Comparison of an Unlabeled Probe High-Resolution Melting Analysis Assay (HRMA) for Factor V Leiden 1691 G/A Mutation to a Fluorogenic 5' Nuclease PCR Hydrolysis Assay.

IF 1.8 Q3 MEDICAL LABORATORY TECHNOLOGY
Heping Han, Sally Lewis
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引用次数: 0

Abstract

Background: The clinically significant Factor V Leiden (FVL) point mutation (1691 G/A) causes replacement of Arg with Gln (glutamine), preventing activated protein C from inactivating Factor V leading to a lengthened clotting process. Individuals with the Factor V Leiden mutations have an increased risk for venous thrombosis. The aim of this study is to compare an unlabeled probe high-resolution melting analysis (HRMA) assay for Factor V Leiden mutation to a TaqMan hydrolysis assay (fluorogenic 5' nuclease PCR hydrolysis assay). HRMA is a post-PCR, homogenous, closed-tube system for the detection of sequence variants. Post-PCR, the amplicons are heated gradually until the melting temperature is reached and the fluorescent dye unbinds from the amplicon and exhibits low fluorescence. A melt-curve analysis is generated that is characteristic of a particular sequence variant. Therefore, HRMA allows for comparison of one base changes in genetic sequences based on their differences in melting rate.

Methods: Blood samples were collected in EDTA tubes and DNA extracted using the Roche MagNaPure. Reactions of both HRMA and TaqMan were carried out on 3 controls (1691 G/G, 1691 G/A, and 1691 G/G and G/A) and 20 samples.

Results: The genotypes for 3 reference controls purchased from Coriell (F5 1691 G/G, FVL 1691 G/A, and Heterozygote 1691 G/G and G/A) were confirmed by both the HRMA and TaqMan FVL assays. All 20 samples were confirmed to be F5 1691 G/G by both HRMA and TaqMan assays.

Conclusions: Comparing the results of the unlabeled probe HRMA FVL assay with a real-time TaqMan probe end point genotyping assay resulted in 100% sensitivity and 100% specificity for both assays.

因子 V Leiden 1691 G/A 突变的无标记探针高分辨熔融分析测定 (HRMA) 与荧光 5' 核酸酶 PCR 水解测定的比较。
背景:具有临床意义的因子 V Leiden(FVL)点突变(1691 G/A)会导致 Arg 被 Gln(谷氨酰胺)取代,从而阻止活化蛋白 C 使因子 V 失活,导致凝血过程延长。因子 V Leiden 突变的个体罹患静脉血栓的风险会增加。本研究旨在将因子 V Leiden 突变的无标记探针高分辨熔解分析(HRMA)测定与 TaqMan 水解测定(荧光 5' 核酸酶 PCR 水解测定)进行比较。HRMA 是一种用于检测序列变异的聚合酶链反应后、均质、密闭试管系统。在 PCR 后,逐渐加热扩增子,直到达到熔融温度,荧光染料从扩增子上脱落并发出低荧光。熔融曲线分析结果是特定序列变异的特征。因此,HRMA 可以根据熔解率的差异比较基因序列中一个碱基的变化:方法:用 EDTA 管采集血样,用罗氏 MagNaPure 提取 DNA。对 3 个对照(1691 G/G、1691 G/A、1691 G/G 和 G/A)和 20 个样本进行 HRMA 和 TaqMan 反应:结果:通过 HRMA 和 TaqMan FVL 检测,确认了从 Coriell 购买的 3 个参考对照(F5 1691 G/G、FVL 1691 G/A 和杂合子 1691 G/G 和 G/A)的基因型。通过 HRMA 和 TaqMan 检测,所有 20 个样本都被确认为 F5 1691 G/G:结论:将未标记探针的HRMA FVL测定结果与实时TaqMan探针终点基因分型测定结果进行比较,两种测定的灵敏度均为100%,特异性均为100%。
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来源期刊
Journal of Applied Laboratory Medicine
Journal of Applied Laboratory Medicine MEDICAL LABORATORY TECHNOLOGY-
CiteScore
3.70
自引率
5.00%
发文量
137
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