Real-time PCR with molecular beacons provides a highly accurate assay for detection of Tay-Sachs alleles in single cells

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Abstract

The results presented here provide the first single-cell genetic assay for Tay-Sachs disease based on real-time PCR. Individual lymphoblasts were lysed with an optimized lysis buffer and assayed using one pair of primers that amplifies both the wild type and 1278 + TATC Tay-Sachs alleles. The resulting amplicons were detected in real time with two molecular beacons each with a different colored fluorochrome. The kinetics of amplicon accumulation generate objective criteria by which to evaluate the validity of each reaction. The assay had an overall utility of 95%, based on the detection of at least one signal in 235 of the 248 attempted tests and an efficiency of 97%, as 7 of the 235 samples were excluded from further analysis for objective quantitative reasons. The accuracy of the assay was 99.1%, because 228 of 230 samples gave signals consistent with the genotype of the cells. Only two of the 135 heterozygous samples were allele drop-outs, a rate far lower than previously reported for single-cell Tay-Sachs assays using conventional methods of PCR. Copyright © 2002 John Wiley & Sons, Ltd.

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Rice, J. E., Sanchez, J. A., Pierce, K. E., & Wangh, L. J. (2002). Real-time PCR with molecular beacons provides a highly accurate assay for detection of Tay-Sachs alleles in single cells. Prenatal Diagnosis, 22(12), 1130–1134. https://doi.org/10.1002/pd.500

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