Transposable Element Diversity and Activity Patterns in Neotropical Salamanders

Artículo

 

Te invitamos a leer el artículo "Transposable Element Diversity and Activity Patterns in Neotropical Salamanders" publicado en Molecular Biology and Evolution, a cargo del profesor investigador Dr. Sean Rovito y su equipo de trabajo de la UGA.

Autores: Louis Paul Decena Segarra / Sean M. Rovito 

  1. Advanced Genomics Unit, Cinvestav, km 9.6 Libr. Nte. Irapuato-León, Irapuato, 36824, Gto., México

Felicitamos al estudiantado y profesorado que contribuyeron en esta investigación por su arduo trabajo.

Abstract:

Transposable elements (TEs) compose a substantial proportion of the largest eukaryotic genomes. TE diversity has been hypothesized to be negatively correlated with genome size, yet empirical demonstrations of such a relationship in a phylogenetic context are largely lacking. Furthermore, the most abundant type of TEs in genomes varies across groups, and it is not clear if there are patterns of TE activity consistent with genome size among different taxa with large genome sizes. We use low-coverage sequencing of 16 species of Neotropical salamanders, which vary ∼7-fold in genome size, to estimate TE relative abundance and diversity for each species. We also compare the divergence of copies of each TE superfamily to estimate patterns of TE activity in each species. We find a negative relationship between TE diversity and genome size, which is consistent with the hypothesis that either competition among TEs or reduced selection against ectopic recombination may result in lower diversity in the largest genomes. We also find divergent activity patterns in the largest versus the smallest genomes, suggesting that the history of TE activity may explain differences in genome size. Our results suggest that both TE diversity and relative abundance may be predictable, at least within taxonomic groups.


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11/11/2024 01:41:23 p. m.