Whole genome protein-protein association networks are not random and their topological properties stem from genome evolution mechanisms. In fact, more connected, but less clustered proteins are related to genes that, in general, present more paralogs as compared to other genes, indicating frequent previous gene duplication episodes. On the other hand, genes rel''ated to conserved biological functions present few or no paralogs and yield proteins that are highly connected and clustered. These general network characteristics must have an evolutionary explanation. Considering data from STRING database, we present here experimental evidence that, more than not being scale free, protein degree distributions of organisms present an increased prob...
Abstract Background A protein-protein interaction network (PIN) was suggested to be a disassortative...
The next step in the understanding of the genome organization, after the determination of complete s...
Background: Selective gene duplicability, the extensive expansion of a small number of gene families...
Whole genome protein-protein association networks are not random and their topological properties st...
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...
Genomes maybe organized as networks where protein-protein association plays the role of network link...
Background: We report an analysis of a protein network of functionally linked proteins, identified f...
The topology of the proteome map revealed by recent large-scale hybridization methods has shown that...
The impact of the biological network structures on the divergence between the two copies of one dupl...
By combining phylogenetic, proteomic and structural information, we have elucidated the evolutionary...
We assume that the functional relations that a protein engages in, influences it’s evolutionary dyna...
Molecular interaction networks have emerged as a powerful data source for answering a plethora of bi...
Gene duplication has long been acknowledged by biologists as a major evolutionary force shaping geno...
Gene duplication has long been acknowledged by biologists as a major evolutionary force shaping geno...
Abstract Background A protein-protein interaction network (PIN) was suggested to be a disassortative...
The next step in the understanding of the genome organization, after the determination of complete s...
Background: Selective gene duplicability, the extensive expansion of a small number of gene families...
Whole genome protein-protein association networks are not random and their topological properties st...
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...
Genomes maybe organized as networks where protein-protein association plays the role of network link...
Background: We report an analysis of a protein network of functionally linked proteins, identified f...
The topology of the proteome map revealed by recent large-scale hybridization methods has shown that...
The impact of the biological network structures on the divergence between the two copies of one dupl...
By combining phylogenetic, proteomic and structural information, we have elucidated the evolutionary...
We assume that the functional relations that a protein engages in, influences it’s evolutionary dyna...
Molecular interaction networks have emerged as a powerful data source for answering a plethora of bi...
Gene duplication has long been acknowledged by biologists as a major evolutionary force shaping geno...
Gene duplication has long been acknowledged by biologists as a major evolutionary force shaping geno...
Abstract Background A protein-protein interaction network (PIN) was suggested to be a disassortative...
The next step in the understanding of the genome organization, after the determination of complete s...
Background: Selective gene duplicability, the extensive expansion of a small number of gene families...