X Chromosome Evolution in Cetartiodactyla

The phenomenon of a remarkable conservation of the X chromosome in eutherian mammals has been first described by Susumu Ohno in 1964. A notable exception is the cetartiodactyl X chromosome, which varies widely in morphology and G-banding pattern between species. It is hypothesized that this sex chro...

Full description

Bibliographic Details
Main Authors: Proskuryakova, Anastasiya A., Kulemzina, Anastasia I., Perelman, Polina L., Makunin, Alexey I., Larkin, Denis M., Farre, Marta, Kukekova, Anna V., Johnson, Jennifer Lynn, Lemskaya, Natalya A., Beklemisheva, Violetta R., Roelke-Parker, M., Bellizzi, June, Ryder, Oliver A., O'Brien, Stephen James, Graphodatsky, Alexander S.
Format: Article in Journal/Newspaper
Language:unknown
Published: NSUWorks 2017
Subjects:
Pecora
Ruminantia
Cattle bacterial artificial chromosome (BAC) clones
Fluorescent in situ hybridization (FISH)
Intrachromosomal rearrangements
Centromere reposition
Inversion
Genetics and Genomics
Life Sciences
muskox
Online Access:https://nsuworks.nova.edu/cnso_bio_facarticles/845
https://nsuworks.nova.edu/cgi/viewcontent.cgi?article=1870&context=cnso_bio_facarticles
Description
Summary:The phenomenon of a remarkable conservation of the X chromosome in eutherian mammals has been first described by Susumu Ohno in 1964. A notable exception is the cetartiodactyl X chromosome, which varies widely in morphology and G-banding pattern between species. It is hypothesized that this sex chromosome has undergone multiple rearrangements that changed the centromere position and the order of syntenic segments over the last 80 million years of Cetartiodactyla speciation. To investigate its evolution we have selected 26 evolutionarily conserved bacterial artificial chromosome (BAC) clones from the cattle CHORI-240 library evenly distributed along the cattle X chromosome. High-resolution BAC maps of the X chromosome on a representative range of cetartiodactyl species from different branches: pig (Suidae), alpaca (Camelidae), gray whale (Cetacea), hippopotamus (Hippopotamidae), Java mouse-deer (Tragulidae), pronghorn (Antilocapridae), Siberian musk deer (Moschidae), and giraffe (Giraffidae) were obtained by fluorescent in situ hybridization. To trace the X chromosome evolution during fast radiation in specious families, we performed mapping in several cervids (moose, Siberian roe deer, fallow deer, and Pere David’s deer) and bovid (muskox, goat, sheep, sable antelope, and cattle) species. We have identified three major conserved synteny blocks and rearrangements in different cetartiodactyl lineages and found that the recently described phenomenon of the evolutionary new centromere emergence has taken place in the X chromosome evolution of Cetartiodactyla at least five times. We propose the structure of the putative ancestral cetartiodactyl X chromosome by reconstructing the order of syntenic segments and centromere position for key groups.

Similar Items