On the other hand, focused screens may miss systems level trends, for example cross-talk between biological processes, that can play a role in disease [ 18]. Network edges can also represent Nutlin-3a supplier abstract relationships derived from biological knowledge. Gilman et al. built a network where all pairs of proteins are connected by a weighted edge representing the a priori expectation that the proteins participate in the same phenotype. Edge weights were based on evidence sources such as tissue-specific
expression, pathway membership, common functional annotations and similar domain composition [ 19]. They then searched over this network to identify the most functionally similar genes affected by de novo copy number variants (CNVs) in autism cases. The majority of known disease mutations annotated in the Human Gene Mutation Database (HGMD) cause changes
to the amino acid sequence of proteins [20]. These changes can have a spectrum of consequences ranging from completely abrogating protein activity to having no effect at all, and a variety of computational strategies have been selleck kinase inhibitor developed to predict the functional consequences of mutation at the protein level [21, 22 and 23]. Changes to a protein’s activity are indirectly linked to altered cellular behaviors by the network of molecular interactions in which it participates. Thus it has been proposed that to understand genotype–phenotype relationships it will be necessary to quantify the effects of mutations on molecular networks [24]. To investigate how interaction networks mediate phenotypic effects of mutations,
Zhong et al. experimentally profiled protein interactions for twenty-nine alleles associated with five genetic disorders [ 25]. This profiling suggested that mutations could have three distinct effects for the PPI network: they could eliminate all interactions, remove a subset www.selleck.co.jp/products/ch5424802.html of interactions, or have no effect on interactions. To more systematically study how mutations affect physical interaction networks, Wang et al. constructed a high quality PPI network with structurally resolved interaction interfaces [ 26•]. Using this network, they analyzed disease-associated mutations from OMIM [ 27] and HGMD and demonstrated enrichment for in-frame mutations such as or in-frame insertions and deletions at interaction interfaces. They also found that mutations occurring at distinct interaction interfaces in the same protein could explain many cases where a single gene is involved in multiple disorders (i.e. pleiotropy) or in disorders with multiple distinct modes of inheritance [ 25 and 26•]. Models of how PPIs are rewired by mutations, sometimes referred to as ‘network perturbation models’, may present a useful strategy for functionally prioritizing candidate disease mutations and developing hypotheses about biological processes underlying pathogenesis [4 and 25]. These models can also be used to analyze the combined effects of multiple mutation and expression changes.