We investigate how a protein's structure influences the rate at which its sequence evolves. Our basic hypothesis is that proteins with highly designable structures (structures that are encoded by many sequences) will evolve more rapidly. Recent theoretical advances argue that structures with a higher density of interresidue contacts are more designable, and we show that high contact density is correlated with an increased rate of sequence evolution in yeast. In addition, we investigate the correlations between the rate of sequence evolution and several other structural descriptors, carefully controlling for the strong effect of expression level on evolutionary rate. Overall, we find that the structural descriptors that we consider appear to...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
The binding sites of sequence specific transcription factors are an important and relatively well-un...
Various structural and functional constraints govern the evolution of protein sequences. As a result...
be.oxfordjournals.org/ D ow nloaded from We investigate how a protein's structure in uences the...
Much recent work has explored molecular and population-genetic constraints on the rate of protein se...
High-throughput screens have begun to reveal the protein interaction network that underpins most cel...
Protein structure mediates site-specific patterns of sequence divergence. In particular, residues in...
[[abstract]]It is of fundamental importance to understand the determinants of the rate of protein ev...
SummaryGenome-wide studies in Saccharomyces cerevisiae concluded that the dominant determinant of pr...
The rate of protein evolution varies more than 1000-fold and, for the past 30 years, it was thought ...
Abstract Background Protein structure mediates site-specific patterns of sequence divergence. In par...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...
AbstractTo understand the variation of protein sequences in nature, we need to reckon with evolution...
Background: The binding sites of sequence specific transcription factors are an important and relat...
BACKGROUND: Protein evolution is particularly shaped by the conservation of the amino acids' physico...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
The binding sites of sequence specific transcription factors are an important and relatively well-un...
Various structural and functional constraints govern the evolution of protein sequences. As a result...
be.oxfordjournals.org/ D ow nloaded from We investigate how a protein's structure in uences the...
Much recent work has explored molecular and population-genetic constraints on the rate of protein se...
High-throughput screens have begun to reveal the protein interaction network that underpins most cel...
Protein structure mediates site-specific patterns of sequence divergence. In particular, residues in...
[[abstract]]It is of fundamental importance to understand the determinants of the rate of protein ev...
SummaryGenome-wide studies in Saccharomyces cerevisiae concluded that the dominant determinant of pr...
The rate of protein evolution varies more than 1000-fold and, for the past 30 years, it was thought ...
Abstract Background Protein structure mediates site-specific patterns of sequence divergence. In par...
AbstractThe rate of evolution-related mutation varies widely among proteins while the unity of the o...
AbstractTo understand the variation of protein sequences in nature, we need to reckon with evolution...
Background: The binding sites of sequence specific transcription factors are an important and relat...
BACKGROUND: Protein evolution is particularly shaped by the conservation of the amino acids' physico...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
The binding sites of sequence specific transcription factors are an important and relatively well-un...
Various structural and functional constraints govern the evolution of protein sequences. As a result...