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Highly efficient prime editing by introducing same-sense mutations in pegRNA or stabilizing its structure

Xiaosa Li, Lina Zhou, Bao‐Qing Gao, Guangye Li, Xiao Wang, Ying Wang, Jia Wei, Wenyan Han, Zixian Wang, Jifang Li, Runze Gao, Junjie Zhu, Wenchao Xu, Jing Wu, Bei Yang, Xiaodong Sun, Li Yang, Jia Chen

2022Nature Communications136 citationsDOIOpen Access PDF

Abstract

Prime editor (PE), which is developed by combining Cas9 nickase and an engineered reverse transcriptase, can mediate all twelve types of base substitutions and small insertions or deletions in living cells but its efficiency remains low. Here, we develop spegRNA by introducing same-sense mutations at proper positions in the reverse-transcription template of pegRNA to increase PE's base-editing efficiency up-to 4,976-fold (on-average 353-fold). We also develop apegRNA by altering the pegRNA secondary structure to increase PE's indel-editing efficiency up-to 10.6-fold (on-average 2.77-fold). The spegRNA and apegRNA can be combined to further enhance editing efficiency. When spegRNA and apegRNA are used in PE3 and PE5 systems, the efficiencies of sPE3, aPE3, sPE5 and aPE5 systems are all enhanced significantly. The strategies developed in this study realize highly efficient prime editing at certain previously uneditable sites.

Topics & Concepts

Prime (order theory)Genome editingComputer scienceMutationComputational biologySense (electronics)BiologyGeneticsCRISPRChemistryGeneCombinatoricsMathematicsPhysical chemistryCRISPR and Genetic EngineeringRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniques
Highly efficient prime editing by introducing same-sense mutations in pegRNA or stabilizing its structure | Litcius