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Genomic and Transcriptomic Analyses of Prime Editing Guide RNA–Independent Off-Target Effects by Prime Editors

Runze Gao, Zhi-Can Fu, Xiangyang Li, Ying Wang, Jia Wei, Guangye Li, Lijie Wang, Jing Wu, Xingxu Huang, Li Yang, Jia Chen

2022The CRISPR Journal64 citationsDOI

Abstract

Prime editors (PEs) were developed to induce versatile edits at a guide-specified genomic locus. With all RNA-guided genome editors, guide-dependent off-target (OT) mutations can occur at other sites bearing similarity to the intended target. However, whether PEs carry the additional risk of guide-independent mutations elicited by their unique enzymatic moiety (i.e., reverse transcriptase) has not been examined systematically in mammalian cells. Here, we developed a cost-effective sensitive platform to profile guide-independent OT effects in human cells. We did not observe guide-independent OT mutations in the DNA or RNA of prime editor 3 (PE3)-edited cells, or alterations to their telomeres, endogenous retroelements, alternative splicing events, or gene expression. Together, our results showed undetectable prime editing guide RNA-independent OT effects of PE3 in human cells, suggesting the high editing specificity of its reverse-transcriptase moiety.

Topics & Concepts

Reverse transcriptaseRNARNA editingPrime (order theory)BiologyComputational biologyGeneLocus (genetics)GeneticsGenome editingTelomereGenomeMathematicsCombinatoricsCRISPR and Genetic EngineeringRNA and protein synthesis mechanismsRNA regulation and disease
Genomic and Transcriptomic Analyses of Prime Editing Guide RNA–Independent Off-Target Effects by Prime Editors | Litcius