基于HH理论的SpCas9高特异性高效变异的开发

IF 1.5 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Biology Pub Date : 2023-11-22 DOI:10.1134/s0026893324010187

G. H. Wang, C. M. Wang, X. J. Wu, T. Chu, D. W. Huang, J. Li

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引用次数: 0

摘要

摘要化脓性链球菌Cas9 (SpCas9)是目前最流行的基因编辑工具;然而，脱靶诱变是其应用的最大障碍之一。在我们之前的研究中，我们提出了HH理论，该理论认为sgRNA/DNA杂交种(hybrid)挤压诱导的杂交种与REC3/HNH之间疏水相互作用的增强是劈裂起始的关键因素。基于HH理论，我们分析了REC3结构域与杂交体之间的相互作用，获得了8个突变位点。我们设计了8个SpCas9变体(V1-V8)，使用数字液滴PCR技术评估SpCas9诱导的人类细胞DNA序列，并开发了高保真的变体。因此，HH理论可用于进一步优化SpCas9介导的基因组编辑系统，由此产生的V3、V6、V7和V8 SpCas9变体可能对需要高精度基因组编辑的应用有价值。

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The Development of SpCas9 Variants with High Specificity and Efficiency Based on the HH Theory

Abstract

Streptococcus pyogenes Cas9 (SpCas9) is the most popular tool in gene editing; however, off-target mutagenesis is one of the biggest impediments in its application. In our previous study, we proposed the HH theory, which states that sgRNA/DNA hybrid (hybrid) extrusion-induced enhancement of hydrophobic interactions between the hybrid and REC3/HNH is a key factor in cleavage initiation. Based on the HH theory, we analyzed the interactions between the REC3 domain and hybrid and obtained 8 mutant sites. We designed 8 SpCas9 variants (V1–V8), used digital droplet PCR to assess SpCas9-induced DNA indels in human cells, and developed high-fidelity variants. Thus, the HH theory may be employed to further optimize SpCas9-mediated genome editing systems, and the resultant V3, V6, V7, and V8 SpCas9 variants may be valuable for applications requiring high-precision genome editing.

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来源期刊

Molecular Biology 生物-生化与分子生物学

CiteScore

1.30

自引率

8.30%

发文量

审稿时长

3 months

期刊介绍： Molecular Biology is an international peer reviewed journal that covers a wide scope of problems in molecular, cell and computational biology including genomics, proteomics, bioinformatics, molecular virology and immunology, molecular development biology, molecular evolution and related areals. Molecular Biology publishes reviews, experimental and theoretical works. Every year, the journal publishes special issues devoted to most rapidly developing branches of physical-chemical biology and to the most outstanding scientists.