供体同源臂长度对ZFN介导的同源重组效率的影响

聂宇; 乔艳乐; 陈瑶生; 何祖勇

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供体同源臂长度对ZFN介导的同源重组效率的影响

论文 | 更新时间：2023-12-11

- 供体同源臂长度对ZFN介导的同源重组效率的影响
- The effect of the length of donor homologous arm on the efficiency of ZFN-induced homologous recombination
- 中山大学学报(自然科学版)(中英文) 2016年55卷第4期页码：100-107
- 作者机构：
  
  中山大学生命科学学院∥有害生物控制与资源利用国家重点实验室,广东,广州,510006
- 作者简介：
- 基金信息：
- DOI：
  中图分类号：
- 纸质出版日期：2016，
  
  网络出版日期：2016-7-25，
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聂宇, 乔艳乐, 陈瑶生, 等. 供体同源臂长度对ZFN介导的同源重组效率的影响[J]. 中山大学学报(自然科学版)(中英文), 2016,55(4):100-107.

NIE Yu, QIAO Yanle, CHEN Yaosheng, et al. The effect of the length of donor homologous arm on the efficiency of ZFN-induced homologous recombination[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2016,55(4):100-107.
聂宇, 乔艳乐, 陈瑶生, 等. 供体同源臂长度对ZFN介导的同源重组效率的影响[J]. 中山大学学报(自然科学版)(中英文), 2016,55(4):100-107. DOI：

NIE Yu, QIAO Yanle, CHEN Yaosheng, et al. The effect of the length of donor homologous arm on the efficiency of ZFN-induced homologous recombination[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2016,55(4):100-107. DOI：

摘要

应用锌指核酸酶（Zinc Finger Nuclease，ZFN）和序列同源的供体（Donor）作为模板，借助DNA的同源重组修复机制能够对动物基因组实现精确的遗传修饰。目前关于供体长度与ZFN介导的同源重组修复效率相关性的报道相对较少。本研究构建了一对靶向EGFP的ZFN并鉴定了活性，同时设计了一系列不同长度的供体，应用流式细胞分析术，在稳定整合了带有移码突变的EGFP基因的CHO细胞中系统分析了供体长度对ZFN介导的同源重组修复效率的影响。结果发现当同源臂单臂仅有50 bp时，即可有效支持ZFN介导的同源同组，随着同源臂长度的延伸，同源重组的效率有所提高，但要实现高效率的同源重组（较传统方法提高10

倍），同源臂单臂长度需要延长至1 000 bp以上。这为今后如何设计合适的Donor，以提高ZFN等基因组编辑工具介导的同源重组效率提供了借鉴。

Abstract

Zinc finger nuclease (ZFN) is composed of an engineered site-specific Cys

-His

zinc finger domain and the nonspecific restriction enzyme Fok I cleavage domain

which is able to cut at a specified genomic locus to generate double-strand break (DSB) of DNA. The DSBs induced by ZFN are subsequently repaired through two different DNA repair mechanisms

either non-homologous endjoining (NHEJ) or homology-directed recombination (HDR). NHEJ is prone to introduce sequence insertions or deletions (indels)

and can therefore produce frameshifts in open reading frames and gene loss of function. HDR requires a donor template with the sequence similar to the genome to mend a lesion. By introducing a DNA donor with desired modifications

precise genomic modifications can be achieved at a frequency improved 10

-10

fold as compared to the traditional gene targeting method. Currently

most studies have focused on screening ZFN with higher activity

and improving the delivery efficiency of ZFN and donor into host cells

less studies have investigated the relationship between the homologous arm length with the efficiency of ZFN induced homologous recombination. Here

we constructed a pair of ZFN plasmids targeting to EGFP and verified its cutting activity. Then we designed a series of donors with different lengths of homologous arms. By introducing individual donor with ZFN into CHO cells harboring a frame-shift GFP gene

we measured the homologous recombination efficiencies through the flow cytometric analysis. We found that a 50 bp short homology arm was capable to support ZFN-mediated homologous recombination. Increasing the length of the homologous arms could improve the efficiency of ZFNmediated homologous recombination. A dramatic improvement (10

fold higher than traditional method) requires a homology arm longer than 1 000 bp.

关键词

锌指核酸酶DNA双链断裂同源重组供体同源臂

Keywords

zinc finger nucleasedouble-strand breakhomologous recombinationdonorhomologous arm

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