| Dual sgRNA-based Targeted Deletion of Large Genomic Regions and Isolation of Heritable Cas9-free Mutants in Arabidopsis
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Author:
Date:
2020-10-20
[Abstract] CRISPR/Cas9 system directed by a gene-specific single guide RNA (sgRNA) is an effective tool for genome editing such as deletions of few bases in coding genes. However, targeted deletion of larger regions generate loss-of-function alleles that offer a straightforward starting point for functional dissections of genomic loci. We present an easy-to-use strategy including a fast cloning dual-sgRNA vector linked to efficient isolation of heritable Cas9-free genomic deletions to rapidly and cost-effectively generate a targeted heritable genome deletion. This step-by-step protocol includes gRNA design, cloning strategy and mutation detection for Arabidopsis and may be adapted for other plant species.
[摘要] [摘要] CRISPR/Cas9由基因特异性单导RNA(sgRNA)引导的系统是一种有效的基因组编辑工具,如编码基因中少部分碱基的删除。然而,大区域的靶向缺失产生功能缺失等位基因,这为基因组基因座的功能解剖提供了一个直接的起点。我们提出了一个简单易用的策略,包括一个快速克隆双sgRNA载体,有效分离可遗传的Cas9游离基因组缺失,以快速且经济有效地产生靶向遗传基因组缺失。该方法包括拟南芥的gRNA设计、克隆策略和突变检测,可适用于其他植物。
[背景] ...
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| Screening Method for CRISPR/Cas9 Inhibition of a Human DNA Virus: Herpes Simplex Virus
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Author:
Date:
2020-09-05
[Abstract] The efficiency of cleavage of individual CRISPR/Cas9-sgRNAs remains difficult to predict based on the CRISPR target sequence alone. Different intracellular environments (dependent on cell type or cell cycle state for example) may affect sgRNA efficiency by altering accessibility of genomic DNA through DNA modifications such as epigenetic marks and DNA-binding proteins (e.g., histones) as well as alteration of the chromatin state of genomic DNA within the nucleus.
We recently reported a multi-step screening method for the identification of efficient sgRNAs targeting the Herpes simplex virus (HSV-1) genome and reported a differential mechanism for viral inhibition by CRISPR-Cas9 in the latent versus lytic phase. The screening platform detailed in this protocol allows ...
[摘要] [摘要 ] 单独基于CRISPR靶序列仍难以预测单个CRISPR / Cas9-sgRNA的切割效率。不同的细胞内环境(例如,取决于细胞类型或细胞周期状态)可能会通过DNA修饰(例如表观遗传标记和DNA结合蛋白(例如组蛋白))和染色质状态的改变来改变基因组DNA的可及性,从而影响sgRNA效率。核内基因组DNA的标记。
我们recen TLY 报道的多步骤方法筛选用于有效sgRNAs靶向的识别的单纯疱疹病毒(HSV-1)的基因组,并报告为在潜对裂解病毒相抑制CRISPR-Cas9的差动机构。该协议中详述的筛选平台允许在无细胞系统中以及在病毒靶细胞(例如人包皮成纤维细胞)的背景下逐步测试切割效率,然后对CRISPR / sgRNA的作用进行功能测试病毒蛋白的表达,复制,和再活化。该策略可以容易地应用于其他靶细胞,例如多能干细胞衍生的人感觉神经元或其他人DNA病毒。
背景 ] 单纯疱疹病毒(HSV)是的一种嗜神经性DNA病毒疱疹病毒科家族引起终身和无法治愈感染在大多数人群的,并可能导致显著发病率和死亡率(Liesegang环等人,1989; Roizman 等人。,2013) ...
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