As the cost of DNA sequencing drops, we are moving beyond one genome per species to one genome per individual to improve prevention, diagnosis, and treatment of disease by using personal genotypes. Computational methods are frequently applied to predict impairment of gene function by nonsynonymous mutations in individual genomes and single nucleotide polymorphisms (nSNPs) in populations. These computational tools are, however, known to fail 15%–40% of the time. We find that accurate discrimination between benign and deleterious mutations is strongly influenced by the long-term (among species) history of positions that harbor those mutations. Successful prediction of known disease-associated mutations (DAMs) is much higher for evolutionarily...
Predicting the functional impact of a protein variation is one of the most challenging problems in B...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
Understanding the functional sequelae of amino-acid replacements is of fundamental importance in med...
Background: Amino acid mutations in a large number of human proteins are known to be associated with...
International genome sequencing projects have produced billions of nucleotides (letters) of DNA sequ...
Understanding genetic variation is the basis for prevention and diagnosis of inherited disease. In t...
AbstractSome mutations of protein residues matter more than others, and these are often conserved ev...
BACKGROUND: Genome-wide association studies of common diseases for common, low penetrance causal var...
<div><p>The 1000 Genomes Project data provides a natural background dataset for amino acid germline ...
There are more than 500 amino acid substitutions in each human genome, and bioinformatics tools irre...
Motivation: Advances in high-throughput genotyping and next generation sequencing have generated a v...
Quantifying the distribution of fitness effects among newly arising mutations in the human genome is...
Abstract Background Genetic variations contribute to ...
The 1000 Genomes Project data provides a natural background dataset for amino acid germline mutation...
none2High-throughput genotyping and sequencing techniques are rapidly and inexpensively providing la...
Predicting the functional impact of a protein variation is one of the most challenging problems in B...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
Understanding the functional sequelae of amino-acid replacements is of fundamental importance in med...
Background: Amino acid mutations in a large number of human proteins are known to be associated with...
International genome sequencing projects have produced billions of nucleotides (letters) of DNA sequ...
Understanding genetic variation is the basis for prevention and diagnosis of inherited disease. In t...
AbstractSome mutations of protein residues matter more than others, and these are often conserved ev...
BACKGROUND: Genome-wide association studies of common diseases for common, low penetrance causal var...
<div><p>The 1000 Genomes Project data provides a natural background dataset for amino acid germline ...
There are more than 500 amino acid substitutions in each human genome, and bioinformatics tools irre...
Motivation: Advances in high-throughput genotyping and next generation sequencing have generated a v...
Quantifying the distribution of fitness effects among newly arising mutations in the human genome is...
Abstract Background Genetic variations contribute to ...
The 1000 Genomes Project data provides a natural background dataset for amino acid germline mutation...
none2High-throughput genotyping and sequencing techniques are rapidly and inexpensively providing la...
Predicting the functional impact of a protein variation is one of the most challenging problems in B...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
Understanding the functional sequelae of amino-acid replacements is of fundamental importance in med...