To better understand the molecular mechanisms and genetic basis of human disease, we systematically examine relationships between 3,949 genes, 62,663 mutations and 3,453 associated disorders by generating a three-dimensional, structurally resolved human interactome. This network consists of 4,222 high-quality binary protein-protein interactions with their atomic-resolution interfaces. We find that in-frame mutations (missense point mutations and in-frame insertions and deletions) are enriched on the interaction interfaces of proteins associated with the corresponding disorders, and that the disease specificity for different mutations of the same gene can be explained by their location within an interface. We also predict 292 candidate genes...
AbstractProtein–protein interactions mediate essentially all biological processes. Despite the quali...
185 pagesA majority of protein function is mediated through direct binary or complex interactions wi...
Proteins are not monolithic entities; rather, they can contain multiple domains that mediate distinc...
To better understand the molecular mechanisms and genetic basis of human disease, we systematically ...
To better understand the molecular mechanisms and genetic basis of human disease, we systematically ...
With the rapid growth of structural genomics, numerous protein crystal structures have become availa...
189 pagesWe continue to better understand human disease through the study of human genetics and the ...
To better understand different molecular mechanisms by which mutations lead to various human disease...
Background: Previous studies of network properties of human disease genes have mainly focused on mon...
Previous studies of network properties of human disease genes have mainly focused on monogenic disea...
Background Previous studies of network properties of human disease genes have mainly focused on mono...
Background: Previous studies of network properties of human disease genes have mainly focused on mon...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
AbstractProtein–protein interactions mediate essentially all biological processes. Despite the quali...
185 pagesA majority of protein function is mediated through direct binary or complex interactions wi...
Proteins are not monolithic entities; rather, they can contain multiple domains that mediate distinc...
To better understand the molecular mechanisms and genetic basis of human disease, we systematically ...
To better understand the molecular mechanisms and genetic basis of human disease, we systematically ...
With the rapid growth of structural genomics, numerous protein crystal structures have become availa...
189 pagesWe continue to better understand human disease through the study of human genetics and the ...
To better understand different molecular mechanisms by which mutations lead to various human disease...
Background: Previous studies of network properties of human disease genes have mainly focused on mon...
Previous studies of network properties of human disease genes have mainly focused on monogenic disea...
Background Previous studies of network properties of human disease genes have mainly focused on mono...
Background: Previous studies of network properties of human disease genes have mainly focused on mon...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
AbstractProtein–protein interactions mediate essentially all biological processes. Despite the quali...
185 pagesA majority of protein function is mediated through direct binary or complex interactions wi...
Proteins are not monolithic entities; rather, they can contain multiple domains that mediate distinc...