The availability of the human genome sequence and progress in sequencing and bioinformatic technologies have enabled genome-wide investigation of somatic mu- tations in human cancers. This article briefly reviews challenges arising in the statistical analysis of mutational data of this kind. A first challenge is that of designing studies that efficiently allocate sequencing resources. We show that this can be addressed by two-stage designs, and demonstrate via simulations that even relatively small studies can produce lists of candidate cancer genes that are highly informative for future research efforts. A second challenge is to distinguish mutated genes that are selected for by cancer (drivers) from mutated genes that have no role in the...
The notion that DNA changes could drive the growth of cancer was first speculated more than a centur...
Although a few cancer genes are mutated in a high proportion of tumours of a given type (>20%), most...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
AbstractThe availability of the human genome sequence and progress in sequencing and bioinformatic t...
High-throughput genome sequencing and other techniques provide a cost-effective way to study cancer ...
High-throughput genome sequencing and other techniques provide a cost-effective way to study cancer ...
Background: Recent advances in sequencing technologies enable the large-scale identification of gene...
Statistical analysis of pathogenicity of somatic mutations in cancer Recent large-scale sequencing s...
The purpose of cancer genome sequencing studies is to determine the nature and types of alterations ...
Background: With the advances in high throughput technologies, increasing amounts of cancer somatic ...
Cancer is a disease of the genome, requiring mutation or epimutation of specific genes to develop. ...
The catalogue of tumour-specific somatic mutations (SMs) is growing rapidly owing to the advent of n...
Major international projects are now underway aimed at creating a comprehensive catalog of all genes...
Driver mutations are the genetic variants responsible for oncogenesis, but how specific somatic muta...
Background: With the advances in high throughput technologies, increasing amounts of cancer somatic ...
The notion that DNA changes could drive the growth of cancer was first speculated more than a centur...
Although a few cancer genes are mutated in a high proportion of tumours of a given type (>20%), most...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
AbstractThe availability of the human genome sequence and progress in sequencing and bioinformatic t...
High-throughput genome sequencing and other techniques provide a cost-effective way to study cancer ...
High-throughput genome sequencing and other techniques provide a cost-effective way to study cancer ...
Background: Recent advances in sequencing technologies enable the large-scale identification of gene...
Statistical analysis of pathogenicity of somatic mutations in cancer Recent large-scale sequencing s...
The purpose of cancer genome sequencing studies is to determine the nature and types of alterations ...
Background: With the advances in high throughput technologies, increasing amounts of cancer somatic ...
Cancer is a disease of the genome, requiring mutation or epimutation of specific genes to develop. ...
The catalogue of tumour-specific somatic mutations (SMs) is growing rapidly owing to the advent of n...
Major international projects are now underway aimed at creating a comprehensive catalog of all genes...
Driver mutations are the genetic variants responsible for oncogenesis, but how specific somatic muta...
Background: With the advances in high throughput technologies, increasing amounts of cancer somatic ...
The notion that DNA changes could drive the growth of cancer was first speculated more than a centur...
Although a few cancer genes are mutated in a high proportion of tumours of a given type (>20%), most...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
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