Modified low cost SNP genotyping technique using cycle threshold (Ct) & melting temperature (Tm) values in allele specific real-time PCR

摘要

Background & objectives: Genotyping has now become one of the major diagnostic means for almost all diseases. Among the advanced techniques that are used to study single nucleotide polymorphisms (SNPs), only a few are applicable for routine disease diagnosis. Their applicability mainly depends on three factors: cost, time, and accuracy. The primary objective of this study was to propose allele-specific real-time PCR as a rapid, low cost and simple genotyping method for routine diagnostics. Methods: Two SNPs, rs3014866 and rs2149356 were analysed using allele-specific real-time PCR. The polymerase chain reaction was carried out using RealQ PCR master mix containing SYBR Green DNA I dye followed by melt curve analysis. The results were validated by agarose gel electrophoresis and DNA sequencing. Results: The allelic discrimination and zygosity of the two SNPs were assessed by combined cycle threshold (Ct) and melting temperature (T _m ) values. Variations in Ct and T _m values among the two alleles were observed in both rs3014866 (Ct: C allele - 24±1, T allele - 27±1; T _m : C allele - 82.5±0.3, T allele - 86.3±0.2) and rs2149356 (Ct: C allele - 24±1, A allele - 26±1; T _m : C allele - 79.4±0.2, A allele - 80.4±0.3). Based on the variations, homozygous and heterozygous alleles were detected. Agarose gel electrophoresis and DNA sequencing also confirmed the allelic variation and zygosity observed in real-time PCR. Interpretation & conclusions: In diagnostic settings where a large number of samples are analysed daily, allele-specific real-time PCR assay may serve as a simple, low cost and efficient method of genotyping.