Applying Human ADAR1p110 and ADAR1p150 for Site-Directed RNA Editing—G/C Substitution Stabilizes GuideRNAs against Editing

Madeleine Heep; Pia Mach; Philipp Reautschnig; Jacqueline Wettengel; Thorsten Stafforst

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Applying Human ADAR1p110 and ADAR1p150 for Site-Directed RNA Editing—G/C Substitution Stabilizes GuideRNAs against Editing

机译：应用人类ADAR1p110和ADAR1p150进行定点RNA编辑-G / C替代可稳定GuideRNA免受编辑

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Site-directed RNA editing is an approach to reprogram genetic information at the RNA level. We recently introduced a novel guideRNA that allows for the recruitment of human ADAR2 to manipulate genetic information. Here, we show that the current guideRNA design is already able to recruit another human deaminase, ADAR1, in both isoforms, p110 and p150. However, further optimization seems necessary as the current design is less efficient for ADAR1 isoforms. Furthermore, we describe hotspots at which the guideRNA itself is edited and show a way to circumvent this auto-editing without losing editing efficiency at the target. Both findings are important for the advancement of site-directed RNA editing as a tool in basic biology or as a platform for therapeutic editing.

机译：定点RNA编辑是一种在RNA级别重新编程遗传信息的方法。我们最近推出了一种新型的guideRNA，可募集人类ADAR2来操纵遗传信息。在这里，我们表明当前的guideRNA设计已经能够募集p110和p150两种亚型的另一种人类脱氨酶ADAR1。但是，由于当前设计对ADAR1亚型的效率较低，因此似乎有必要进一步优化。此外，我们介绍了可在其中编辑guideRNA的热点，并展示了一种规避自动编辑而不丢失目标编辑效率的方法。这两个发现对于定点RNA编辑作为基础生物学工具或治疗编辑平台都至关重要。

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《Genes》 |2017年第1期|共页
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Madeleine Heep; Pia Mach; Philipp Reautschnig; Jacqueline Wettengel; Thorsten Stafforst;
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中图分类生物科学;
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1. Improving Site-Directed RNA Editing In Vitro and in Cell Culture by Chemical Modification of the GuideRNA [J] . Paul Vogel, Marius F. Schneider, Jacqueline Wettengel Angewandte Chemie . 2014,第24期

机译：通过GuideRNA的化学修饰改善体外和细胞培养中的定点RNA编辑
2. Abundant off-target edits from site-directed RNA editing can be reduced by nuclear localization of the editing enzyme [J] . Vallecillo-Viejo Isabel C., Liscovitch-Brauer Noa, Montiel-Gonzalez Maria Fernanda, RNA biology . 2018,第1期

机译：通过编辑酶的核定位可以减少来自点定向RNA编辑的丰富的偏离目标编辑
3. AKT-Dependent Phosphorylation of ADAR1p110 and ADAR2 Represents a New and Important Link Between Cell Signaling and RNA Editing [J] . DNA and Cell Biology . 2020,第3期

机译：ADAR1P110和ADAR2的AKT依赖性磷酸化代表了细胞信号传导和RNA编辑之间的新的和重要联系
4. Editing like Humans: A Contextual, Multimodal Framework for Automated Video Editing [C] . Sharath Koorathota, Patrick Adelman, Kelly Cotton, IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops . 2021

机译：像人类一样编辑：一个用于自动视频编辑的语境，多模式框架
5. Structural Engineering of Adenosine Deaminases Acting on RNA with Chemically Modified Guide RNAs for Site-Directed RNA Editing [D] . Monteleone, Leanna Rose. 2020

机译：腺苷脱胺酶的结构工程，用化学改性导向RNA作用于基于化学改性的rNA的定向RNA编辑
6. Applying Human ADAR1p110 and ADAR1p150 for Site-Directed RNA Editing—G/C Substitution Stabilizes GuideRNAs against Editing [O] . Madeleine Heep, Pia Mach, Philipp Reautschnig, 2017

机译：将人类ADAR1p110和ADAR1p150应用于定点RNA编辑-G / C替代可稳定GuideRNA免受编辑
7. Applying Human ADAR1p110 and ADAR1p150 for Site-Directed RNA Editing—G/C Substitution Stabilizes GuideRNAs against Editing [O] . Madeleine Heep, Pia Mach, Philipp Reautschnig, 2017

机译：将人aDaR1p110和aDaR1p150应用于定点RNa编辑-G / C替换稳定GuideRNas进行编辑

Applying Human ADAR1p110 and ADAR1p150 for Site-Directed RNA Editing—G/C Substitution Stabilizes GuideRNAs against Editing

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