Sequence variation data of the human proteome can be used to analyze 3D protein structures to derive functional insights. We used genetic variant data from nearly 140,000 individuals to analyze 3D positional conservation in 4,715 proteins and 3,951 homology models using 860,292 missense and 465,886 synonymous variants. Sixty percent of protein structures harbor at least one intolerant 3D site as defined by significant depletion of observed over expected missense variation. Structural intolerance data correlated with deep mutational scanning functional readouts for PPARG, MAPK1/ERK2, UBE2I, SUMO1, PTEN, CALM1, CALM2, and TPK1 and with shallow mutagenesis data for 1,026 proteins. The 3D structural intolerance analysis revealed different featu...
open4noModern sequencing technologies provide an unprecedented amount of data of single-nucleotide v...
The interpretation of human genetic variation is one of the greatest challenges of modern genetics. ...
SummaryMost known disease-associated mutations are missense mutations involving changes of amino aci...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
peer reviewedInterpretation of the colossal number of genetic variants identified from sequencing ap...
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...
peer reviewedElucidating molecular consequences of amino-acid-altering missense variants at scale is...
The functional interpretation of genetic variation in disease-associated genes is far outpaced by da...
The Protein Data Bank (PDB; http://wwpdb.org) was established in 1971 as the first open access digit...
The Protein Data Bank (PDB; http://wwpdb.org) was established in 1971 as the first open access digit...
The identification of disease-causal variants is non-trivial. By mapping population variation from o...
The identification of disease-causal variants is non-trivial. By mapping population variation from o...
Functional repertoire, molecular pathways and diseases associated with 3D domain swapping in the hum...
Human genetic variation is the incarnation of diverse evolutionary history, which reflects both sele...
open4noModern sequencing technologies provide an unprecedented amount of data of single-nucleotide v...
The interpretation of human genetic variation is one of the greatest challenges of modern genetics. ...
SummaryMost known disease-associated mutations are missense mutations involving changes of amino aci...
Interpretation of the colossal number of genetic variants identified from sequencing applications is...
peer reviewedInterpretation of the colossal number of genetic variants identified from sequencing ap...
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...
peer reviewedElucidating molecular consequences of amino-acid-altering missense variants at scale is...
The functional interpretation of genetic variation in disease-associated genes is far outpaced by da...
The Protein Data Bank (PDB; http://wwpdb.org) was established in 1971 as the first open access digit...
The Protein Data Bank (PDB; http://wwpdb.org) was established in 1971 as the first open access digit...
The identification of disease-causal variants is non-trivial. By mapping population variation from o...
The identification of disease-causal variants is non-trivial. By mapping population variation from o...
Functional repertoire, molecular pathways and diseases associated with 3D domain swapping in the hum...
Human genetic variation is the incarnation of diverse evolutionary history, which reflects both sele...
open4noModern sequencing technologies provide an unprecedented amount of data of single-nucleotide v...
The interpretation of human genetic variation is one of the greatest challenges of modern genetics. ...
SummaryMost known disease-associated mutations are missense mutations involving changes of amino aci...