Mechanistic Characterization of De Novo Generation of Variable Number Tandem Repeats in Circular Plasmids during Site-Directed Mutagenesis and Optimization for Coding Gene Application

IF 3.2 3区 生物学 Q3 MATERIALS SCIENCE, BIOMATERIALS
Ziqi Hu, Guochao Lin, Mingzhu Zhang, Shengwen Piao, Jiankun Fan, Jichao Liu, Peng Liu, Songbin Fu, Wenjing Sun, Li Li, Xiaohong Qiu, Jinwei Zhang, Yu Yang, Chunshui Zhou
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Abstract

Site-directed mutagenesis for creating point mutations, sometimes, gives rise to plasmids carrying variable number tandem repeats (VNTRs) locally, which are arbitrarily regarded as polymerase chain reaction (PCR) related artifacts. Here, the alternative end-joining mechanism is reported rather than PCR artifacts accounts largely for that VNTRs formation and expansion. During generating a point mutation on GPLD1 gene, an unexpected formation of VNTRs employing the 31 bp mutagenesis primers is observed as the repeat unit in the pcDNA3.1-GPLD1 plasmid. The 31 bp VNTRs are formed in 24.75% of the resulting clones with copy number varied from 2 to 13. All repeat units are aligned with the same orientation as GPLD1 gene. 43.54% of the repeat junctions harbor nucleotide mutations while the rest don't. Their demonstrated short primers spanning the 3′ part of the mutagenesis primers are essential for initial creation of the 2-copy tandem repeats (TRs) in circular plasmids. The dimerization of mutagenesis primers by the alternative end-joining in a correct orientation is required for further expansion of the 2-copy TRs. Lastly, a half-double priming strategy is established, verified the findings and offered a simple method for VNTRs creation on coding genes in circular plasmids without junction mutations.

Abstract Image

在定点突变过程中从新生成环状质粒中可变数目串联重复序列的机制特征及编码基因应用优化。
为产生点突变而进行的定点突变有时会导致质粒局部携带可变数目串联重复序列(VNTR),这被武断地视为与聚合酶链式反应(PCR)有关的人工制品。这里报告的是另一种末端连接机制,而不是 PCR 伪影在很大程度上导致了 VNTR 的形成和扩展。在生成 GPLD1 基因点突变的过程中,使用 31 bp 诱变引物作为 pcDNA3.1-GPLD1 质粒中的重复单元,意外地观察到了 VNTRs 的形成。在 24.75% 的克隆中形成了 31 bp VNTR,其拷贝数从 2 个到 13 个不等。所有重复单元都与 GPLD1 基因的方向一致。43.54%的重复连接点存在核苷酸突变,其余的则没有。他们证明,诱变引物 3' 部分的短引物对于环状质粒中 2 个拷贝串联重复序列(TR)的初始创建至关重要。诱变引物在正确方向上的另类末端连接二聚化是进一步扩增双拷贝 TRs 所必需的。最后,建立了一种半双引物策略,验证了研究结果,并为在环状质粒编码基因上创建无连接突变的 VNTR 提供了一种简单的方法。
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来源期刊
Advanced biology
Advanced biology Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
6.60
自引率
0.00%
发文量
130
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