Transposable Element Diversity Remains High in Gigantic Genomes

Autor: Rachel Lockridge Mueller, Ava Louise Haley
Rok vydání: 2022
Předmět:
Zdroj: Journal of Molecular Evolution. 90:332-341
ISSN: 1432-1432
0022-2844
DOI: 10.1007/s00239-022-10063-3
Popis: Transposable elements (TEs) are repetitive sequences of DNA that replicate and proliferate throughout genomes. Taken together, all the TEs in a genome form a diverse community of sequences, which can be studied to draw conclusions about genome evolution. TE diversity can be measured using models for ecological community diversity that consider species richness and evenness. Several models predict TE diversity decreasing as genomes expand because of selection against ectopic recombination and/or competition among TEs to garner host replicative machinery and evade host silencing mechanisms. Salamanders have some of the largest vertebrate genomes and highest TE loads. Salamanders of the genus Plethodon, in particular, have genomes that range in size from 20 to 70 Gb. Here, we use Oxford Nanopore sequencing to generate low-coverage genomic sequences for four species of Plethodon that encompass two independent genome expansion events, one in the eastern clade (P. cinereus, 29.3 Gb vs. P. glutinosus, 38.9 Gb) and one in the western clade (P. vehiculum, 46.4 Gb vs P. idahoensis, 67.0 Gb). We classified the TEs in these genomes and found ~52 TE superfamilies, accounting for 27-32% of the genomes. We calculated Simpson’s and Shannon’s diversity indices to quantify overall TE diversity. In both pairwise comparisons, the diversity index values for the smaller and larger genome were almost identical. This result indicates that, when genomes reach extremely large sizes, they maintain high levels of TE diversity at the superfamily level, in contrast to predictions made by previous studies on smaller genomes.
Databáze: OpenAIRE
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