Abstract
BackgroundGene duplication is an important mechanism that can lead to the emergence of new functions during evolution. The impact of duplication on the mode of gene evolution has been the subject of several theoretical and empirical comparative-genomic studies. It has been shown that, shortly after the duplication, genes seem to experience a considerable relaxation of purifying selection.ResultsHere we demonstrate two opposite effects of gene duplication on evolutionary rates. Sequence comparisons between paralogs show that, in accord with previous observations, a substantial acceleration in the evolution of paralogs occurs after duplication, presumably due to relaxation of purifying selection. The effect of gene duplication on evolutionary rate was also assessed by sequence comparison between orthologs that have paralogs (duplicates) and those that do not (singletons). It is shown that, in eukaryotes, duplicates, on average, evolve significantly slower than singletons. Eukaryotic ortholog evolutionary rates for duplicates are also negatively correlated with the number of paralogs per gene and the strength of selection between paralogs. A tally of annotated gene functions shows that duplicates tend to be enriched for proteins with known functions, particularly those involved in signaling and related cellular processes; by contrast, singletons include an over-abundance of poorly characterized proteins.ConclusionsThese results suggest that whether or not a gene duplicate is retained by selection depends critically on the pre-existing functional utility of the protein encoded by the ancestral singleton. Duplicates of genes of a higher biological import, which are subject to strong functional constraints on the sequence, are retained relatively more often. Thus, the evolutionary trajectory of duplicated genes appears to be determined by two opposing trends, namely, the post-duplication rate acceleration and the generally slow evolutionary rate owing to the high level of functional constraints.
Highlights
Gene duplication is an important mechanism that can lead to the emergence of new functions during evolution
Sequence substitution levels of orthologs and gene duplication Orthologous protein sequence pairs were identified for human and mouse as described under Methods
For pairs of human-mouse orthologs, within-genome sequence comparisons were used to classify them as duplicates or singletons, based on whether or not they had detectable paralogs, and the average sequence divergence levels for these two classes of genes were compared
Summary
Gene duplication is an important mechanism that can lead to the emergence of new functions during evolution. Studies on the evolutionary rates of duplicated genes showed that acceleration tends to occur immediately following duplication [5,6]. These rate accelerations may be due to either a relaxation of purifying selection on (page number not for citation purposes). BMC Evolutionary Biology 2004, 4:22 http://www.biomedcentral.com/1471-2148/4/22 one or both gene duplicates or to the action of positive diversifying selection between the duplicates (or some combination of both factors) [7,8] It is achieved, the evolutionary rate acceleration appears to be an important mechanism leading to functional diversification of duplicates [9,10]. Detailed studies of the effect of duplication on site-specific rates showed an increased proportion of changes in highly constrained sites, which seems to be well compatible with subfunctionalization [18]
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