Intra-tumor heterogeneity presents itself through the evolution of subclones during cancer progression. While recent research suggests that this clonal diversity is a key factor in therapeutic failure, the determination of subclonal architecture of human tumors remains a challenge. To address the problem of accurately determining subclonal frequencies in tumors as well as their evolutionary history, we have developed a novel combinatorial method named CITUP (Clonality Inference in Tumors Using Phylogeny). An important feature of CITUP is its ability to exploit data from multiple time-point and/or regional samples from a single patient in order to improve estimates of mutational profiles and subclonal frequencies. Using extensive simulations...
Cancers arise from successive rounds of mutation and selection, generating clonal populations that v...
Whole-genome sequencing can be used to estimate subclonal populations in tumours and this intra-tumo...
Tumorigenesis can in principle result from many combinations of mutations, but only a few roughly eq...
<div><p>Recent improvements in next-generation sequencing of tumor samples and the ability to identi...
Abstract Background High-throughput sequencing allows...
<div><p>Cancers arise from successive rounds of mutation and selection, generating clonal population...
Now published in Nature Genetics doi: 10.1038/s41588-018-0128-6Recent studies have identified preval...
During cancer development, the tumor cell population usually emerges from a single cell ancestor and...
The sensitivity of massively-parallel sequencing has confirmed that most cancers are oligoclonal, wi...
Tumor DNA sequencing data can be interpreted by computational methods that analyze genomic heterogen...
Cancer is a genetic disease characterized by the emergence of genetically distinct populations of ce...
Tumor DNA sequencing data can be interpreted by computational methods that analyze genomic heterogen...
Knowledge about the clonal evolution of each tumor can inform driver-alteration discovery by pointin...
© 2020 Luis Eduardo Lara-GonzalezIntra and inter-tumour heterogeneity poses a challenge for associat...
Subclonal architectures are prevalent across cancer types. However, the temporal evolutionary dynami...
Cancers arise from successive rounds of mutation and selection, generating clonal populations that v...
Whole-genome sequencing can be used to estimate subclonal populations in tumours and this intra-tumo...
Tumorigenesis can in principle result from many combinations of mutations, but only a few roughly eq...
<div><p>Recent improvements in next-generation sequencing of tumor samples and the ability to identi...
Abstract Background High-throughput sequencing allows...
<div><p>Cancers arise from successive rounds of mutation and selection, generating clonal population...
Now published in Nature Genetics doi: 10.1038/s41588-018-0128-6Recent studies have identified preval...
During cancer development, the tumor cell population usually emerges from a single cell ancestor and...
The sensitivity of massively-parallel sequencing has confirmed that most cancers are oligoclonal, wi...
Tumor DNA sequencing data can be interpreted by computational methods that analyze genomic heterogen...
Cancer is a genetic disease characterized by the emergence of genetically distinct populations of ce...
Tumor DNA sequencing data can be interpreted by computational methods that analyze genomic heterogen...
Knowledge about the clonal evolution of each tumor can inform driver-alteration discovery by pointin...
© 2020 Luis Eduardo Lara-GonzalezIntra and inter-tumour heterogeneity poses a challenge for associat...
Subclonal architectures are prevalent across cancer types. However, the temporal evolutionary dynami...
Cancers arise from successive rounds of mutation and selection, generating clonal populations that v...
Whole-genome sequencing can be used to estimate subclonal populations in tumours and this intra-tumo...
Tumorigenesis can in principle result from many combinations of mutations, but only a few roughly eq...