Prime editing

Prime editing is a 'search-and-replace' genome editing technology in molecular biology by which the genome of living organisms may be modified. The technology directly writes new genetic information into a targeted DNA site. It uses a fusion protein, consisting of a catalytically impaired Cas9 endonuclease fused to an engineered reverse transcriptase enzyme, and a prime editing guide RNA (pegRNA), capable of identifying the target site and providing the new genetic information to replace the target DNA nucleotides. It mediates targeted insertions, deletions, and base-to-base conversions without the need for double strand breaks (DSBs) or donor DNA templates.[1]

The technology has received mainstream press attention due to its potential uses in medical genetics. It utilizes methodologies similar to precursor genome editing technologies, including CRISPR/Cas9 and base editors. Prime editing has been used on some animal models of genetic disease[2][3][4] and plants.[5]

  1. ^ Anzalone, Andrew V.; Randolph, Peyton B.; Davis, Jessie R.; Sousa, Alexander A.; Koblan, Luke W.; Levy, Jonathan M.; Chen, Peter J.; Wilson, Christopher; Newby, Gregory A.; Raguram, Aditya; Liu, David R. (21 October 2019). "Search-and-replace genome editing without double-strand breaks or donor DNA". Nature. 576 (7785): 149–157. Bibcode:2019Natur.576..149A. doi:10.1038/s41586-019-1711-4. PMC 6907074. PMID 31634902.
  2. ^ Liu, Pengpeng; Liang, Shun-Qing; Zheng, Chunwei; Mintzer, Esther; Zhao, Yan G.; Ponnienselvan, Karthikeyan; Mir, Aamir; Sontheimer, Erik J.; Gao, Guangping; Flotte, Terence R.; Wolfe, Scot A. (2021-04-09). "Improved prime editors enable pathogenic allele correction and cancer modelling in adult mice". Nature Communications. 12 (1): 2121. Bibcode:2021NatCo..12.2121L. doi:10.1038/s41467-021-22295-w. ISSN 2041-1723. PMC 8035190. PMID 33837189.
  3. ^ Böck, Desirée; Rothgangl, Tanja; Villiger, Lukas; Schmidheini, Lukas; Mathis, Nicholas; Ioannidi, Eleonora; Kreutzer, Susanne; Kontarakis, Zacharias; Rimann, Nicole; Grisch-Chan, Hiu Man; Thöny, Beat (2021-08-17), Treatment of a metabolic liver disease by in vivo prime editing in mice, pp. 2021.08.17.456632, doi:10.1101/2021.08.17.456632, S2CID 237218057
  4. ^ Jang, Hyewon; Jo, Dong Hyun; Cho, Chang Sik; Shin, Jeong Hong; Seo, Jung Hwa; Yu, Goosang; Gopalappa, Ramu; Kim, Daesik; Cho, Sung-Rae; Kim, Jeong Hun; Kim, Hyongbum Henry (2021-08-26). "Application of prime editing to the correction of mutations and phenotypes in adult mice with liver and eye diseases". Nature Biomedical Engineering. 6 (2): 181–194. doi:10.1038/s41551-021-00788-9. ISSN 2157-846X. PMID 34446856. S2CID 237321703.
  5. ^ Biswas, Sudip; Bridgeland, Aya; Irum, Samra; Thomson, Michael J.; Septiningsih, Endang M. (29 August 2022). "Optimization of Prime Editing in Rice, Peanut, Chickpea, and Cowpea Protoplasts by Restoration of GFP Activity". International Journal of Molecular Sciences. 23 (17): 9809. doi:10.3390/ijms23179809. PMC 9456013. PMID 36077206.