Identification and functional characterization of new missense SNPs in the coding region of the TP53 gene

Infrequent and rare genetic variants in the human population vastly outnumber common ones. Although they may contribute significantly to the genetic basis of a disease, these seldom-encountered variants may also be miss-identified as pathogenic if no correct references are available. Somatic and ger...

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Veröffentlicht in:	Cell death and differentiation 2021-05, Vol.28 (5), p.1477-1492
Hauptverfasser:	Doffe, Flora, Carbonnier, Vincent, Tissier, Manon, Leroy, Bernard, Martins, Isabelle, Mattsson, Johanna S. M., Micke, Patrick, Pavlova, Sarka, Pospisilova, Sarka, Smardova, Jana, Joerger, Andreas C., Wiman, Klas G., Kroemer, Guido, Soussi, Thierry
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Sprache:	eng
Schlagworte:	13/31 13/44 45/70 631/67/1244 692/308/2056 82/80 96/109 Apoptosis Biochemistry Biomedical and Life Sciences Cancer Cell Biology Cell Cycle Analysis Datasets Disease Genes, p53 - genetics Genetic analysis Genetic diversity Genetics Genomes Genomics Humans Identification Immunology Leukemia Life Sciences Medicin och hälsovetenskap Multiculturalism & pluralism Mutation Mutation, Missense - genetics Neoplasms - genetics p53 Protein Pathology Patologi Polymorphism Polymorphism, Single Nucleotide - genetics Population Single-nucleotide polymorphism Stem Cells Structure-function relationships Tumor Suppressor Protein p53 - genetics Tumors
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creator	Doffe, Flora Carbonnier, Vincent Tissier, Manon Leroy, Bernard Martins, Isabelle Mattsson, Johanna S. M. Micke, Patrick Pavlova, Sarka Pospisilova, Sarka Smardova, Jana Joerger, Andreas C. Wiman, Klas G. Kroemer, Guido Soussi, Thierry
description	Infrequent and rare genetic variants in the human population vastly outnumber common ones. Although they may contribute significantly to the genetic basis of a disease, these seldom-encountered variants may also be miss-identified as pathogenic if no correct references are available. Somatic and germline TP53 variants are associated with multiple neoplastic diseases, and thus have come to serve as a paradigm for genetic analyses in this setting. We searched 14 independent, globally distributed datasets and recovered TP53 SNPs from 202,767 cancer-free individuals. In our analyses, 19 new missense TP53 SNPs, including five novel variants specific to the Asian population, were recurrently identified in multiple datasets. Using a combination of in silico, functional, structural, and genetic approaches, we showed that none of these variants displayed loss of function compared to the normal TP53 gene. In addition, classification using ACMG criteria suggested that they are all benign. Considered together, our data reveal that the TP53 coding region shows far more polymorphism than previously thought and present high ethnic diversity. They furthermore underline the importance of correctly assessing novel variants in all variant-calling pipelines associated with genetic diagnoses for cancer.
doi_str_mv	10.1038/s41418-020-00672-0
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We searched 14 independent, globally distributed datasets and recovered TP53 SNPs from 202,767 cancer-free individuals. In our analyses, 19 new missense TP53 SNPs, including five novel variants specific to the Asian population, were recurrently identified in multiple datasets. Using a combination of in silico, functional, structural, and genetic approaches, we showed that none of these variants displayed loss of function compared to the normal TP53 gene. In addition, classification using ACMG criteria suggested that they are all benign. Considered together, our data reveal that the TP53 coding region shows far more polymorphism than previously thought and present high ethnic diversity. 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subjects	13/31 13/44 45/70 631/67/1244 692/308/2056 82/80 96/109 Apoptosis Biochemistry Biomedical and Life Sciences Cancer Cell Biology Cell Cycle Analysis Datasets Disease Genes, p53 - genetics Genetic analysis Genetic diversity Genetics Genomes Genomics Humans Identification Immunology Leukemia Life Sciences Medicin och hälsovetenskap Multiculturalism & pluralism Mutation Mutation, Missense - genetics Neoplasms - genetics p53 Protein Pathology Patologi Polymorphism Polymorphism, Single Nucleotide - genetics Population Single-nucleotide polymorphism Stem Cells Structure-function relationships Tumor Suppressor Protein p53 - genetics Tumors
title	Identification and functional characterization of new missense SNPs in the coding region of the TP53 gene
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