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https://doi.org/10.1103/physreve.70.051908
Copy DOIJournal: Physical Review E | Publication Date: Nov 17, 2004 |
Citations: 3 |
Gene duplication followed by adaptive evolution is thought to be a central mechanism for the emergence of novel genes. To illuminate the contribution of duplicated protein-coding sequences to the complexity of the human genome, we study the connectivity of pairwise sequence-related human proteins and construct a network (N) of linked protein sequences with shared similarities. We find that (i) the connectivity distribution P (k) for k sequence-related proteins decays as a power law P (k) approximately k(-gamma) with gamma approximately 1.2 , (ii) the top rank of N consists of a single large cluster of proteins ( approximately 70%) , while bottom ranks consist of multiple isolated clusters, and (iii) structural characteristics of N show both a high degree of clustering and an intermediate connectivity ("small-world" features). We gain further insight into structural properties of N by studying the relationship between the connectivity distribution and the phylogenetic conservation of proteins in bacteria, plants, invertebrates, and vertebrates. We find that (iv) the proportion of sequence-related proteins increases with increasing extent of evolutionary conservation. Our results support that small-world network properties constitute a footprint of an evolutionary mechanism and extend the traditional interpretation of protein families.
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