在斑马鱼中使用CRISPR进行快速反向遗传筛选。
Rapid reverse genetic screening using CRISPR in zebrafish.
作者信息
Shah Arish N, Davey Crystal F, Whitebirch Alex C, Miller Adam C, Moens Cecilia B
机构信息
Division of Basic Sciences, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA.
出版信息
Nat Methods. 2015 Jun;12(6):535-40. doi: 10.1038/nmeth.3360. Epub 2015 Apr 13.
Abstract
Identifying genes involved in biological processes is critical for understanding the molecular building blocks of life. We used engineered CRISPR (clustered regularly interspaced short palindromic repeats) to efficiently mutate specific loci in zebrafish (Danio rerio) and screen for genes involved in vertebrate biological processes. We found that increasing CRISPR efficiency by injecting optimized amounts of Cas9-encoding mRNA and multiplexing single guide RNAs (sgRNAs) allowed for phenocopy of known mutants across many phenotypes in embryos. We performed a proof-of-concept screen in which we used intersecting, multiplexed pool injections to examine 48 loci and identified two new genes involved in electrical-synapse formation. By deep sequencing target loci, we found that 90% of the genes were effectively screened. We conclude that CRISPR can be used as a powerful reverse genetic screening strategy in vivo in a vertebrate system.
摘要
识别参与生物过程的基因对于理解生命的分子组成要素至关重要。我们使用工程化的CRISPR(成簇规律间隔短回文重复序列)来高效地突变斑马鱼(Danio rerio)中的特定基因座,并筛选参与脊椎动物生物过程的基因。我们发现,通过注射优化量的编码Cas9的mRNA以及将单向导RNA(sgRNA)进行多重化处理来提高CRISPR效率,能够在胚胎的多种表型中模拟已知突变体的表型。我们进行了一项概念验证筛选,其中我们使用交叉、多重化混合注射来检测48个基因座,并鉴定出两个参与电突触形成的新基因。通过对目标基因座进行深度测序,我们发现90%的基因得到了有效筛选。我们得出结论,CRISPR可作为一种强大的反向遗传学筛选策略在脊椎动物系统中进行体内研究。
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