English

Yeast Protein Interactome Topology Provides Framework for Coordinated-Functionality

Molecular Networks 2009-09-29 v3 Other Condensed Matter Statistical Mechanics Other Quantitative Biology

Abstract

The architecture of the network of protein-protein physical interactions in Saccharomyces cerevisiae is exposed through the combination of two complementary theoretical network measures, betweenness centrality and `Q-modularity'. The yeast interactome is characterized by well-defined topological modules connected via a small number of inter-module protein interactions. Should such topological inter-module connections turn out to constitute a form of functional coordination between the modules, we speculate that this coordination is occurring typically in a pair-wise fashion, rather than by way of high-degree hub proteins responsible for coordinating multiple modules. The unique non-hub-centric hierarchical organization of the interactome is not reproduced by gene duplication-and-divergence stochastic growth models that disregard global selective pressures.

Keywords

Cite

@article{arxiv.q-bio/0505006,
  title  = {Yeast Protein Interactome Topology Provides Framework for Coordinated-Functionality},
  author = {Andre X. C. N. Valente and Michael E. Cusick},
  journal= {arXiv preprint arXiv:q-bio/0505006},
  year   = {2009}
}

Comments

Final, revised version. 13 pages. Please see Nucleic Acids open access article for higher resolution figures