Fluorescent PCR-based Screening Methods for Precise Knock-in of Small DNA Fragments and Point Mutations in Zebrafish.

Blake Carrington, Raman Sood
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Abstract

Generation of zebrafish (Danio rerio) models with targeted insertion of epitope tags and point mutations is highly desirable for functional genomics and disease modeling studies. Currently, CRISPR/Cas9-mediated knock-in is the method of choice for insertion of exogeneous sequences by providing a repair template for homology-directed repair (HDR). A major hurdle in generating knock-in models is the labor and cost involved in screening of injected fish to identify the precise knock-in events due to low efficiency of the HDR pathway in zebrafish. Thus, we developed fluorescent PCR-based high-throughput screening methods for precise knock-in of epitope tags and point mutations in zebrafish. Here, we provide a step-by-step guide that describes selection of an active sgRNA near the intended knock-in site, design of single-stranded oligonucleotide (ssODN) templates for HDR, quick validation of somatic knock-in using injected embryos, and screening for germline transmission of precise knock-in events to establish stable lines. Our screening method relies on the size-based separation of all fragments in an amplicon by fluorescent PCR and capillary electrophoresis, thus providing a robust and cost-effective strategy. Although we present the use of this protocol for insertion of epitope tags and point mutations, it can be used for insertion of any small DNA fragments (e.g., LoxP sites, in-frame codons). Furthermore, the screening strategy described here can be used to screen for precise knock-in of small DNA sequences in any model system, as PCR amplification of the target region is its only requirement. Key features This protocol expands the use of fluorescent PCR and CRISPR-STAT for screening of precise knock-in of small insertions and point mutations in zebrafish. Allows validation of selected sgRNA and HDR template within two weeks by somatic knock-in screening. Allows robust screening of point mutations by combining restriction digest with CRISPR-STAT. Graphical overview Overview of the three-phase knock-in pipeline in zebrafish (created with BioRender.com).

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基于荧光pcr的斑马鱼DNA小片段和点突变精确敲入筛选方法。
具有表位标签靶向插入和点突变的斑马鱼模型的生成对于功能基因组学和疾病建模研究是非常需要的。目前,CRISPR/ cas9介导的敲入是通过为同源定向修复(homology-directed repair, HDR)提供修复模板来插入外源序列的首选方法。建立敲入模型的一个主要障碍是,由于斑马鱼HDR通路的低效率,筛选注射鱼以确定精确的敲入事件所涉及的劳动力和成本。因此,我们开发了基于荧光pcr的高通量筛选方法,用于斑马鱼表位标签和点突变的精确敲入。在这里,我们提供了一个分步指南,描述了在预定敲入位点附近选择活性sgRNA,设计单链寡核苷酸(ssODN)模板用于HDR,使用注射胚胎快速验证体细胞敲入,以及筛选精确敲入事件的种系传播以建立稳定的系。我们的筛选方法依赖于荧光PCR和毛细管电泳对扩增子中所有片段的基于大小的分离,从而提供了一种强大且具有成本效益的策略。虽然我们提出了使用这种方法插入表位标签和点突变,但它可以用于插入任何小的DNA片段(例如,LoxP位点,帧内密码子)。此外,本文描述的筛选策略可用于筛选任何模型系统中小DNA序列的精确敲入,因为其唯一要求是对目标区域进行PCR扩增。该方案扩大了荧光PCR和CRISPR-STAT用于筛选斑马鱼小插入和点突变的精确敲入的使用。允许在两周内通过体细胞敲入筛选对选定的sgRNA和HDR模板进行验证。通过结合限制性酶切与CRISPR-STAT,可以对点突变进行强大的筛选。图形概述概述斑马鱼的三相敲入管道(与BioRender.com创建)。
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