引导编辑能够对杂种进行精确的基因组修饰。

Prime editing enables precise genome modification of a hybrid.

作者信息

Zou Jinpeng, Li Yuhong, Wang Kejian, Wang Chun, Zhuo Renying

机构信息

State Key Laboratory of Tree Genetics and Breeding, Key Laboratory of Tree Breeding of Zhejiang Province, Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, 311400 China.

State Key Laboratory of Rice Biology and Breeding, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou, 310006 China.

出版信息

aBIOTECH. 2024 Sep 6;5(4):497-501. doi: 10.1007/s42994-024-00177-1. eCollection 2024 Dec.

DOI:10.1007/s42994-024-00177-1

PMID:39650138

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11624180/

Abstract

UNLABELLED

CRISPR/Cas-based genome editing has been extensively employed in the breeding and genetic improvement of trees, yet precise editing remains challenging in these species. Prime editing (PE), a revolutionary technology for precise editing, allows for arbitrary base substitutions and the insertion/deletion of small fragments. In this study, we focused on the model tree poplar 84K ( × ). We used the × promoter to express a fusion protein of spCas9 nickase (nCas9) and engineered Moloney murine leukemia virus (MMLV), and the promoter to express an engineered PE guide RNA (epegRNA) and Nick gRNA, pioneering the establishment of the Prime Editor 3 (PE3) system in dicot poplar. Single-base substitutions, multiple-base substitutions, and small-fragment insertions/deletions were edited into three endogenous target genes. The desired edits were identified in hygromycin-resistant (transformed) calli at seven out of nine target sites, with an average editing efficiency ranging from 0.1 to 3.6%. Furthermore, stable T plants contained the desired edits at four out of nine targets, with editing efficiencies ranging from 3.6 to 22.2%. Establishment of the PE3 system provides a powerful tool for the precise modification of the poplar genome.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s42994-024-00177-1.

摘要

未标记

基于CRISPR/Cas的基因组编辑已广泛应用于树木的育种和遗传改良，但在这些物种中进行精确编辑仍然具有挑战性。碱基编辑（PE）是一种用于精确编辑的革命性技术，可实现任意碱基替换和小片段插入/缺失。在本研究中，我们聚焦于模式树种毛果杨84K（×）。我们使用×启动子表达化脓性链球菌切口酶（nCas9）与工程化莫洛尼氏鼠白血病病毒（MMLV）的融合蛋白，并使用启动子表达工程化碱基编辑引导RNA（epegRNA）和切口gRNA，率先在双子叶植物毛果杨中建立了碱基编辑器3（PE3）系统。单碱基替换、多碱基替换以及小片段插入/缺失被编辑到三个内源性靶基因中。在九个靶位点中的七个位点，在潮霉素抗性（转化）愈伤组织中鉴定到了所需编辑，平均编辑效率为0.1%至3.6%。此外，稳定的T代植株在九个靶位点中的四个位点包含所需编辑，编辑效率为3.6%至22.2%。PE3系统的建立为毛果杨基因组的精确修饰提供了一个强大工具。

补充信息

在线版本包含可在10.1007/s42994-024-00177-1获取的补充材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4a01/11624180/0e05de1445ec/42994_2024_177_Fig1_HTML.jpg

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引导编辑能够对杂种进行精确的基因组修饰。

Prime editing enables precise genome modification of a hybrid.

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