Detection of cystic fibrosis alleles from single cells using molecular beacons and a novel method of asymmetric real-time PCR

Abstract

We present a method for rapid and accurate identification of the normal and ΔF508 alleles of the cystic fibrosis (CF) gene in single human cells that utilizes LATE (linear after the exponential)-PCR, a newly invented form of asymmetric PCR. Detection of the single-stranded amplicon is carried out in real time, using allele-specific molecular beacons. The LATE-PCR method permits controlled abrupt transition from exponential to linear amplification and thereby enhances the fluorescent signals and reduces variability between replicate samples relative to those obtained using typical real-time PCR. Of 239 single lymphoblasts generating amplification signals, 227 (95%) exhibited signals that met objective quantitative criteria required for diagnosis. Among these samples, 222 were genotyped correctly, for an assay accuracy of 98%. The small number of diagnostic errors was due to allele drop-out among heterozygous lymphoblasts, 4/119 (3.4%), and contamination among homozygous ΔF508 lymphoblasts, 1/57 (1.8%). LATE-PCR offers a new strategy for preimplantation genetic diagnosis and other fields in which accurate quantitative detection of single copy genes is important.