Functional interpretation of genomic variation is critical to understanding human disease but it remains difficult to predict the effects of specific mutations on protein interaction networks and the phenotypes they regulate. We describe an analytical framework based on multiscale statistical mechanics that integrates genomic and biophysical data to model the human SH2-phosphoprotein network in normal and cancer cells. We apply our approach to data in The Cancer Genome Atlas (TCGA) and test model predictions experimentally. We find that mutations in phosphoproteins often create new interactions but that mutations in SH2 domains result almost exclusively in loss of interactions. Some of these mutations eliminate all interactions but many cau...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
Many studies have shown that missense mutations might play an important role in carcinogenesis. Howe...
Genomics and genome screening are proving central to the study of cancer. However, a good appreciati...
Recently it has been shown that cancer mutations selectively target protein-protein interactions. We...
<div><p>Recently it has been shown that cancer mutations selectively target protein-protein interact...
Cancer is a complex disease that results from alterations in genes that control the growth and divis...
Background Delineating the molecular drivers of cancer, i.e. determining cancer genes and the pathwa...
Cancer is a complex disease that harbors substantial genetic heterogeneity. Recent advances in seque...
Abstract Background Most methods that integrate network and mutation data to study cancer focus on t...
Synthetic Lethal (SL) genetic interactions play a key role in various types of biological research, ...
<div><p>The decreasing cost of sequencing is leading to a growing repertoire of personal genomes. Ho...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
Genome-wide measurements of genomic state offer unprecedented opportunities for biological discovery...
<div><p>Synthetic Lethal (SL) genetic interactions play a key role in various types of biological re...
Cancer genome sequencing has shown that driver genes can often be distinguished not only by the elev...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
Many studies have shown that missense mutations might play an important role in carcinogenesis. Howe...
Genomics and genome screening are proving central to the study of cancer. However, a good appreciati...
Recently it has been shown that cancer mutations selectively target protein-protein interactions. We...
<div><p>Recently it has been shown that cancer mutations selectively target protein-protein interact...
Cancer is a complex disease that results from alterations in genes that control the growth and divis...
Background Delineating the molecular drivers of cancer, i.e. determining cancer genes and the pathwa...
Cancer is a complex disease that harbors substantial genetic heterogeneity. Recent advances in seque...
Abstract Background Most methods that integrate network and mutation data to study cancer focus on t...
Synthetic Lethal (SL) genetic interactions play a key role in various types of biological research, ...
<div><p>The decreasing cost of sequencing is leading to a growing repertoire of personal genomes. Ho...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
Genome-wide measurements of genomic state offer unprecedented opportunities for biological discovery...
<div><p>Synthetic Lethal (SL) genetic interactions play a key role in various types of biological re...
Cancer genome sequencing has shown that driver genes can often be distinguished not only by the elev...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
Many studies have shown that missense mutations might play an important role in carcinogenesis. Howe...
Genomics and genome screening are proving central to the study of cancer. However, a good appreciati...