Single nucleotide primer extension: Quantitative range, variability, and multiplex analysis

Abstract

The quantitative measurement of transcription products from homologous alleles at a diploid locus has broad application for the study of mammalian gene expression. Single nucleotide primer extension (SNuPE) analysis is a simple and sensitive method for allelic transcript discrimination requiring only 1 bp difference between alleles. In this study the effective range, experimental variation, and the influences of poly(dT)-primed and gene-specific reverse transcriptions are characterized. The ability to analyze several genes from a single reverse transcription reaction is assessed as well. For the genes examined, the maximum range of detection is reached when the minor transcript represents 1/250 of the major allele. Relatively little error is seen within or between assays and linearity of response is maintained over an approximately thousandfold range.