Molecular Biology and Evolution

MBE Advance Access originally published online on November 3, 2004
Molecular Biology and Evolution 2005 22(3):501-505; doi:10.1093/molbev/msi034

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Molecular Biology and Evolution vol. 22 no. 3 © Society for Molecular Biology and Evolution 2004; all rights reserved.

Research Article

Divergence Pattern of Duplicate Genes in Protein-Protein Interactions Follows the Power Law

Ze Zhang^*, Z. W. Luo^*,, Hirohisa Kishino and Mike J. Kearsey

^* School of Biosciences, University of Birmingham, Birmingham, United Kingdom; Laboratory of Population and Quantitative Genetics, The State Key Laboratory of Genetic Engineering, Fudan University, Shanghai, China; and Graduate School of Agriculture and Life Sciences, University of Tokyo, Tokyo, Japan

E-mail: z.zhang.2{at}bham.ac.uk; z.luo{at}bham.ac.uk.

The impact of the biological network structures on the divergence between the two copies of one duplicate gene pair involved in the networks has not been documented on a genome scale. Having analyzed the most recently updated Database of Interacting Proteins (DIP) by incorporating the information for duplicate genes of the same age in yeast, we find that there was a highly significantly positive correlation between the level of connectivity of ancient genes and the number of shared partners of their duplicates in the protein-protein interaction networks. This suggests that duplicate genes with a low ancestral connectivity tend to provide raw materials for functional novelty, whereas those duplicate genes with a high ancestral connectivity tend to create functional redundancy for a genome during the same evolutionary period. Moreover, the difference in the number of partners between two copies of a duplicate pair was found to follow a power-law distribution. This suggests that loss and gain of interacting partners for most duplicate genes with a lower level of ancestral connectivity is largely symmetrical, whereas the "hub duplicate genes" with a higher level of ancient connectivity display an asymmetrical divergence pattern in protein-protein interactions. Thus, it is clear that the protein-protein interaction network structures affect the divergence pattern of duplicate genes. Our findings also provide insights into the origin and development of biological networks.

Key Words: Duplicate genes • protein-protein interactions • divergence • yeast • power law

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