehensive guide for this fast developing technology.",

author = "Bing Shui and {Hernandez Matias}, Liz and Yi Guo and Ying Peng",

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AU - Shui, Bing

AU - Hernandez Matias, Liz

AU - Guo, Yi

AU - Peng, Ying

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N2 - Genetic manipulation is a powerful tool to establish the causal relationship between a genetic lesion and a particular pathological phenotype. The rise of CRISPR/Cas9 genome-engineering tools overcame the traditional technical bottleneck for routine site-specific genetic manipulation in cells. To create the perfect in vitro cell model, there is significant interest from the stem cell research community to adopt this fast evolving technology. This review addresses this need directly by providing both the up-to-date biochemical rationale of CRISPR-mediated genome engineering and detailed practical guidelines for the design and execution of CRISPR experiments in cell models. Ultimately, this review will serve as a timely and comprehensive guide for this fast developing technology.

AB - Genetic manipulation is a powerful tool to establish the causal relationship between a genetic lesion and a particular pathological phenotype. The rise of CRISPR/Cas9 genome-engineering tools overcame the traditional technical bottleneck for routine site-specific genetic manipulation in cells. To create the perfect in vitro cell model, there is significant interest from the stem cell research community to adopt this fast evolving technology. This review addresses this need directly by providing both the up-to-date biochemical rationale of CRISPR-mediated genome engineering and detailed practical guidelines for the design and execution of CRISPR experiments in cell models. Ultimately, this review will serve as a timely and comprehensive guide for this fast developing technology.

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The Rise of CRISPR/Cas for Genome Editing in Stem Cells

Abstract

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