Add to ORKGMassively parallel sequencing has permitted an unprecedented examination of the cancer exome, leading to predictions that all genes important to cancer will soon be identified by genetic analysis of tumours. To examine this potential, here we evaluate the ability of state-of-the-art sequence analysis methods to specifically recover known cancer genes. While some cancer genes are identified by analysis of recurrence, spatial clustering or predicted impact of somatic mutations, many remain undetected due to lack of power to discriminate driver mutations from the background mutational load (13-60% recall of cancer genes impacted by somatic single-nucleotide variants, depending on the method). Cancer genes not detected by mutation recurrence al...
none3The recent improvement of the high-throughput sequencing technologies is having a strong impact...
Whole exome sequencing, owing to its low cost and computational burden, has become the standard for ...
Cancer is driven by a plethora of molecular genetic events, including germline alterations that incr...
Massively parallel sequencing has permitted an unprecedented examination of the cancer exome, leadin...
It is well established that genomic alterations play an essential role in oncogenesis, disease progr...
Whole exome sequencing (WES) provides a powerful tool for medical genetic research. Several dozens o...
Although a few cancer genes are mutated in a high proportion of tumours of a given type (>20%), most...
BACKGROUND: Technology has progressed from single gene panel to large-scale genomic sequencing. This...
Cells in the human body contain DNA genomes that encode instructions regulating their biology. Accum...
Identifying molecular cancer drivers is critical for precision oncology. Multiple advanced algorithm...
Identifying molecular cancer drivers is critical for precision oncology. Multiple advanced algorithm...
Cancer, the uncontrolled growth of morphologically and genetically abnormal cells in the body, is a ...
AbstractIt is now widely accepted that cancer is a genetic disease and that alterations in the DNA s...
Although exome sequencing data are generated primarily to detect single-nucleotide variants and inde...
The identification of biologically significant variants in cancer genomes is critical to therapeutic...
none3The recent improvement of the high-throughput sequencing technologies is having a strong impact...
Whole exome sequencing, owing to its low cost and computational burden, has become the standard for ...
Cancer is driven by a plethora of molecular genetic events, including germline alterations that incr...
Massively parallel sequencing has permitted an unprecedented examination of the cancer exome, leadin...
It is well established that genomic alterations play an essential role in oncogenesis, disease progr...
Whole exome sequencing (WES) provides a powerful tool for medical genetic research. Several dozens o...
Although a few cancer genes are mutated in a high proportion of tumours of a given type (>20%), most...
BACKGROUND: Technology has progressed from single gene panel to large-scale genomic sequencing. This...
Cells in the human body contain DNA genomes that encode instructions regulating their biology. Accum...
Identifying molecular cancer drivers is critical for precision oncology. Multiple advanced algorithm...
Identifying molecular cancer drivers is critical for precision oncology. Multiple advanced algorithm...
Cancer, the uncontrolled growth of morphologically and genetically abnormal cells in the body, is a ...
AbstractIt is now widely accepted that cancer is a genetic disease and that alterations in the DNA s...
Although exome sequencing data are generated primarily to detect single-nucleotide variants and inde...
The identification of biologically significant variants in cancer genomes is critical to therapeutic...
none3The recent improvement of the high-throughput sequencing technologies is having a strong impact...
Whole exome sequencing, owing to its low cost and computational burden, has become the standard for ...
Cancer is driven by a plethora of molecular genetic events, including germline alterations that incr...