Background: Recent advances in next generation sequencing (NGS) technology have enabled comprehensive and accurate screening of the entire genomic region of BRCA1/2 genes and, to date, many studies report the effectiveness of these technologies. Here we show that Gene Scan (GS) labeling Quality Control (QC), performed before massive parallel pyrosequencing, coupled with Multiple Amplicon Quantification software (MAQ-S) analysis is a rapid and powerful tool in the detection of deleterious BRCA mutations carried by different patients. Methods: GS labeling QC assay was performed according to the manufacturers' instructions and MAQ-S software was employed for analysis results. Results: GS labeling QC was able to detect 14 different BRCA frameshift mutations in our patients. In addition, two novel BRCA mutations (c.1893_1894in5TTAAGCCCACAAAT in BRCA1 gene and c.9413_9414insT in BRCA2 gene) were identified. Conclusion: We prove that a simple QC step may represent a valid and useful tool for a rapid detection of frameshift mutations in BRCA genes. For this reason, we recommend using this approach before massive parallel sequencing. (C) 2014 Elsevier B.V. All rights reserved.
Capoluongo, E. D., Paolillo, C., Vendittelli, F., Is quantitative real time polymerase chain reaction MCAM transcript assay really suitable for prognostic and predictive management of melanoma patients?, <<BRITISH JOURNAL OF DERMATOLOGY>>, 2014; 171 (1): 190-191. [doi:10.1111/bjd.12818] [http://hdl.handle.net/10807/64026]
Is quantitative real time polymerase chain reaction MCAM transcript assay really suitable for prognostic and predictive management of melanoma patients?
Capoluongo, Ettore Domenico;Paolillo, Carmela;Vendittelli, Francesca
2014
Abstract
Background: Recent advances in next generation sequencing (NGS) technology have enabled comprehensive and accurate screening of the entire genomic region of BRCA1/2 genes and, to date, many studies report the effectiveness of these technologies. Here we show that Gene Scan (GS) labeling Quality Control (QC), performed before massive parallel pyrosequencing, coupled with Multiple Amplicon Quantification software (MAQ-S) analysis is a rapid and powerful tool in the detection of deleterious BRCA mutations carried by different patients. Methods: GS labeling QC assay was performed according to the manufacturers' instructions and MAQ-S software was employed for analysis results. Results: GS labeling QC was able to detect 14 different BRCA frameshift mutations in our patients. In addition, two novel BRCA mutations (c.1893_1894in5TTAAGCCCACAAAT in BRCA1 gene and c.9413_9414insT in BRCA2 gene) were identified. Conclusion: We prove that a simple QC step may represent a valid and useful tool for a rapid detection of frameshift mutations in BRCA genes. For this reason, we recommend using this approach before massive parallel sequencing. (C) 2014 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.