Journal
GENES
Volume 12, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/genes12091423
Keywords
adaptation; evolution; genomic; high elevation; Himalayas; Scincidae
Categories
Funding
- German Research Foundation [HO 3792/8-1]
- COFASP/ERANET (STURGEoNOMICS) by the German Federal Ministry of Food and Agriculture through the Federal Office for Agriculture and Food [2816ERA04G]
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The study presented annotated transcriptome data of the Ladakh Ground skink and identified positive selection for some genes in this species. Although the results are limited by the use of a single animal, the transcriptome resource could be valuable for further research on squamate reptile evolution in the Himalayas.
The Himalayan Arc is recognized as a global biodiversity hotspot. Among its numerous cryptic and undiscovered organisms, this composite high-mountain ecosystem harbors many taxa with adaptations to life in high elevations. However, evolutionary patterns and genomic features have been relatively rarely studied in Himalayan vertebrates. Here, we provide the first well-annotated transcriptome of a Greater Himalayan reptile species, the Ladakh Ground skink Asymblepharus ladacensis (Squamata: Scincidae). Based on tissues from the brain, an embryonic disc, and pooled organ material, using pair-end Illumina NextSeq 500 RNAseq, we assembled similar to 77,000 transcripts, which were annotated using seven functional databases. We tested similar to 1600 genes, known to be under positive selection in anurans and reptiles adapted to high elevations, and potentially detected positive selection for 114 of these genes in Asymblepharus. Even though the strength of these results is limited due to the single-animal approach, our transcriptome resource may be valuable data for further studies on squamate reptile evolution in the Himalayas as a hotspot of biodiversity.
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