The translation of personal genomics to precision medicine depends on the accurate interpretation of the multitude of genetic variants observed for each individual. However, even when genetic variants are predicted to modify a protein, their functional implications may be unclear. Many diseases are caused by genetic variants affecting important protein features, such as enzyme active sites or interaction interfaces. The scientific community has catalogued millions of genetic variants in genomic databases and thousands of protein structures in the Protein Data Bank. Mapping mutations onto three-dimensional (3D) structures enables atomic-level analyses of protein positions that may be important for the stability or formation of interactions; ...
Background: The phenotypic effects of sequence variations in protein-coding regions come about prima...
Clinical genetic testing has undergone a dramatic transformation in the past two decades. Diagnostic...
The DNA sequencing technology developed by Frederick Sanger in the 1970s established genomics as the...
The translation of personal genomics to precision medicine depends on the accurate interpretation of...
The translation of personal genomics to precision medicine depends on the accurate interpretation of...
Proteins are integral to all cellular processes and underpin the function of all extant organisms, m...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
The interpretation of human genetic variation is one of the greatest challenges of modern genetics. ...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
Inference of the structural and functional consequences of amino acid-altering missense variants is ...
peer reviewedInterpretation of the colossal number of genetic variants identified from sequencing ap...
Understanding genetic variation is the basis for prevention and diagnosis of inherited disease. In t...
Data generation is rapidly progressing and data interpretation is hardly keeping up. New tools and a...
The large amount of genetic, phenotypic, and structural data from diverse conditions and environment...
Background: The phenotypic effects of sequence variations in protein-coding regions come about prima...
Clinical genetic testing has undergone a dramatic transformation in the past two decades. Diagnostic...
The DNA sequencing technology developed by Frederick Sanger in the 1970s established genomics as the...
The translation of personal genomics to precision medicine depends on the accurate interpretation of...
The translation of personal genomics to precision medicine depends on the accurate interpretation of...
Proteins are integral to all cellular processes and underpin the function of all extant organisms, m...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
The interpretation of human genetic variation is one of the greatest challenges of modern genetics. ...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
Inference of the structural and functional consequences of amino acid-altering missense variants is ...
peer reviewedInterpretation of the colossal number of genetic variants identified from sequencing ap...
Understanding genetic variation is the basis for prevention and diagnosis of inherited disease. In t...
Data generation is rapidly progressing and data interpretation is hardly keeping up. New tools and a...
The large amount of genetic, phenotypic, and structural data from diverse conditions and environment...
Background: The phenotypic effects of sequence variations in protein-coding regions come about prima...
Clinical genetic testing has undergone a dramatic transformation in the past two decades. Diagnostic...
The DNA sequencing technology developed by Frederick Sanger in the 1970s established genomics as the...