AI Article Synopsis
- Zokors, a type of subterranean rodent, evolved from lowlands to high elevations after the Qinghai-Tibet plateau uplifted around 3.6 million years ago, adapting to hypoxia and hypercapnia.
- A genomic study of six zokor species revealed 18 significant chromosomal inversions in the high-elevation species Eospalax baileyi compared to its lower-elevation relatives.
- Genetic variations linked to the upregulation of key genes involved in hypoxia response and enhanced lung size in E. baileyi highlight the genetic adaptations that help these rodents thrive in oxygen-poor environments.
Article Abstract
Zokors, an Asiatic group of subterranean rodents, originated in lowlands and colonized high-elevational zones following the uplift of the Qinghai-Tibet plateau about 3.6 million years ago. Zokors live at high elevation in subterranean burrows and experience hypobaric hypoxia, including both hypoxia (low oxygen concentration) and hypercapnia (elevated partial pressure of CO). Here we report a genomic analysis of six zokor species (genus Eospalax) with different elevational ranges to identify structural variants (deletions and inversions) that may have contributed to high-elevation adaptation. Based on an assembly of a chromosome-level genome of the high-elevation species, Eospalax baileyi, we identified 18 large inversions that distinguished this species from congeners native to lower elevations. Small-scale structural variants in the introns of EGLN1, HIF1A, HSF1 and SFTPD of E. baileyi were associated with the upregulated expression of those genes. A rearrangement on chromosome 1 was associated with altered chromatin accessibility, leading to modified gene expression profiles of key genes involved in the physiological response to hypoxia. Multigene families that underwent copy-number expansions in E. baileyi were enriched for autophagy, HIF1 signalling and immune response. E. baileyi show a significantly larger lung mass than those of other Eospalax species. These findings highlight the key role of structural variants underlying hypoxia adaptation of high-elevation species in Eospalax.
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| http://dx.doi.org/10.1038/s41559-023-02275-7 | DOI Listing |
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