Introduction Detection of pathogenic variants in hereditary breast and ovarian cancer-related breast cancer type 1 and type 2 susceptibility proteins (BRCA1/2) genes is an effective strategy in cancer prevention and treatment. Some ethnic and geographical regions show different BRCA1/2 mutation spectrum and prevalence. In Italy, elucidation of founder effect in BRCA1/2 genes can have an impact on the management of hereditary cancer families on a healthcare system level, making genetic testing more affordable and cost effective in certain regions. Methods The purpose of this paper is to develop a rapid, low-cost, high-throughput single-tube technology for genotyping the Italian founder mutation c.4964_4982del19 (rs80359876) in the BRCA1 gene, starting from peripheral blood and/or buccal swab DNA. Results Heterozygote samples for c.4964_4982del19 variant were easily and unambiguously identified by the altered shape of the melting curves and were clearly distinguished by a change in melting temperature that differed by approximately 5 degrees C. The same results were obtained both with DNA from peripheral blood than buccal swab. Conclusions We provide evidence about application of high-resolution melting analysis (HRMA) in unambiguously genotyping of the founder BRCA1 c.4964_4982del19 variant (rs80359876) in individuals from the Calabria region of Italy. In fact, HRMA was confirmed to be particularly suitable for the identification of BRCA1 c.4964_4982del19 variant, making this approach useful in clinical molecular diagnostics.

High Resolution Melting Analysis is Very Useful to Identify Breast Cancer Type 1 Susceptibility Protein (BRCA1) c.4964_4982del19 (rs80359876) Founder Calabrian Pathogenic Variant on Peripheral Blood and Buccal Swab DNA / Minucci, A; De Bonis, M; De Paolis, E; Gentile, L; Santonocito, C; Concolino, P; Mignone, F; Capoluongo, E. - In: MOLECULAR DIAGNOSIS & THERAPY. - ISSN 1177-1062. - 21:2(2017), pp. 217-223. [10.1007/s40291-017-0262-3]

High Resolution Melting Analysis is Very Useful to Identify Breast Cancer Type 1 Susceptibility Protein (BRCA1) c.4964_4982del19 (rs80359876) Founder Calabrian Pathogenic Variant on Peripheral Blood and Buccal Swab DNA

Capoluongo E
2017

Abstract

Introduction Detection of pathogenic variants in hereditary breast and ovarian cancer-related breast cancer type 1 and type 2 susceptibility proteins (BRCA1/2) genes is an effective strategy in cancer prevention and treatment. Some ethnic and geographical regions show different BRCA1/2 mutation spectrum and prevalence. In Italy, elucidation of founder effect in BRCA1/2 genes can have an impact on the management of hereditary cancer families on a healthcare system level, making genetic testing more affordable and cost effective in certain regions. Methods The purpose of this paper is to develop a rapid, low-cost, high-throughput single-tube technology for genotyping the Italian founder mutation c.4964_4982del19 (rs80359876) in the BRCA1 gene, starting from peripheral blood and/or buccal swab DNA. Results Heterozygote samples for c.4964_4982del19 variant were easily and unambiguously identified by the altered shape of the melting curves and were clearly distinguished by a change in melting temperature that differed by approximately 5 degrees C. The same results were obtained both with DNA from peripheral blood than buccal swab. Conclusions We provide evidence about application of high-resolution melting analysis (HRMA) in unambiguously genotyping of the founder BRCA1 c.4964_4982del19 variant (rs80359876) in individuals from the Calabria region of Italy. In fact, HRMA was confirmed to be particularly suitable for the identification of BRCA1 c.4964_4982del19 variant, making this approach useful in clinical molecular diagnostics.
2017
High Resolution Melting Analysis is Very Useful to Identify Breast Cancer Type 1 Susceptibility Protein (BRCA1) c.4964_4982del19 (rs80359876) Founder Calabrian Pathogenic Variant on Peripheral Blood and Buccal Swab DNA / Minucci, A; De Bonis, M; De Paolis, E; Gentile, L; Santonocito, C; Concolino, P; Mignone, F; Capoluongo, E. - In: MOLECULAR DIAGNOSIS & THERAPY. - ISSN 1177-1062. - 21:2(2017), pp. 217-223. [10.1007/s40291-017-0262-3]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/777889
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