The evolution of new biochemical activities frequently involves complex dependencies between mutations and rapid evolutionary radiation. Mutation co-occurrence and covariation have previously been used to identify compensating mutations that are the result of physical contacts and preserve protein function and fold. Here, we model pairwise functional dependencies and higher order interactions that enable evolution of new protein functions. We use a network model to find complex dependencies between mutations resulting from evolutionary trade-offs and pleiotropic effects. We present a method to construct these networks and to identify functionally interacting mutations in both extant and reconstructed ancestral sequences (Network Analysis of...
Amino acids committed to a particular function correlate tightly along evolution and tend to form cl...
Revolutionary advances in sequencing technology have dramatically expanded the set of known, natural...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...
The evolution of new biochemical activities frequently involves complex dependencies between mutatio...
Proteins often evolve new functions by acquiring a small number of mutations in an ancestral sequenc...
Abstract Background Functional constraint through genomic architecture is suggested to be an importa...
Cellular functions are based on the complex interplay of proteins, therefore the structure and dynam...
Proteins perform most of the specialized functions we require at a molecular level--they serve in ca...
As whole-genome protein-protein interaction datasets become available for a wide range of species, e...
Understanding the mechanisms of evolution requires identification of the molecular basis of the mult...
Molecular function is the result of proteins working together, mediated by highly specific interacti...
We assume that the functional relations that a protein engages in, influences it’s evolutionary dyna...
The recent availability of protein–protein interaction networks for several species makes it possibl...
Amino acid mutations in proteins are random and those mutations which are beneficial or neutral surv...
Amino acids committed to a particular function correlate tightly along evolution and tend to form cl...
Amino acids committed to a particular function correlate tightly along evolution and tend to form cl...
Revolutionary advances in sequencing technology have dramatically expanded the set of known, natural...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...
The evolution of new biochemical activities frequently involves complex dependencies between mutatio...
Proteins often evolve new functions by acquiring a small number of mutations in an ancestral sequenc...
Abstract Background Functional constraint through genomic architecture is suggested to be an importa...
Cellular functions are based on the complex interplay of proteins, therefore the structure and dynam...
Proteins perform most of the specialized functions we require at a molecular level--they serve in ca...
As whole-genome protein-protein interaction datasets become available for a wide range of species, e...
Understanding the mechanisms of evolution requires identification of the molecular basis of the mult...
Molecular function is the result of proteins working together, mediated by highly specific interacti...
We assume that the functional relations that a protein engages in, influences it’s evolutionary dyna...
The recent availability of protein–protein interaction networks for several species makes it possibl...
Amino acid mutations in proteins are random and those mutations which are beneficial or neutral surv...
Amino acids committed to a particular function correlate tightly along evolution and tend to form cl...
Amino acids committed to a particular function correlate tightly along evolution and tend to form cl...
Revolutionary advances in sequencing technology have dramatically expanded the set of known, natural...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...