Enhanced scale and scope of genome engineering and regulation using CRISPR/Cas in Saccharomyces cerevisiae.

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ID: 67586

2019

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Abstract

Although only 6 years old, the CRISPR system has blossomed into a tool for rapid, on-demand genome engineering and gene regulation in Saccharomyces cerevisiae. In this minireview, we discuss fundamental CRISPR technologies, tools to improve the efficiency and capabilities of gene targeting, and cutting-edge techniques to explore gene editing and transcriptional regulation at genome scale using pooled approaches. The focus is on applications to metabolic engineering with topics including development of techniques to edit the genome in multiplex, tools to enable large numbers of genetic modifications using pooled single-guide RNA libraries and efforts to enable programmable transcriptional regulation using endonuclease-null Cas enzymes.

Reference Key	deaner2019enhancedfems Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Deaner, Matthew;Alper, Hal S;
Journal	fems yeast research
Year	2019
DOI	foz076
URL	https://doi.org/foz076
Keywords	metabolic engineering synthetic biology crispr saccharomyces cerevisiae cas9 cpf1 dcas9

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