Functional Partitioning of Yeast Co-Expression Networks after Genome Duplication
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Conant, G. C. & Wolfe, K. H. `Functional partitioning of yeast co-expression networks after genome duplication' in PLoS Biology, 4, 2006, p e109
Abstract
Several species of yeast, including the baker?s yeast Saccharomyces cerevisiae, underwent a genome duplication
roughly 100 million years ago. We analyze genetic networks whose members were involved in this duplication. Many
networks show detectable redundancy and strong asymmetry in their interactions. For networks of co-expressed
genes, we find evidence for network partitioning whereby the paralogs appear to have formed two relatively
independent subnetworks from the ancestral network. We simulate the degeneration of networks after duplication
and find that a model wherein the rate of interaction loss depends on the ``neighborliness?? of the interacting genes
produces networks with parameters similar to those seen in the real partitioned networks. We propose that the
rationalization of network structure through the loss of pair-wise gene interactions after genome duplication provides
a mechanism for the creation of semi-independent daughter networks through the division of ancestral functions
between these daughter networks.
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Sponsor: Science Foundation Ireland
Author's Homepage: http://people.tcd.ie/khwolfe
Publisher: Public Library of Science
Type of material: Journal Article

