Sequencing of BRCA1/2 -alterations using NGS-based technology: annotation as a challenge
In this study, the molecular profile of different -associated tumor types was assessed with regard to the classification and annotation of detected variants. The aim was to establish guidelines in order to facilitate the interpretation of alterations in routine diagnostics. Annotation of detected va...
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| Veröffentlicht in: | Oncotarget 2022-03, Vol.13 (1), p.464-475 |
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| creator | Ebner, Silvana Winkelmann, Ria Martin, Saskia Köllermann, Jens Wild, Peter J Demes, Melanie |
| description | In this study, the molecular profile of different
-associated tumor types was assessed with regard to the classification and annotation of detected
variants. The aim was to establish guidelines in order to facilitate the interpretation of
alterations in routine diagnostics. Annotation of detected variants was evaluated compared to background mutations found in normal tissue samples and manually reviewed according to distinct online databases. This retrospective study included 48 samples (45 tumors, three non-tumors), which were sequenced with the GeneReader (QIAGEN). Thereof ten samples were additionally analyzed with the Ion S5™ (Thermo Fisher) and 20 samples with the MiSeq™ (Illumina
) to compare the different NGS devices, as well as the sequencing results and their quality. The analysis showed that the individual NGS platforms detected different numbers of
alterations in the respective tumor sample. In addition, the GeneReader revealed variability in the detection and classification of pathogenic alterations within the platform itself as well as in comparison with the other platforms or online databases. The study concluded that the Ion S5™ in combination with the Oncomine™ Comprehensive Assay v3 is most recommendable for current and prospective requirements of molecular analysis in routine diagnostics. In addition to the two
genes, a broad number of other genes (
ness genes and genes involved in the repair pathway) is covered by the panel, which may open up new treatment options for patients depending on the respective eligibility criteria. |
| doi_str_mv | 10.18632/oncotarget.28213 |
| format | Article |
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-associated tumor types was assessed with regard to the classification and annotation of detected
variants. The aim was to establish guidelines in order to facilitate the interpretation of
alterations in routine diagnostics. Annotation of detected variants was evaluated compared to background mutations found in normal tissue samples and manually reviewed according to distinct online databases. This retrospective study included 48 samples (45 tumors, three non-tumors), which were sequenced with the GeneReader (QIAGEN). Thereof ten samples were additionally analyzed with the Ion S5™ (Thermo Fisher) and 20 samples with the MiSeq™ (Illumina
) to compare the different NGS devices, as well as the sequencing results and their quality. The analysis showed that the individual NGS platforms detected different numbers of
alterations in the respective tumor sample. In addition, the GeneReader revealed variability in the detection and classification of pathogenic alterations within the platform itself as well as in comparison with the other platforms or online databases. The study concluded that the Ion S5™ in combination with the Oncomine™ Comprehensive Assay v3 is most recommendable for current and prospective requirements of molecular analysis in routine diagnostics. In addition to the two
genes, a broad number of other genes (
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variants. The aim was to establish guidelines in order to facilitate the interpretation of
alterations in routine diagnostics. Annotation of detected variants was evaluated compared to background mutations found in normal tissue samples and manually reviewed according to distinct online databases. This retrospective study included 48 samples (45 tumors, three non-tumors), which were sequenced with the GeneReader (QIAGEN). Thereof ten samples were additionally analyzed with the Ion S5™ (Thermo Fisher) and 20 samples with the MiSeq™ (Illumina
) to compare the different NGS devices, as well as the sequencing results and their quality. The analysis showed that the individual NGS platforms detected different numbers of
alterations in the respective tumor sample. In addition, the GeneReader revealed variability in the detection and classification of pathogenic alterations within the platform itself as well as in comparison with the other platforms or online databases. The study concluded that the Ion S5™ in combination with the Oncomine™ Comprehensive Assay v3 is most recommendable for current and prospective requirements of molecular analysis in routine diagnostics. In addition to the two
genes, a broad number of other genes (
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-associated tumor types was assessed with regard to the classification and annotation of detected
variants. The aim was to establish guidelines in order to facilitate the interpretation of
alterations in routine diagnostics. Annotation of detected variants was evaluated compared to background mutations found in normal tissue samples and manually reviewed according to distinct online databases. This retrospective study included 48 samples (45 tumors, three non-tumors), which were sequenced with the GeneReader (QIAGEN). Thereof ten samples were additionally analyzed with the Ion S5™ (Thermo Fisher) and 20 samples with the MiSeq™ (Illumina
) to compare the different NGS devices, as well as the sequencing results and their quality. The analysis showed that the individual NGS platforms detected different numbers of
alterations in the respective tumor sample. In addition, the GeneReader revealed variability in the detection and classification of pathogenic alterations within the platform itself as well as in comparison with the other platforms or online databases. The study concluded that the Ion S5™ in combination with the Oncomine™ Comprehensive Assay v3 is most recommendable for current and prospective requirements of molecular analysis in routine diagnostics. In addition to the two
genes, a broad number of other genes (
ness genes and genes involved in the repair pathway) is covered by the panel, which may open up new treatment options for patients depending on the respective eligibility criteria.</abstract><cop>United States</cop><pub>Impact Journals LLC</pub><pmid>35251494</pmid><doi>10.18632/oncotarget.28213</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record> |
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| title | Sequencing of BRCA1/2 -alterations using NGS-based technology: annotation as a challenge |
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