Abstract

Polymerase chain reaction-amplified product length polymorphism (PCR-APLP) is one of the most convenient and reliable methods for single nucleotide polymorphism (SNP) analysis. This method is based on PCR, but uses allele-specific primers containing SNP sites at the 3′-terminus of each primer. To use this method at least two allele-specific primers and one “counter-primer”, which serves as a common forward or reverse primer of the allele-specific primers, are required. The allele-specific primers have SNP sites at the 3′-terminus, and another primer should have a few non-complementary flaps at the 5′-terminus to detect SNPs by determining the difference of amplicon length by PCR and subsequent electrophoresis. A major disadvantage of the addition of a non-complementary flap is the non-specific annealing of the primer with non-complementary flaps. However, a design principle for avoiding this undesired annealing has not been fully established, therefore, it is often difficult to design effective APLP primers. Here, we report allele-specific primers with an inosine chain at the 5′-terminus for PCR-APLP analysis. This unique design improves the competitiveness of allele-specific primers and the reliability of SNP analysis when using the PCR-APLP method.

Highlights

  • The polymerase chain reaction-amplified product length polymorphism (PCR-APLP) method has been successfully applied for genotyping human blood groups ABO [1, 2] and the haplogrouping of modern and ancient mitochondrial DNA [3,4,5,6], among other applications [7, 8]

  • The current study confirmed that the 50-terminal inosine chain combined mainly with cytosines in a PCR reaction mixture

  • This is not surprising given that inosine pairs more stably to cytosine compared with T, G, or A [17]

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Summary

Introduction

The polymerase chain reaction-amplified product length polymorphism (PCR-APLP) method has been successfully applied for genotyping human blood groups ABO [1, 2] and the haplogrouping of modern and ancient mitochondrial DNA (mtDNA) [3,4,5,6], among other applications [7, 8]. This method is based on PCR, but uses allele-specific primers containing SNP sites at the 30-terminus of each primer. Each allele-specific primer has SNP sites at the 30-terminus, and non-complementary bases are added to the 50-terminus of one primers to allow the PLOS ONE | DOI:10.1371/journal.pone.0136995 September 18, 2015

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