[碱基编辑和引导编辑的当前知识]

[Current Knowledge of Base Editing and Prime Editing].

作者信息

Averina O A, Kuznetsova S A, Permyakov O A, Sergiev P V

机构信息

Institute of Functional Genomics, Moscow State University, Moscow, 119991 Russia.

Belozersky Institute of Physico-Chemical Biology, Moscow State University, Moscow, 119991 Russia.

出版信息

Mol Biol (Mosk). 2024 Jul-Aug;58(4):508-524.

PMID:39709559

Abstract

Modern genetic engineering technologies, such as base editing and prime editing (PE), have proven to provide the efficient and reliable genome editing tools that obviate the need for donor templates and double-strand breaks (DSBs) introduced in DNA. Relatively new, they quickly gained recognition for their accuracy, simplicity, and multiplexing capabilities. The review summarizes the new literature on the technologies and considers their architecture, methods to create editors, specificity, efficiency, and versatility. Advantages and disadvantages of the editors are discussed along with their prospective use in basic and applied research. The review may be useful for planning genome editing studies and analyzing their results to solve various problems of fundamental biology, biotechnology, medicine, and agriculture.

摘要

现代基因工程技术，如碱基编辑和引导编辑（PE），已被证明能提供高效且可靠的基因组编辑工具，无需供体模板以及DNA中引入的双链断裂（DSB）。这些技术相对较新，因其准确性、简易性和多重编辑能力迅速获得认可。本综述总结了关于这些技术的新文献，并探讨了它们的结构、构建编辑器的方法、特异性、效率和通用性。文中讨论了这些编辑器的优缺点及其在基础研究和应用研究中的潜在用途。本综述可能有助于规划基因组编辑研究并分析其结果，以解决基础生物学、生物技术、医学和农业等领域的各种问题。

相似文献

[Current Knowledge of Base Editing and Prime Editing].[碱基编辑和引导编辑的当前知识]

Mol Biol (Mosk). 2024 Jul-Aug;58(4):508-524.

DNA base editing in nuclear and organellar genomes.DNA 碱基编辑在核基因组和细胞器基因组中的应用。

Trends Genet. 2022 Nov;38(11):1147-1169. doi: 10.1016/j.tig.2022.06.015. Epub 2022 Jul 16.

Bidirectional Prime Editing: Combining Precision with Versatility for Genome Editing.双向碱基编辑：将精准性与多功能性相结合用于基因组编辑。

Cell Reprogram. 2025 Feb;27(1):10-23. doi: 10.1089/cell.2024.0075. Epub 2024 Dec 17.

[CRISPR/Cas-mediated DNA base editing technology and its application in biomedicine and agriculture].[CRISPR/Cas介导的DNA碱基编辑技术及其在生物医学和农业中的应用]

Sheng Wu Gong Cheng Xue Bao. 2021 Sep 25;37(9):3071-3087. doi: 10.13345/j.cjb.200693.

Genome editing with CRISPR-Cas nucleases, base editors, transposases and prime editors.利用 CRISPR-Cas 核酸酶、碱基编辑器、转座酶和 Prime 编辑器进行基因组编辑。

Nat Biotechnol. 2020 Jul;38(7):824-844. doi: 10.1038/s41587-020-0561-9. Epub 2020 Jun 22.

Improvement of base editors and prime editors advances precision genome engineering in plants.碱基编辑器和先导编辑器的改进推动了植物的精确基因组工程。

Plant Physiol. 2022 Mar 28;188(4):1795-1810. doi: 10.1093/plphys/kiab591.

Targeted Nucleotide Editing Technologies for Microbial Metabolic Engineering.靶向核苷酸编辑技术在微生物代谢工程中的应用。

Biotechnol J. 2018 Sep;13(9):e1700596. doi: 10.1002/biot.201700596. Epub 2018 Jun 19.

In vivo somatic cell base editing and prime editing.体内体细胞碱基编辑和先导编辑。

Mol Ther. 2021 Nov 3;29(11):3107-3124. doi: 10.1016/j.ymthe.2021.09.002. Epub 2021 Sep 10.

CRISPR base editors: genome editing without double-stranded breaks.CRISPR 碱基编辑器：无需双链断裂的基因组编辑。

Biochem J. 2018 Jun 11;475(11):1955-1964. doi: 10.1042/BCJ20170793.

Prime editing for precise and highly versatile genome manipulation.碱基编辑技术实现精准且多功能的基因组编辑。

Nat Rev Genet. 2023 Mar;24(3):161-177. doi: 10.1038/s41576-022-00541-1. Epub 2022 Nov 7.

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Beyond Cutting: CRISPR-Driven Synthetic Biology Toolkit for Next-Generation Microalgal Metabolic Engineering.超越切割：用于下一代微藻代谢工程的CRISPR驱动合成生物学工具包

Int J Mol Sci. 2025 Aug 2;26(15):7470. doi: 10.3390/ijms26157470.

Beyond the lab: future-proofing agriculture for climate resilience and stress management.实验室之外：为农业应对气候变化和压力管理做好未来准备。

Front Plant Sci. 2025 Jun 13;16:1565850. doi: 10.3389/fpls.2025.1565850. eCollection 2025.

Systematic high-throughput evaluation reveals FrCas9's superior specificity and efficiency for therapeutic genome editing.系统的高通量评估揭示了FrCas9在治疗性基因组编辑方面具有卓越的特异性和效率。

Sci Adv. 2025 Mar 28;11(13):eadu7334. doi: 10.1126/sciadv.adu7334. Epub 2025 Mar 26.

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[碱基编辑和引导编辑的当前知识]

[Current Knowledge of Base Editing and Prime Editing].

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