基因组编辑
清脆的
计算生物学
HEK 293细胞
基因组工程
基因组
生物
DNA
工具箱
Cas9
计算机科学
人类基因组
遗传学
蛋白质工程
转录激活物样效应核酸酶
碱基对
基因
基础(拓扑)
基因组
作者
Gundra Sivakrishna Rao,Wenjun Jiang,Mustapha Aouida,Qiaochu Wang,Ahmed M. Kazlak,Ali H. A. Elbehery,Ahmed A. Saleh,Muhammad Ali Masood,Ahmed Ghouneimy,Magdy M. Mahfouz
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2025-09-16
标识
DOI:10.1101/2025.09.16.676532
摘要
Abstract The large size of CRISPR-Cas enzymes limits their delivery for therapeutic applications. Cas12j nucleases offers hypercompact alternative but show moderate editing efficiency. To overcome this limitation, we identified eight novel Cas12j orthologues (Cas12j-11 to Cas12j-18) from viral metagenomes. All showed low editing activity in mammalian cells. We engineered T5 exonuclease-Cas12j fusions (T5Exo-Cas12j), two of which, T5Exo-Cas12j-12, and -18 exhibited up to 42% editing in HEK293T and 9% in K-562 cells, outperforming wild-type Cas12j counterparts and comparable to LbCas12a. Intriguingly, robust in cellula editing in both HEK293T and K-562 cells was strictly dependent on the presence of 5′-TAC trinucleotides within the target DNA sequence. Furthermore, we fused the Cas12j orthologues with the TadA8e deaminase and developed base editors, termed Be-(d)Cas12j. Among these, Be-(d)Cas12j-13 demonstrated efficient A-to-G base conversion in mammalian cells. This study expands the CRISPR toolbox by characterizing and engineering novel Cas12j orthologues into compact, high-efficiency genome editors.
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