An engineered Cas12i nuclease that is an efficient genome editing tool in animals and plants

Zhiqiang Duan; Yafeng Liang; Jialei Sun; Hongjin Zheng; Tong Lin; Pengyu Luo; Mengge Wang; Ruiheng Liu; Ying Chen; Shuhua Guo; Nannan Jia; Hongtao Xie; Meili Zhou; Minghui Xia; Kaijun Zhao; Shuhui Wang; Na Liu; Yongling Jia; Wei Si; Qitong Chen; Yechun Hong; Ruilin Tian; Jian-Kang Zhu

doi:10.1016/j.xinn.2024.100564

An engineered Cas12i nuclease that is an efficient genome editing tool in animals and plants

Innovation (Camb). 2024 Jan 8;5(2):100564. doi: 10.1016/j.xinn.2024.100564. eCollection 2024 Mar 4.

Authors

Zhiqiang Duan^{1

2}, Yafeng Liang^{1

2}, Jialei Sun¹, Hongjin Zheng¹, Tong Lin¹, Pengyu Luo¹, Mengge Wang¹, Ruiheng Liu², Ying Chen², Shuhua Guo², Nannan Jia², Hongtao Xie², Meili Zhou², Minghui Xia², Kaijun Zhao², Shuhui Wang², Na Liu², Yongling Jia², Wei Si², Qitong Chen¹, Yechun Hong¹, Ruilin Tian³, Jian-Kang Zhu¹

Affiliations

¹ Institute of Advanced Biotechnology and School of Medicine, Southern University of Science and Technology, Shenzhen 518055, China.
² Bellagen Biotechnology, Jinan 250000, China.
³ Department of Medical Neuroscience, School of Medicine, Key University Laboratory of Metabolism and Health of Guangdong, Southern University of Science and Technology, Shenzhen, Guangdong Province 518055, China.

Abstract

The type V-I CRISPR-Cas system is becoming increasingly more attractive for genome editing. However, natural nucleases of this system often exhibit low efficiency, limiting their application. Here, we used structure-guided rational design and protein engineering to optimize an uncharacterized Cas12i nuclease, Cas12i3. As a result, we developed Cas-SF01, a Cas12i3 variant that exhibits significantly improved gene editing activity in mammalian cells. Cas-SF01 shows comparable or superior editing performance compared to SpCas9 and other Cas12 nucleases. Compared to natural Cas12i3, Cas-SF01 has an expanded PAM range and effectively recognizes NTTN and noncanonical NATN and TTVN PAMs. In addition, we identified an amino acid substitution, D876R, that markedly reduced the off-target effect while maintaining high on-target activity, leading to the development of Cas-SF01^HiFi (high-fidelity Cas-SF01). Finally, we show that Cas-SF01 has high gene editing activities in mice and plants. Our results suggest that Cas-SF01 can serve as a robust gene editing platform with high efficiency and specificity for genome editing applications in various organisms.