Small molecule regulated sgRNAs enable control of genome editing in E. coli by Cas9

Roman S. Iwasaki; Bagdeser A. Ozdilek; Andrew D. Garst; Alaksh Choudhury; Robert T. Batey

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Small molecule regulated sgRNAs enable control of genome editing in E. coli by Cas9

机译：小分子调节的SGRNA能够通过Cas9控制在大肠杆菌中的基因组编辑

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CRISPR-Cas9 has led to great advances in gene editing for a broad spectrum of applications. To further the utility of Cas9 there have been efforts to achieve temporal control over its nuclease activity. While different approaches have focused on regulation of CRISPR interference or editing in mammalian cells, none of the reported methods enable control of the nuclease activity in bacteria. Here, we develop RNA linkers to combine theophylline- and 3-methylxanthine (3MX)-binding aptamers with the sgRNA, enabling small molecule-dependent editing in Escherichia coli . These activatable guide RNAs enable temporal and post-transcriptional control of in vivo gene editing. Further, they reduce the death of host cells caused by cuts in the genome, a major limitation of CRISPR-mediated bacterial recombineering.

机译：CRISPR-CAS9导致基因编辑的基因进展，用于广谱应用。为了进一步实现CAS9的效用，努力实现对其核酸酶活性的时间控制。虽然不同的方法专注于调节哺乳动物细胞中的CRISPR干扰或编辑，但没有报道的方法能够控制细菌中的核酸酶活性。在此，我们开发RNA接头以将茶碱和3-甲基吡啶（3MX）与SGRNA合并 - 耦合适体，使得在大肠杆菌中依赖于小分子依赖性编辑。这些可激活的指南RNA使得体内基因编辑的时间和转录后对照。此外，它们降低了基因组中的切割引起的宿主细胞的死亡，这是Crispr-介导的细菌重组的一个主要限制。

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《Nature Communications》 |2020年第1期|共9页
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Roman S. Iwasaki; Bagdeser A. Ozdilek; Andrew D. Garst; Alaksh Choudhury; Robert T. Batey;
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1. An engineered exosome for delivering sgRNA:Cas9 ribonucleoprotein complex and genome editing in recipient cells [J] . Biomaterials Science . 2020,第10期

机译：用于在受体细胞中递送SGRNA的工程外来体：Cas9核糖核糖蛋白复合物和基因组编辑
2. Genome editing in the fall armyworm, Spodoptera frugiperda: Multiple sgRNA/Cas9 method for identification of knockouts in one generation [J] . Zhu Guan-Heng, Chereddy Shankar C. R. R., Howell Jeffrey L., Insect Biochemistry and Molecular Biology . 2020,第期

机译：秋季武器中的基因组编辑，Spodoptera Frugiperda：多个SGRNA / CAS9方法，用于识别一代敲除
3. High efficiency CRISPR/Cas9 genome editing system with an eliminable episomal sgRNA plasmid in Pichia pastoris [J] . Yang Yankun, Liu Guoqiang, Chen Xiao, Enzyme and Microbial Technology . 2020,第1期

机译：高效CRISPR / CAS9基因组编辑系统，具有可消除的重组SGRNA质粒在Pichia Pastoris
4. Genome-wide identification of TSS, promoters and transcriptional factor binding sites in E. coli K-12 bacterial genome: Development of a bioinformatics tool for the graphical display of the high throughput sequencing data [C] . Enrique Morett, Leticia Vega-Alvarado, Ryosuke L.A.Watanabe, The 7th Asia-Pacific Bioinformatics Conference（第七届亚太生物信息学大会） . 2009

机译：大肠杆菌K-12细菌基因组中TSS，启动子和转录因子结合位点的全基因组鉴定：开发用于以图形方式显示高通量测序数据的生物信息学工具
5. Chromothripsis as an On-Target Consequence of CRISPR–Cas9 Genome Editing [D] . Leibowitz, Mitchell L. 2021

机译：Chromothripsis作为CRISPR-CAS9基因组编辑的目标后果
6. Non-viral CRISPR/Cas gene editing in vitro and in vivo enabled by synthetic nanoparticle co-delivery of Cas9 mRNA and sgRNA [O] . Jason B. Miller, Shuyuan Zhang, Petra Kos, -1

机译：通过合成纳米粒子共递送Cas9 mRNA和sgRNA进行体外和体内非病毒CRISPR / Cas基因编辑
7. Controlling Citrate Synthase Expression by CRISPR/Cas9 Genome Editing for n-Butanol Production in Escherichia coli [O] . Heo Min-Ji, Jung Hwi-Min, Um Jaeyong, 2017

机译：通过CRIspR / Cas9基因组编辑控制柠檬酸合酶表达在大肠杆菌中产生正丁醇

Small molecule regulated sgRNAs enable control of genome editing in E. coli by Cas9

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