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Enhancing the efficiency of nuclease-based prime editing in rice with the Tf1 reverse transcriptase

aBIOTECH. 2026-02; 
Guigen Ma, Hao Xu, Sujie Zhang, Xueqi Li, Jiaqiang Liu, Jiayue Xie, Fang Yan, Huanbin Zhou
Products/Services Used Details Operation
Molecular Biology Tools Given that codon optimization is crucial for efficient protein translation, and that previous studies have shown that codon usage influences CRISPR/Cas-mediated editing efficiency [6], we attempted to improve PE performance by generating two evoTf1M4 variants: one using codon optimization for rice, and one with codon optimization for maize (Zea mays), both based on the online tool by GenScript. Get A Quote

摘要

The development of efficient and precise genome-editing tools is crucial for advancing functional genomics and improving crops. Our previously established nuclease-mediated prime editing (NM-PE) system, which combines the SpCas9 nuclease with prime editing based on microhomology-mediated end joining, enables the seamless insertion of small DNA fragments into plant genomes to add tags to genes of interest. However, the efficiency of 3 × FLAG sequence insertion via NM-PE requires further improvement. Here, we report a significant optimization of this system by replacing the M-MLV reverse transcriptase (RT) with evolved variants of the retrotransposon RT Tf1 derived from the mammalian PE6 system. Through codon op... More

关键词

CRISPR/Cas; Epitope tagging; Prime editing; Rice; Tf1 reverse transcriptase.