Telomeric DNA sequences in beetle taxa vary with species richness

Warning

This publication doesn't include Faculty of Arts. It includes Faculty of Science. Official publication website can be found on muni.cz.
Authors

PRUŠÁKOVÁ Daniela PESKA Vratislav PEKÁR Stanislav BUBENÍK Michal ČÍŽEK Lukáš BEZDĚK Aleš ČAPKOVÁ FRYDRYCHOVÁ Radmila

Year of publication 2021
Type Article in Periodical
Magazine / Source Nature Scientific Reports
MU Faculty or unit

Faculty of Science

Citation
Web https://doi.org/10.1038/s41598-021-92705-y
Doi http://dx.doi.org/10.1038/s41598-021-92705-y
Keywords COLEOPTERA; PHYLOGENY; EVOLUTION; RECOMBINATION; ADEPHAGA; REPEATS; LENGTH; PLANT; MOTIF; ENDS
Description Telomeres are protective structures at the ends of eukaryotic chromosomes, and disruption of their nucleoprotein composition usually results in genome instability and cell death. Telomeric DNA sequences have generally been found to be exceptionally conserved in evolution, and the most common pattern of telomeric sequences across eukaryotes is (T(x)A(y)G(z))(n) maintained by telomerase. However, telomerase-added DNA repeats in some insect taxa frequently vary, show unusual features, and can even be absent. It has been speculated about factors that might allow frequent changes in telomere composition in Insecta. Coleoptera (beetles) is the largest of all insect orders and based on previously available data, it seemed that the telomeric sequence of beetles varies to a great extent. We performed an extensive mapping of the (TTAGG)(n) sequence, the ancestral telomeric sequence in Insects, across the main branches of Coleoptera. Our study indicates that the (TTAGG)(n) sequence has been repeatedly or completely lost in more than half of the tested beetle superfamilies. Although the exact telomeric motif in most of the (TTAGG)(n)-negative beetles is unknown, we found that the (TTAGG)(n) sequence has been replaced by two alternative telomeric motifs, the (TCAGG)(n) and (TTAGGG)(n), in at least three superfamilies of Coleoptera. The diversity of the telomeric motifs was positively related to the species richness of taxa, regardless of the age of the taxa. The presence/absence of the (TTAGG)(n) sequence highly varied within the Curculionoidea, Chrysomeloidea, and Staphylinoidea, which are the three most diverse superfamilies within Metazoa. Our data supports the hypothesis that telomere dysfunctions can initiate rapid genomic changes that lead to reproductive isolation and speciation.
Related projects:

You are running an old browser version. We recommend updating your browser to its latest version.