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The Oxford Nanopore (ONT) platform provides portable and rapid genome sequencing, and its ability to natively profile DNA methylation without complex sample processing is attractive for point-of-care real-time sequencing. We recently demonstrated ONT shallow whole-genome sequencing to detect copy number alterations (CNAs) from the circulating tumor DNA (ctDNA) of cancer patients. Here, we show that cell type and cancer-specific methylation changes can also be detected, as well as cancer-associated fragmentation signatures. This feasibility study suggests that ONT shallow WGS could be a powerful tool for liquid biopsy.
Detecting cell-of-origin and cancer-specific methylation features of cell-free DNA from Nanopore sequencing
Conticello Silvestro G
Co-ultimo
;
2022
Abstract
The Oxford Nanopore (ONT) platform provides portable and rapid genome sequencing, and its ability to natively profile DNA methylation without complex sample processing is attractive for point-of-care real-time sequencing. We recently demonstrated ONT shallow whole-genome sequencing to detect copy number alterations (CNAs) from the circulating tumor DNA (ctDNA) of cancer patients. Here, we show that cell type and cancer-specific methylation changes can also be detected, as well as cancer-associated fragmentation signatures. This feasibility study suggests that ONT shallow WGS could be a powerful tool for liquid biopsy.| File | Dimensione | Formato | |
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Detecting cell-of-origin and cancer-specific methylation features of cell-free DNA from Nanopore sequencing(1).pdf
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Descrizione: Detecting cell‑of‑origin and cancer‑specifc methylation features of cell‑free DNA from Nanopore sequencing
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