基因组编辑
清脆的
生物
计算生物学
基因组
Cas9
反式激活crRNA
核酸外切酶
转基因
计算机科学
转录激活物样效应核酸酶
遗传学
突变
突变
生物技术
多路复用
转基因作物
作者
Dating Zhong,Yanxiao Dong,Hong Pan,Yanan Fu,Yining Zhao,Shuting Ruan,Wencong Yu,Yiwen Wang,Qianlan Yin,Yanfei Zhang,Yisen Huang,Jiaqi Shen,Hongling Zhang,Yuxuan Wu,Jieting Xu,Yuming Lu
摘要
The CRISPR-Cas12 family nucleases, particularly the Cas12i subtypes, are considered promising alternatives to Cas9 for genome editing in plants. We previously developed a new Cas12i variant, CasY7, which has been successfully applied in clinical trials; its performance in plants remains to be investigated. Initial testing in stable transgenic maize and rice showed that the codon-optimized CasY7 (pCasY7e1) achieved average editing efficiencies of 58.7% and 62.3% across five target sites, respectively, outperforming the typical Cpf1 (pCpf1) control that targets the same sites. To further enhance activity, we fused T5 exonuclease to CasY7 (pCasY7e2), which shifted mutation profiles toward larger deletions, and subsequently integrated an MS2 aptamer into the crRNA scaffold (pCasY7e3). The optimized pCasY7e3 system increased editing efficiencies to 87.7% in maize and 82.9% in rice-approximately 2.7-fold higher than pCpf1. We further demonstrated multiplexed editing in maize, generating biallelic dwarf mutants, and validated functionality in hexaploid wheat with editing efficiencies up to 58.8%. Overall, our comprehensive validation across 942 transgenic plants confirmed robust editing in maize, rice, and wheat, establishing CasY7 as a high-efficiency addition to the CRISPR toolkit.
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