Research progress of base editing and prime editing tools based on the CRISPR/Cas system
Herui Gao, Song Gao, Guoshi Kan, Л. Н. Валентович, Yingfeng An
Abstract
The base editor (BE) and prime editing guide RNA (pegRNA)-based prime editor (PE) technologies relying on the CRISPR/Cas system are very efficient gene editors that have been developed in recent years. The BEs include cytosine base editors (CBEs) that mediate the conversion of C to T, adenine base editors (ABEs) that mediate the conversion of A to G, glycosylase base editors (GBEs) that mediate the conversion of C to G, and the dual-base editors (DBEs) that mediate the simultaneous conversion of C to T and A to G. The BEs and PEs have been successfully applied for genome editing of various animals, plants, and microorganisms due to their advantages of high efficiency and independence of DNA double-strand breaks or donor DNA. The development process and characteristics of various BEs and PEs and their effectiveness of application are systematically introduced to provide a reference for selecting appropriate genome editing technologies. Moreover, the urgent issues that need to be addressed for more efficient and precise editing are summarized and prospected.