Screening of Mutations/SNPs through Spectrophotometric Melt-Curve Analysis: A Preliminary Study on Non-Electrophoretic and No-Dye Method of Mutation Detection

Arif Ahmad, M. Shahid, Mohammad Raish, S. Husain
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Abstract

Presently available methods for screening of mutation require florescent labeled probe/dye or electrophoresis or both that make these methods tedious, expensive and time consuming. Here we described a method of screening of mutation/SNP without need of probe/dye and electrophoresis. The technique requires only PCR product and spectrophotometer with peltier. We screened mutation by monitoring DNA melting profile and transition temperature of homoduplex and heteroduplex by recording absorbance of UV by melting duplex. Absorbance for each duplex was measured at 260 nm from 60°C to 85°C at an increment of 1°C temperature using spectrophotometer having peltier with a heating rate of 1°C /min. In the heteroduplex samples there is rapid increase in the absorbance of UV at transition temperatures of 70°C. While in homoduplex sample it is reached after 75°C. Mutation in the sample was detected by observing the decrease of transition temperature of heteroduplex samples compared to homoduplex.
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利用分光光度法熔融曲线分析筛选突变/ snp:非电泳和无染色突变检测方法的初步研究
目前可用的突变筛选方法需要荧光标记探针/染料或电泳或两者兼而有之,这使得这些方法繁琐,昂贵且耗时。在这里,我们描述了一种不需要探针/染料和电泳的突变/SNP筛选方法。该技术只需要PCR产物和分光光度计。我们通过监测DNA的熔化谱和单双工和异双工的转变温度,通过记录熔化双工的紫外吸收来筛选突变。每个双相的吸光度在260 nm,从60°C到85°C,温度增加1°C,使用加热速率为1°C /min的分光光度计。在异双相样品中,在70°C的转变温度下,紫外吸光度迅速增加。而在同双相样品中,在75°C后达到。通过观察异双相样品的转变温度比同双相样品的降低来检测样品的突变。
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