Impact of transposable elements on genome size variation between two closely related crustacean species

Abstract

Identifying and quantifying genome size variation among species and understanding the underlying causes is a long-standing objective in evolutionary biology. Here, we investigated the basis of genome size variation between two closely related species of terrestrial isopods: Armadillidium vulgare and Armadillidium nasatum. The two species diverged 25 million years ago and the A. vulgare genome is ~500 megabases larger than the A. nasatum genome (1.7 vs. 1.2 gigabases, respectively). Our analyses indicated that genome size difference is essentially attributed to transposable elements (TEs). We found that the deletion rate may be slightly higher in A. nasatum than in A. vulgare, but it is unlikely to explain the observed genome size difference. As the two genomes largely share the same TE families, differential transpositional activity also contributes to the observed variation. Analyses of TE expression suggested that the cumulative expression level of all expressed TEs was higher in A. nasatum than in A. vulgare. Assuming TE expression level is a good proxy for TE transpositional activity, our results suggest that the two species may have recently been experiencing different TE transposition dynamics. Overall, our results illustrate the important impact TEs can have on genome structure and evolution between closely related species.