To exploit the plethora of information provided by Next Generation Sequencing, the identification of the genetic mutations responsible for disease in general or cancer in particular, among the thousands of neutral germline or somatic variations is a crucial task. Genome-wide association studies for the detection of disease-associated genes or cancer drivers can only identify common variations or driver genes in a cohort of patients. Thus, they cannot discover unique disease-associated mutations or cancer driver genes on a personal basis. Moreover, even when there are such common variations, their significance is unknown. Here, we extend the machine learning based approach ENTPRISE developed for predicting the disease association of missense...
Motivation: The number of missense mutations being identified in cancer genomes has greatly increase...
Motivation: It becomes widely accepted that human cancer is a disease involving dynamic changes in t...
Genome-wide measurements of genomic state offer unprecedented opportunities for biological discovery...
<div><p>To exploit the plethora of information provided by Next Generation Sequencing, the identific...
Motivation: Frameshifting (FS) indels and nonsense (NS) variants disrupt the protein-coding sequence...
We used a machine learning approach to analyze the within-gene distribution of missense variants obs...
AbstractHigh-throughput genotyping and sequencing techniques are rapidly and inexpensively providing...
Abstract Background Because driver mutations provide selective advantage to the mutant clone, they t...
High-throughput genotyping and sequencing techniques are rapidly and inexpensively providing large a...
Genomic sequence mutations can be pathogenic in both germline and somatic cells. Several authors hav...
Understanding the pathogenicity of missense mutation (MM) is essential for shed light on genetic dis...
We used a machine learning approach to analyze the within-gene distribution of missense variants obs...
Cancer is an umbrella terminology that binds hundreds of complex genetic diseases based on a set of ...
A long-standing goal in clinical genomics is to map individual genetic variants to clinical outcomes...
Sporadic cancer develops from the accrual of somatic mutations. Out of all small-scale somatic aberr...
Motivation: The number of missense mutations being identified in cancer genomes has greatly increase...
Motivation: It becomes widely accepted that human cancer is a disease involving dynamic changes in t...
Genome-wide measurements of genomic state offer unprecedented opportunities for biological discovery...
<div><p>To exploit the plethora of information provided by Next Generation Sequencing, the identific...
Motivation: Frameshifting (FS) indels and nonsense (NS) variants disrupt the protein-coding sequence...
We used a machine learning approach to analyze the within-gene distribution of missense variants obs...
AbstractHigh-throughput genotyping and sequencing techniques are rapidly and inexpensively providing...
Abstract Background Because driver mutations provide selective advantage to the mutant clone, they t...
High-throughput genotyping and sequencing techniques are rapidly and inexpensively providing large a...
Genomic sequence mutations can be pathogenic in both germline and somatic cells. Several authors hav...
Understanding the pathogenicity of missense mutation (MM) is essential for shed light on genetic dis...
We used a machine learning approach to analyze the within-gene distribution of missense variants obs...
Cancer is an umbrella terminology that binds hundreds of complex genetic diseases based on a set of ...
A long-standing goal in clinical genomics is to map individual genetic variants to clinical outcomes...
Sporadic cancer develops from the accrual of somatic mutations. Out of all small-scale somatic aberr...
Motivation: The number of missense mutations being identified in cancer genomes has greatly increase...
Motivation: It becomes widely accepted that human cancer is a disease involving dynamic changes in t...
Genome-wide measurements of genomic state offer unprecedented opportunities for biological discovery...