Abstract
BackgroundGene duplication events play an important role in the evolution and adaptation of organisms. Duplicated genes can arise through different mechanisms, including whole-genome duplications (WGDs). Recently, WGD was suggested to be an important driver of evolution, also in hexapod animals.ResultsHere, we analyzed 20 high-quality hexapod genomes using whole-paranome distributions of estimated synonymous distances (KS), patterns of within-genome co-linearity, and phylogenomic gene tree-species tree reconciliation methods. We observe an abundance of gene duplicates in the majority of these hexapod genomes, yet we find little evidence for WGD. The majority of gene duplicates seem to have originated through small-scale gene duplication processes. We did detect segmental duplications in six genomes, but these lacked the within-genome co-linearity signature typically associated with WGD, and the age of these duplications did not coincide with particular peaks in KS distributions. Furthermore, statistical gene tree-species tree reconciliation failed to support all but one of the previously hypothesized WGDs.ConclusionsOur analyses therefore provide very limited evidence for WGD having played a significant role in the evolution of hexapods and suggest that alternative mechanisms drive gene duplication events in this group of animals. For instance, we propose that, along with small-scale gene duplication events, episodes of increased transposable element activity could have been an important source for gene duplicates in hexapods.
Highlights
Gene duplication events play an important role in the evolution and adaptation of organisms
Synonymous divergence and co-linearity among gene pairs Gene duplicate age distributions were inferred by estimating the expected number of synonymous substitutions per synonymous site across the paranome following the approach of Vanneste et al [24]
Ancient whole-genome duplications (WGDs) result in a characteristic pattern of a peak in distributions of gene duplicates of similar age that tend to be in co-linear regions within a genome
Summary
Gene duplication events play an important role in the evolution and adaptation of organisms. Duplicated genes can arise through different mechanisms, including whole-genome duplications (WGDs). WGD was suggested to be an important driver of evolution, in hexapod animals. Gene duplication is an important source of genetic variation that can propel adaptive evolution and speciation [1, 2]. Ancient WGDs are hypothesized to have played a role in the evolution of teleost fish, mollusks [15], and arthropods [16,17,18]. Gene and genome duplications may have played an important role in generating this diversity, yet patterns of duplication in this group are still under discussion. With the recent availability of high-quality invertebrate genome sequences, several cases of largescale gene duplication and potential WGDs have been identified.
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