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Prediction of base editor off-targets by deep learning

Medicine and Health

Prediction of base editor off-targets by deep learning

C. Zhang, Y. Yang, et al.

Discover how base editors can be optimized to minimize off-target mutations in gene editing! This innovative research by a team of experts, including Chengdong Zhang and Yuan Yang, establishes deep learning models that accurately predict off-target effects, making base editing safer and more effective.

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Abstract
Due to the tolerance of mismatches between gRNA and targeting sequence, base editors frequently induce unwanted Cas9-dependent off-target mutations. Here, to develop models to predict such off-targets, we design gRNA-off-target pairs for adenine base editors (ABEs) and cytosine base editors (CBEs) and stably integrate them into the human cells. After five days of editing, we obtain valid efficiency datasets of 54,663 and 55,727 off-targets for ABEs and CBEs, respectively. We use the datasets to train deep learning models, resulting in ABEdeepoff and CBEdeepoff, which can predict off-target sites. We use these tools to predict off-targets for a panel of endogenous loci and achieve Spearman correlation values varying from 0.710 to 0.859. Finally, we develop an integrated tool that is freely accessible via an online web server http://www.deephf.com/#/bedeep/bedeepoff. These tools could facilitate minimizing the off-target effects of base editing.
Publisher
Nature Communications
Published On
Sep 02, 2023
Authors
Chengdong Zhang, Yuan Yang, Tao Qi, Yuening Zhang, Linghui Hou, Jingjing Wei, Jingcheng Yang, Leming Shi, Sang-Ging Ong, Hongyan Wang, Hui Wang, Bo Yu, Yongming Wang
DOI
https://doi.org/https://doi.org/10.1038/s41467-023-41004-3
Tags
base editors
off-target mutations
deep learning
gene editing
adenine base editors
cytosine base editors
predictive models

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