Cytosine base editors with minimized unguided DNA and RNA off-target events and high on-target activity

Yi Yu; Thomas C. Leete; David A. Born; Lauren Young; Luis A. Barrera; Seung-Joo Lee; Holly A. Rees; Giuseppe Ciaramella; Nicole M. Gaudelli

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Cytosine base editors with minimized unguided DNA and RNA off-target events and high on-target activity

机译：胞嘧啶基础编辑器，具有最小化的无导体DNA和RNA脱靶事件和高目标活动

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Cytosine base editors?(CBEs) enable efficient, programmable reversion of T?A to C?G point mutations in the human genome. Recently, cytosine base editors with rAPOBEC1 were reported to induce unguided cytosine deamination in genomic DNA and cellular RNA. Here we report eight next-generation CBEs (BE4 with either RrA3F [wt, F130L], AmAPOBEC1, SsAPOBEC3B [wt, R54Q], or PpAPOBEC1 [wt, H122A, R33A]) that display comparable DNA on-target editing frequencies, whilst eliciting a 12- to 69-fold reduction in C-to-U edits in the transcriptome, and up to a 45-fold overall reduction in unguided off-target DNA deamination relative to BE4 containing rAPOBEC1. Further, no enrichment of genome-wide C?G to T?A edits are observed in mammalian cells following transfection of mRNA encoding five of these next-generation editors. Taken together, these next-generation CBEs represent a collection of base editing tools for applications in which minimized off-target and high on-target activity are required.

机译：胞嘧啶基础编辑器？（CBE）能够在人类基因组中高效，可编程逆转T→A至C？G点突变。最近，据报道，具有Rabobec1的胞嘧啶基础编辑器诱导基因组DNA和细胞RNA中的非牙齿胞嘧啶脱氨基。在这里，我们报告了八个下一代CBE（Be4，Rra3F [WT，F130L]，AMAPOBEC1，SSAPOBEC3B [WT，R54Q]或PPAPOBEC1 [WT，H122A，R33A]），其显示相当的DNA对目标编辑频率，同时引出转录组中的C-to-U编辑的12至69倍，相对于含有RaboBec1的Be4，直接脱靶DNA脱胺的整体降低至多至45倍。此外，在转染这些下一代编辑器中的五个中，未富集基因组宽的C-G至T =哺乳动物细胞中的编辑。总之，这些下一代CBE表示需要最小化偏离目标和高目标活动的应用程序的基本编辑工具集合。

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《Nature Communications》 |2020年第1期|共10页
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Yi Yu; Thomas C. Leete; David A. Born; Lauren Young; Luis A. Barrera; Seung-Joo Lee; Holly A. Rees; Giuseppe Ciaramella; Nicole M. Gaudelli;
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1. A rationally engineered cytosine base editor retains high on-target activity while reducing both DNA and RNA off-target effects [J] . Nature methods . 2020,第6期

机译：理性工程化的胞嘧啶碱基编辑器保留高目标活动，同时减少DNA和RNA脱靶效果
2. Engineering domain-inlaid SaCas9 adenine base editors with reduced RNA off-targets and increased on-target DNA editing [J] . Minh Thuan Nguyen Tran, Mohd Khairul Nizam Mohd Khalid, Qi Wang, Nature Communications . 2020,第1期

机译：工程域镶嵌Saca9腺嘌呤基础编辑器，具有降低的RNA脱靶并增加目标DNA编辑
3. CRISPR DNA base editors with reduced RNA off-target and self-editing activities [J] . Grunewald Julian, Zhou Ronghao, Iyer Sowmya, Nature biotechnology . 2019,第9期

机译：CRISPR DNA基础编辑以降低RNA脱靶和自我编辑活动
4. Reduced base-base interactions between the DNA seed and RNA target are the major determinants of a significant reduction in the off-target effect due to DNA-seed-containing siRNA [C] . Ui-Tei K., Nishi K., Naito Y., Micro-NanoMechatronics and Human Science, 2009. MHS 2009 . 2009

机译：DNA种子与RNA靶之间的碱基间相互作用降低是由于含DNA种子的siRNA导致脱靶效应显着降低的主要决定因素
5. A Bioinformatic Investigation of Off-Target Binding Events of Engineered DNA-Binding Proteins and Applications of Artificial Transcription Factors for Malaria Research. [D] . Yu, Abigail Stephanie. 2015

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6. An APOBEC3A-Cas9 base editor with minimized bystander and off-target activities [O] . Jason M. Gehrke, Oliver Cervantes, M. Kendell Clement, -1

机译：一个APOBEC3A-Cas9基本编辑器具有最少的旁观者和脱靶活动
7. Next-generation cytosine base editors with minimized unguided DNA and RNA off-target events and high on-target activity [O] . Yi Yu, Thomas Leete, David A. Born, 2020

机译：下一代胞嘧啶基础编辑器，具有最小化的无导体DNA和RNA脱靶事件和高目标活动
8. Binding of DNA to Alpha/Beta-Type Small, Acid-Soluble Proteins from Spores ofBacillus or Clostridium Species Prevents Formation of Cytosine Dimers, Cytosine-Thymine Dimers, and Bipyrimidine Photoadducts after UV Irradiation [R] . Fairhead, H., Setlow, P. 1992

机译：DNa与来自芽孢杆菌或梭菌属孢子的α/β型小酸性蛋白质的结合可防止紫外线照射后形成胞嘧啶二聚体，胞嘧啶 - 胸腺嘧啶二聚体和联嘧啶光合产物

Cytosine base editors with minimized unguided DNA and RNA off-target events and high on-target activity

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