Abstract

Recently developed gene editing technologies based on engineered CRISPR/Cas9 systems enables researchers to disrupt genes in a cell type-specific manner in the adult mouse brain. Using these technologies, we recently showed that the dopamine beta-hydroxylase gene in Locus Coeruleus (LC) norepinephrine neurons plays a vital role in the maintenance of wakefulness. Our method consists of four steps, (1) crossing Cre-dependent spCas9 knockin mice with a Cre-driver mouse line to express spCas9 in the target neural populations, (2) cloning of sgRNA, (3) construction of an AAV (adeno associated virus) vector expressing dual sgRNA, and (4) virus packaging and stereotaxic injection of the virus into the target brain area. Here, we describe a detailed protocol of AAV vector construction for cell type-specific CRISPR gene editing in the adult mouse brain. The method adopts a dual-sgRNA strategy for efficient disruption of the target gene. At first, a few different sgRNAs targeting the same gene are cloned into a plasmid expressing spCas9. After evaluation of the sgRNAs by a T7 endonuclease assay, the two most efficient sgRNAs are cloned in tandem into an AAV vector using the Gibson Assembly method.

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