Bao-Xia Ma, Sen Yang, Ming Lyu, Yu-Ren Wang, Li-Ye Chang, Yi-Fan Han, Jian-Gang Wang, Yang Guo, Kun Xu
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In this study, we used them to knock-in <i>eGFP</i> gene at the 3'-end of the terminal exon of <i>GAPDH</i> and <i>ACTB</i> genes in HEK293T cells to facilitate a comparison and optimization of these systems. We utilized an optimized donor DNA template design method, validated the knock-in accuracy via PCR and Sanger sequencing, and assessed the efficiency using flow cytometry. The results showed that the fusion of yGal4BD, hGal4BD, hLacI, hTHAP11 as well as N57 and other adaptor proteins with the C-terminus of SpCas9 protein had no significant effect on its activity. At the <i>GAPDH</i> site, the donor adapter systems of SpCas9 fused with yGal4BD, hGal4BD, hLacI and hTHAP11 significantly improved the knock-in efficiency. At the <i>ACTB</i> site, SpCas9 fused with yGal4BD and hGal4BD significantly improved the knock-in efficiency. Furthermore, increasing the number of BS in the donor DNA template was beneficial to enhance the knock-in efficiency mediated by SpCas9-hTHAP11 system. In conclusion, this study compares and optimizes multiple CRISPR/Cas9 donor adapter gene editing systems, providing valuable insights for future gene editing applications.</p>","PeriodicalId":35536,"journal":{"name":"遗传","volume":"46 6","pages":"466-477"},"PeriodicalIF":0.0000,"publicationDate":"2024-06-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Comparison and optimization of different CRISPR/Cas9 donor-adapting systems for gene editing.\",\"authors\":\"Bao-Xia Ma, Sen Yang, Ming Lyu, Yu-Ren Wang, Li-Ye Chang, Yi-Fan Han, Jian-Gang Wang, Yang Guo, Kun Xu\",\"doi\":\"10.16288/j.yczz.23-273\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Gene knock-in in mammalian cells usually uses homology-directed repair (HDR) mechanism to integrate exogenous DNA template into the target genome site. 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引用次数: 0
摘要
哺乳动物细胞中的基因敲入通常使用同源定向修复(HDR)机制将外源 DNA 模板整合到目标基因组位点。然而,HDR 的效率通常较低,外源 DNA 模板与目标基因组位点的共定位是限制因素之一。为了提高CRISPR/Cas9系统介导的HDR效率,我们团队和以往的研究将不同的适配蛋白与SpCas9蛋白融合并表达。利用它们与特定 DNA 序列结合的特性,我们构建了许多不同的 CRISPR/SpCas9 供体适配体基因编辑系统。在本研究中,我们利用它们在 HEK293T 细胞中 GAPDH 和 ACTB 基因末端外显子的 3'-end 处敲入 eGFP 基因,以便对这些系统进行比较和优化。我们利用优化的供体 DNA 模板设计方法,通过 PCR 和 Sanger 测序验证了敲入的准确性,并利用流式细胞仪评估了效率。结果表明,将 yGal4BD、hGal4BD、hLacI、hTHAP11 以及 N57 和其他适配蛋白与 SpCas9 蛋白的 C 端融合对其活性没有显著影响。在 GAPDH 位点,SpCas9 的供体适配系统与 yGal4BD、hGal4BD、hLacI 和 hTHAP11 融合后,敲入效率明显提高。在 ACTB 位点,SpCas9 与 yGal4BD 和 hGal4BD 融合可明显提高基因敲入效率。此外,增加供体 DNA 模板中的 BS 数量有利于提高 SpCas9-hTHAP11 系统介导的基因敲入效率。总之,本研究比较并优化了多种CRISPR/Cas9供体适配器基因编辑系统,为未来的基因编辑应用提供了有价值的见解。
Comparison and optimization of different CRISPR/Cas9 donor-adapting systems for gene editing.
Gene knock-in in mammalian cells usually uses homology-directed repair (HDR) mechanism to integrate exogenous DNA template into the target genome site. However, HDR efficiency is often low, and the co-localization of exogenous DNA template and target genome site is one of the key limiting factors. To improve the efficiency of HDR mediated by CRISPR/Cas9 system, our team and previous studies fused different adaptor proteins with SpCas9 protein and expressed them. By using their characteristics of binding to specific DNA sequences, many different CRISPR/SpCas9 donor adapter gene editing systems were constructed. In this study, we used them to knock-in eGFP gene at the 3'-end of the terminal exon of GAPDH and ACTB genes in HEK293T cells to facilitate a comparison and optimization of these systems. We utilized an optimized donor DNA template design method, validated the knock-in accuracy via PCR and Sanger sequencing, and assessed the efficiency using flow cytometry. The results showed that the fusion of yGal4BD, hGal4BD, hLacI, hTHAP11 as well as N57 and other adaptor proteins with the C-terminus of SpCas9 protein had no significant effect on its activity. At the GAPDH site, the donor adapter systems of SpCas9 fused with yGal4BD, hGal4BD, hLacI and hTHAP11 significantly improved the knock-in efficiency. At the ACTB site, SpCas9 fused with yGal4BD and hGal4BD significantly improved the knock-in efficiency. Furthermore, increasing the number of BS in the donor DNA template was beneficial to enhance the knock-in efficiency mediated by SpCas9-hTHAP11 system. In conclusion, this study compares and optimizes multiple CRISPR/Cas9 donor adapter gene editing systems, providing valuable insights for future gene editing applications.