Author:
Kim Chan Hyoung,Lee Wi-jae,Oh Yeounsun,Lee Youngjeon,Lee Hyomin K.,Seong Jung Bae,Lim Kyung-Seob,Park Sang Je,Huh Jae-Won,Kim Young-Hyun,Kim Kyoung Mi,Hur Junho K.,Lee Seung Hwan
Abstract
AbstractThe CRISPR-Cas nickase system for genome editing has attracted considerable attention owing to its safety, efficiency, and versatility. Although alternative effectors to Cas9 have the potential to expand the scope of genome editing, their application has not been optimized. Herein, we used an enhanced CRISPR-Cas12a nickase system to induce mutations by targeting genes in a human-derived cell line. The optimized CRISPR-Cas12a nickase system effectively introduced mutations into target genes under a specific directionality and distance between nickases. In particular, the single-mode Cas12a nickase system can induce the target-specific mutations with less DNA double-strand breaks. By inducing mutations in the Thymine-rich target genes in single- or dual-mode, Cas12a nickase compensates the limitations of Cas9 nickase and is expected to contribute to the development of future genome editing technologies.
Funder
the Korea Research Institute of Bioscience and Biotechnology
Korean Ministry of Education, Science and Technology
the Korean Fund for Regenerative Medicine (KFRM) grant funded by the Korea government (the Ministry of Science and ICT, the Ministry of Health & Welfare).
Publisher
Springer Science and Business Media LLC