The type and genomic context of cancer mutations depend on their causes. These causes have been characterized using signatures that represent mutation types that co-occur in the same tumours. However, it remains unclear how mutation processes change during cancer evolution due to the lack of reliable methods to reconstruct evolutionary trajectories of mutational signature activity. Here, as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, which aggregated whole-genome sequencing data from 2658 cancers across 38 tumour types, we present TrackSig, a new method that reconstructs these trajectories using optimal, joint segmentation and deconvolution of mutation type and allele frequencies from a single tumour sampl...
Stars indicate mutations (top); red bars indicate changepoints (middle); green and purple lines indi...
In the last century cancer has become increasingly prevalent and is the second largest killer in the...
Bulk whole genome sequencing (WGS) enables the analysis of tumor evolution but, because of depth lim...
The type and genomic context of cancer mutations depend on their causes. These causes have been char...
The type and genomic context of cancer mutations depend on their causes. These causes have been char...
Cancer genomes harbor a catalog of somatic mutations. The type and genomic context of these mutation...
Abstract Background A large number of algorithms is being developed to reconstruct evolutionary mode...
Mutational signatures are patterns of mutations that arise during tumorigenesis. We present an enhan...
Mutational signatures are patterns of mutations that arise during tumorigenesis. We present an enhan...
Abstract Cancer develops through a process of somatic evolution 1,2 .Sequencing data from a single b...
International audienceSystematic DNA sequencing of cancer samples has highlighted the importance of ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...
Cancer develops through a process of somatic evolution1,2. Sequencing data from a single biopsy repr...
Stars indicate mutations (top); red bars indicate changepoints (middle); green and purple lines indi...
In the last century cancer has become increasingly prevalent and is the second largest killer in the...
Bulk whole genome sequencing (WGS) enables the analysis of tumor evolution but, because of depth lim...
The type and genomic context of cancer mutations depend on their causes. These causes have been char...
The type and genomic context of cancer mutations depend on their causes. These causes have been char...
Cancer genomes harbor a catalog of somatic mutations. The type and genomic context of these mutation...
Abstract Background A large number of algorithms is being developed to reconstruct evolutionary mode...
Mutational signatures are patterns of mutations that arise during tumorigenesis. We present an enhan...
Mutational signatures are patterns of mutations that arise during tumorigenesis. We present an enhan...
Abstract Cancer develops through a process of somatic evolution 1,2 .Sequencing data from a single b...
International audienceSystematic DNA sequencing of cancer samples has highlighted the importance of ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...
Cancer develops through a process of somatic evolution1,2. Sequencing data from a single biopsy repr...
Stars indicate mutations (top); red bars indicate changepoints (middle); green and purple lines indi...
In the last century cancer has become increasingly prevalent and is the second largest killer in the...
Bulk whole genome sequencing (WGS) enables the analysis of tumor evolution but, because of depth lim...