Current-day genomes bear the mark of the evolutionary processes. One of the strongest indications is the sequence homology among families of proteins that perform similar biological functions in different species. The number of proteins in a family can grow over time as genetic information is duplicated through evolution. We explore how evolution directs the size distribution of these families. Theoretical predictions for family sizes are obtained from two models, one in which individual genes duplicate and a second in which the entire genome duplicates. Predictions from these models are compared with the family size distributions for several organisms whose complete genome sequence is known. We find that protein family size distributions i...
<div><p>Whole genome protein-protein association networks are not random and their topological prope...
Whole genome protein-protein association networks are not random and their topological properties st...
Christine Vogel is with Medical Research Council Laboratory of Molecular Biology and UT Austin, Cyru...
ABSTRACT It has been observed that the size of protein sequence families is unevenly distrib-uted, w...
Among several quantitative invariants found in evolutionary genomics, one of the most striking is th...
We propose and study a class-expansion/innovation/loss model of genome evolution taking into account...
[[abstract]]The evolution of duplicate genes has been a topic of broad interest. Here we propose tha...
Background: Power distributions appear in numerous biological, physical and other contexts, which ap...
This is the publisher's version, also available electronically from http://genome.cshlp.org/content/...
Genomes maybe organized as networks where protein-protein association plays the role of network link...
Biology is primarily concerned with the study of all phenotypic aspects of living organisms and evol...
We compare the frequency distribution of gene family sizes in the complete genomes of six bacteria (...
Protein domains are found on genomes with notable statistical distributions, which bear a high degre...
Comparison of whole genomes has revealed that changes in the size of gene families among organisms i...
Whole genome protein-protein association networks are not random and their topological properties st...
<div><p>Whole genome protein-protein association networks are not random and their topological prope...
Whole genome protein-protein association networks are not random and their topological properties st...
Christine Vogel is with Medical Research Council Laboratory of Molecular Biology and UT Austin, Cyru...
ABSTRACT It has been observed that the size of protein sequence families is unevenly distrib-uted, w...
Among several quantitative invariants found in evolutionary genomics, one of the most striking is th...
We propose and study a class-expansion/innovation/loss model of genome evolution taking into account...
[[abstract]]The evolution of duplicate genes has been a topic of broad interest. Here we propose tha...
Background: Power distributions appear in numerous biological, physical and other contexts, which ap...
This is the publisher's version, also available electronically from http://genome.cshlp.org/content/...
Genomes maybe organized as networks where protein-protein association plays the role of network link...
Biology is primarily concerned with the study of all phenotypic aspects of living organisms and evol...
We compare the frequency distribution of gene family sizes in the complete genomes of six bacteria (...
Protein domains are found on genomes with notable statistical distributions, which bear a high degre...
Comparison of whole genomes has revealed that changes in the size of gene families among organisms i...
Whole genome protein-protein association networks are not random and their topological properties st...
<div><p>Whole genome protein-protein association networks are not random and their topological prope...
Whole genome protein-protein association networks are not random and their topological properties st...
Christine Vogel is with Medical Research Council Laboratory of Molecular Biology and UT Austin, Cyru...