The long-held principle that functionally important proteins evolve slowly has recently been challenged by studies in mice and yeast showing that the severity of a protein knockout only weakly predicts that protein's rate of evolution. However, the relevance of these studies to evolutionary changes within proteins is unknown, because amino acid substitutions, unlike knockouts, often only slightly perturb protein activity. To quantify the phenotypic effect of small biochemical perturbations, we developed an approach to use computational systems biology models to measure the influence of individual reaction rate constants on network dynamics. We show that this dynamical influence is predictive of protein domain evolutionary rate within networ...
The proteins of any organism evolve at disparate rates. A long list of factors affecting rates of pr...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
By analyzing complex biological networks, I explore the nascent field of systems biology to address ...
A fundamental question for evolutionary biology is why different proteins evolve at dramatically dif...
Studies of protein evolution typically take a coarse view of protein function. Here I take a much fi...
High-throughput screens have begun to reveal the protein interaction network that underpins most cel...
Interacting proteins may often experience similar selection pressures. Thus, we may expect that neig...
Background: The architectural structure of cellular networks provides a framework for innovations as...
The proteins of any organism evolve at disparate rates. A long list of factors affecting rates of pr...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...
<p>A: The measured correlation between protein domain evolutionary rate and dynamical influence vari...
Progress in uncovering the protein interaction networks of several species has led to questions of w...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
Evolution of biological systems requires players of multiple layers, from atoms and molecules to org...
Protein posttranslational regulation is a major facet of protein function, and efforts have been mad...
The proteins of any organism evolve at disparate rates. A long list of factors affecting rates of pr...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
By analyzing complex biological networks, I explore the nascent field of systems biology to address ...
A fundamental question for evolutionary biology is why different proteins evolve at dramatically dif...
Studies of protein evolution typically take a coarse view of protein function. Here I take a much fi...
High-throughput screens have begun to reveal the protein interaction network that underpins most cel...
Interacting proteins may often experience similar selection pressures. Thus, we may expect that neig...
Background: The architectural structure of cellular networks provides a framework for innovations as...
The proteins of any organism evolve at disparate rates. A long list of factors affecting rates of pr...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...
<p>A: The measured correlation between protein domain evolutionary rate and dynamical influence vari...
Progress in uncovering the protein interaction networks of several species has led to questions of w...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
Evolution of biological systems requires players of multiple layers, from atoms and molecules to org...
Protein posttranslational regulation is a major facet of protein function, and efforts have been mad...
The proteins of any organism evolve at disparate rates. A long list of factors affecting rates of pr...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
By analyzing complex biological networks, I explore the nascent field of systems biology to address ...