Genome editing techniques have potential to revolutionize the field of life sciences. Several limitations associated with traditional gene editing techniques have been resolved with the development of prime editors that precisely edit the DNA without double-strand breaks (DSBs). To further improve the efficiency, several modified versions of prime editing (PE) system have been introduced. Bi-directional PE (Bi-PE), for example, uses two PE guide RNAs enabling broad and improved editing efficiency. It has the potential to alter, delete, integrate, and replace larger genome sequences and edit multiple bases at the same time. This review aims to discuss the typical gene editing methods that offer DSB-mediated repair mechanisms, followed by the latest advances in genome editing technologies with non-DSB-mediated repair. The review specifically focuses on Bi-PE being an efficient tool to edit the human genome. In addition, the review discusses the applications, limitations, and future perspectives of Bi-PE for gene editing.
Keywords: CRISPR; TALENs; ZFNs; base editors; bidirectional prime editing; dual-prime editors; prime editing.