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Click editing enables programmable genome writing using DNA polymerases and HUH endonucleases.点击编辑可使用DNA聚合酶和HUH核酸内切酶实现可编程基因组书写。
Nat Biotechnol. 2024 Jul 22. doi: 10.1038/s41587-024-02324-x.
2
Rapid and dynamic detection of endogenous proteins through in locus tagging in rice.通过在水稻中基因定位标记实现内源性蛋白质的快速和动态检测。
Plant Commun. 2024 Nov 11;5(11):101040. doi: 10.1016/j.xplc.2024.101040. Epub 2024 Jul 20.
3
An improved plant prime editor for efficient generation of multiple-nucleotide variations and structural variations in rice.一种改良的植物碱基编辑器,用于在水稻中高效产生多核苷酸变异和结构变异。
Plant Commun. 2024 Sep 9;5(9):100976. doi: 10.1016/j.xplc.2024.100976. Epub 2024 May 14.
4
Prime editing using CRISPR-Cas12a and circular RNAs in human cells.在人类细胞中使用CRISPR-Cas12a和环状RNA进行碱基编辑。
Nat Biotechnol. 2024 Dec;42(12):1867-1875. doi: 10.1038/s41587-023-02095-x. Epub 2024 Jan 10.
5
Genome editing of a dominant resistance gene for broad-spectrum resistance to bacterial diseases in rice without growth penalty.对水稻中一种对细菌性疾病具有广谱抗性的显性抗性基因进行基因组编辑,且不影响生长。
Plant Biotechnol J. 2024 Mar;22(3):529-531. doi: 10.1111/pbi.14233. Epub 2023 Nov 23.
6
Generating herbicide resistant and dwarf rice germplasms through precise sequence insertion or replacement.通过精确的序列插入或替换来培育抗除草剂和矮化水稻种质。
Plant Biotechnol J. 2024 Feb;22(2):293-295. doi: 10.1111/pbi.14225. Epub 2023 Nov 22.
7
Targeted genome editing with a DNA-dependent DNA polymerase and exogenous DNA-containing templates.利用依赖 DNA 的 DNA 聚合酶和含有外源 DNA 的模板进行靶向基因组编辑。
Nat Biotechnol. 2024 Jul;42(7):1039-1045. doi: 10.1038/s41587-023-01947-w. Epub 2023 Sep 14.
8
Phage-assisted evolution and protein engineering yield compact, efficient prime editors.噬菌体辅助进化和蛋白质工程产生了紧凑、高效的 Prime 编辑器。
Cell. 2023 Aug 31;186(18):3983-4002.e26. doi: 10.1016/j.cell.2023.07.039.
9
Efficient and versatile multiplex prime editing in hexaploid wheat.六倍体小麦中高效且多功能的多重 Prime 编辑。
Genome Biol. 2023 Jun 29;24(1):156. doi: 10.1186/s13059-023-02990-1.
10
Template-jumping prime editing enables large insertion and exon rewriting in vivo.模板跳跃式 Prime 编辑可在体内实现大片段插入和外显子重写。
Nat Commun. 2023 Jun 8;14(1):3369. doi: 10.1038/s41467-023-39137-6.

通过核酸酶介导的碱基编辑对水稻基因进行高效原位表位标记

Efficient in situ epitope tagging of rice genes by nuclease-mediated prime editing.

作者信息

Li Xueqi, Zhang Sujie, Wang Chenyang, Ren Bin, Yan Fang, Li Shaofang, Spetz Carl, Huang Jinguang, Zhou Xueping, Zhou Huanbin

机构信息

State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193, China.

Ministry of Agriculture and Rural Affairs Key Laboratory of Gene Editing Technologies (Hainan), National Nanfan Research Institute, Chinese Academy of Agricultural Sciences, Sanya 572024, China.

出版信息

Plant Cell. 2025 Feb 13;37(2). doi: 10.1093/plcell/koae316.

DOI:10.1093/plcell/koae316
PMID:39657918
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11823825/
Abstract

In situ epitope tagging is crucial for probing gene expression, protein localization, and the dynamics of protein interactions within their natural cellular context. However, the practical application of this technique in plants presents considerable hurdles. Here, we comprehensively explored the potential of the CRISPR/Cas nuclease-mediated prime editing and different DNA repair pathways in epitope tagging of endogenous rice (Oryza sativa) genes. We found that a SpCas9 nuclease/microhomology-mediated end joining (MMEJ)-based prime editing (PE) strategy (termed NM-PE) facilitates more straightforward and efficient gene tagging compared to the conventional and other derivative PE methods. Furthermore, the PAM-flexible SpRY and ScCas9 nucleases-based prime editors have been engineered and implemented for the tagging of endogenous genes with diverse epitopes, significantly broadening the applicability of NM-PE in rice. Moreover, NM-PE has been successfully adopted in simultaneous tagging of the MAP kinase (MPK) genes OsMPK1 and OsMPK13 in rice plants with c-Myc and HA tags, respectively. Taken together, our results indicate great potential of the NM-PE toolkit in the targeted gene tagging for Rice Protein Tagging Project, gene function study and genetic improvement.

摘要

原位表位标签对于在天然细胞环境中探究基因表达、蛋白质定位及蛋白质相互作用的动力学至关重要。然而,该技术在植物中的实际应用存在相当大的障碍。在此,我们全面探究了CRISPR/Cas核酸酶介导的碱基编辑及不同DNA修复途径在水稻(Oryza sativa)内源基因表位标签中的潜力。我们发现,与传统及其他衍生碱基编辑方法相比,基于SpCas9核酸酶/微同源性介导的末端连接(MMEJ)的碱基编辑(PE)策略(称为NM-PE)能更直接有效地进行基因标签。此外,已构建并应用基于PAM灵活的SpRY和ScCas9核酸酶的碱基编辑器,用于用多种表位标记内源基因,显著拓宽了NM-PE在水稻中的适用性。此外,NM-PE已成功应用于在水稻植株中分别用c-Myc和HA标签同时标记促分裂原活化蛋白激酶(MPK)基因OsMPK1和OsMPK13。综上所述,我们的结果表明NM-PE工具包在水稻蛋白质标签计划的靶向基因标签、基因功能研究及遗传改良方面具有巨大潜力。