PURPOSE: Fluorescent polymerase chain reaction (PCR) is a multipurpose technique that can be used for diagnosing sex, single-gene defects, and trisomies as well as determining DNA fingerprints from single cells. However, its effectiveness must be assessed before clinical preimplantation genetic diagnosis (PGD) application. METHODS: Single and multiplex fluorescent PCR was applied to single cells and blastomeres. RESULTS: Fluorescent PCR can be used to diagnose sex from blastomeres and has been successfully applied in a clinical PGD sexing program resulting in a confirmed pregnancy. A further major advantage of fluorescent PCR is the ability to multiplex, providing multiple diagnoses and DNA fingerprints with a high reliability (approximately 75% for trisomy, 86% for DNA fingerprint) and good accuracy (70-80%). Allele dropout in multiplex PCR is approximately 20% per allele and does not appear to be associated with the fragment size. CONCLUSIONS: Fluorescent PCR is a powerful technique for PGD, and the effects of allele dropout must be considered, particularly in multiplex PCR.
PURPOSE: Fluorescent polymerase chain reaction (PCR) is a multipurpose technique that can be used for diagnosing sex, single-gene defects, and trisomies as well as determining DNA fingerprints from single cells. However, its effectiveness must be assessed before clinical preimplantation genetic diagnosis (PGD) application. METHODS: Single and multiplex fluorescent PCR was applied to single cells and blastomeres. RESULTS: Fluorescent PCR can be used to diagnose sex from blastomeres and has been successfully applied in a clinical PGD sexing program resulting in a confirmed pregnancy. A further major advantage of fluorescent PCR is the ability to multiplex, providing multiple diagnoses and DNA fingerprints with a high reliability (approximately 75% for trisomy, 86% for DNA fingerprint) and good accuracy (70-80%). Allele dropout in multiplex PCR is approximately 20% per allele and does not appear to be associated with the fragment size. CONCLUSIONS: Fluorescent PCR is a powerful technique for PGD, and the effects of allele dropout must be considered, particularly in multiplex PCR.
Authors: J E Lygo; P E Johnson; D J Holdaway; S Woodroffe; J P Whitaker; T M Clayton; C P Kimpton; P Gill Journal: Int J Legal Med Date: 1994 Impact factor: 2.686
Authors: J D Delhanty; D K Griffin; A H Handyside; J Harper; G H Atkinson; M H Pieters; R M Winston Journal: Hum Mol Genet Date: 1993-08 Impact factor: 6.150