A Simple, Robust, and Cost-effective Method for Genotyping Small-scale Mutations.

Journal of clinical and translational pathology Pub Date : 2022-01-01 Epub Date: 2022-09-14 DOI:10.14218/JCTP.2022.00014

Liang Zheng, Jake Hill, Lucy Zheng, M A Karim Rumi, X Long Zheng

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Abstract

Background and objectives: Genotyping is an important tool for studying gene functions in animals or detecting genetic variants in humans. Various methods using low to high concentrations of agarose or polyacrylamide gel electrophoresis have been developed for genotyping. These methods rely on the detection of large-size differences (20-2,000 bp) of targeted PCR products between a wild-type gene and a mutant gene. Endonuclease digestion was introduced to identify heterozygous mutations, but it was not possible to differentiate the wild-type from the homozygous mutants with the same or similar size. This study thus developed a novel, simple, and reliable test for genotyping animals or cells following genetic modifications.

Methods: We developed an improved and simple method that used 2% agarose gel electrophoresis following T7E1 or Surveyor endonuclease digestion to firstly separate the heterozygous mutations from the wild-type or homozygous mutations. By adding a wild-type PCR product to a potentially homozygous product, which would form heteroduplexes, we could then separate the wild-type from a homozygous mutation with a nearly identical size or only a single base pair substitution without Sanger sequencing.

Results: We verified this method in genotyping zebrafish mutants with a 2-8-bp deletion or insertion and mouse mutants with a 1- or 8-bp substitution. The wild-type, heterozygous, and homozygous mutations ranged 1-8 bp were clearly differentiated on agarose gel. Sanger sequencing also confirmed our genotyping results.

Conclusions: This novel and improved genotyping method may have a broad application in many clinical and research laboratories for rapid and economical genotyping of patients and animals with a small area deletion or single base pair substitution, particularly in the era of gene editing or in those with naturally occurring mutations.

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一种简单、稳健、经济高效的小规模突变基因分型方法。

背景和目的：基因分型是研究动物基因功能或检测人类基因变异的重要工具。目前已开发出多种使用低至高浓度琼脂糖或聚丙烯酰胺凝胶电泳进行基因分型的方法。这些方法依赖于检测野生型基因和突变基因之间目标 PCR 产物的大尺寸差异（20-2,000 bp）。内切酶消化法可用于识别杂合突变，但无法区分野生型和具有相同或相似大小的同源突变体。因此，本研究开发了一种新颖、简单、可靠的检测方法，用于对基因修饰后的动物或细胞进行基因分型：我们开发了一种改进的简单方法，在 T7E1 或 Surveyor 内切酶消化后使用 2% 琼脂糖凝胶电泳，首先将杂合突变体与野生型或同源突变体分开。将野生型 PCR 产物加入到可能形成杂合双链的同源突变产物中，我们就可以将野生型与大小几乎相同或只有单碱基对替换的同源突变分离开来，而无需进行桑格测序：我们在对斑马鱼基因缺失或插入2-8-bp的突变体以及小鼠基因替换1-或8-bp的突变体进行基因分型时验证了这种方法。在琼脂糖凝胶上，野生型、杂合子和同合子突变（1-8 bp）被清楚地区分开来。桑格测序也证实了我们的基因分型结果：这种新颖、改进的基因分型方法可广泛应用于许多临床和研究实验室，对小面积缺失或单碱基对置换的患者和动物进行快速、经济的基因分型，特别是在基因编辑时代或那些有自然突变的患者和动物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of clinical and translational pathology

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