Tumors contain multiple subpopulations of genetically distinct cancer cells. Reconstructing their evolutionary history can improve our understanding of how cancers develop and respond to treatment. Subclonal reconstruction methods cluster mutations into groups that co-occur within the same subpopulations, estimate the frequency of cells belonging to each subpopulation, and infer the ancestral relationships among the subpopulations by constructing a clone tree. However, often multiple clone trees are consistent with the data and current methods do not efficiently capture this uncertainty; nor can these methods scale to clone trees with a large number of subclonal populations. Here, we formalize the notion of a partial clone tree that defi...
BACKGROUND: Every tumor is composed of heterogeneous clones, each corresponding to a distinct subpop...
Understanding the clonal architecture and evolutionary history of a tumour poses one of the key chal...
<p>Cancer research has made tremendous progress in understanding the basic biology of tumors. One of...
Tumors contain multiple subpopulations of genetically distinct cancer cells. Reconstructing their ev...
Sundermann LK, Wintersinger J, Rätsch G, Stoye J, Morris Q. Reconstructing Tumor Evolutionary Histor...
Tumours are composed of multiple subpopulations, each of which has its own genotype and phenotype. ...
Cancers are composed of genetically distinct subpopulations of malignant cells. By sequencing DNA fr...
<div><p>Recent improvements in next-generation sequencing of tumor samples and the ability to identi...
Abstract The vast majority of cancer next-generation sequencing data consist of bulk samples compose...
An accurate phylogeny of a cancer tumour has the potential to shed light on numerous phenomena, such...
Cancer is a complex, adaptive system characterized by constantly evolving subclonal populations of c...
Abstract Background High-throughput sequencing allows...
Every tumor is composed of heterogeneous clones, each corresponding to a distinct subpopulation of c...
Cancer is a genetic disease characterized by the emergence of genetically distinct populations of ce...
15siMost cancer genomic data are generated from bulk samples composed of mixtures of cancer subpopul...
BACKGROUND: Every tumor is composed of heterogeneous clones, each corresponding to a distinct subpop...
Understanding the clonal architecture and evolutionary history of a tumour poses one of the key chal...
<p>Cancer research has made tremendous progress in understanding the basic biology of tumors. One of...
Tumors contain multiple subpopulations of genetically distinct cancer cells. Reconstructing their ev...
Sundermann LK, Wintersinger J, Rätsch G, Stoye J, Morris Q. Reconstructing Tumor Evolutionary Histor...
Tumours are composed of multiple subpopulations, each of which has its own genotype and phenotype. ...
Cancers are composed of genetically distinct subpopulations of malignant cells. By sequencing DNA fr...
<div><p>Recent improvements in next-generation sequencing of tumor samples and the ability to identi...
Abstract The vast majority of cancer next-generation sequencing data consist of bulk samples compose...
An accurate phylogeny of a cancer tumour has the potential to shed light on numerous phenomena, such...
Cancer is a complex, adaptive system characterized by constantly evolving subclonal populations of c...
Abstract Background High-throughput sequencing allows...
Every tumor is composed of heterogeneous clones, each corresponding to a distinct subpopulation of c...
Cancer is a genetic disease characterized by the emergence of genetically distinct populations of ce...
15siMost cancer genomic data are generated from bulk samples composed of mixtures of cancer subpopul...
BACKGROUND: Every tumor is composed of heterogeneous clones, each corresponding to a distinct subpop...
Understanding the clonal architecture and evolutionary history of a tumour poses one of the key chal...
<p>Cancer research has made tremendous progress in understanding the basic biology of tumors. One of...