Journal
G3-GENES GENOMES GENETICS
Volume 11, Issue 12, Pages -Publisher
OXFORD UNIV PRESS INC
DOI: 10.1093/g3journal/jkab315
Keywords
whole-genome sequencing; de novo assembly; tree squirrels; candidate genes; heme biosynthesis; color vision; hibernation; eastern fox squirrel; Sciurus niger; Sciuridae
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Funding
- Virginia Museum of Natural History Foundation
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The eastern fox squirrel, Sciurus niger, displays significant geographic variation in size and coat color. The assembled genome shows high completeness and annotation rates, making it valuable for comparative studies, population genomics, and biomedical research. The predicted amino acid sequence alignments reveal potential point mutations and indels that may impact protein function and ecological adaptation.
The eastern fox squirrel, Sciurus niger, exhibits marked geographic variation in size and coat color, is a model organism for studies of behavior and ecology, and a potential model for investigating physiological solutions to human porphyrias. We assembled a genome using Illumina HiSeq, PacBio SMRT, and Oxford Nanopore MinION sequencing platforms. Together, the sequencing data resulted in a draft genome of 2.99 Gb, containing 32,830 scaffolds with an average size of 90.9 Kb and N-50 of 183.8 Kb. Genome completeness was estimated to be 93.78%. A total of 24,443 protein-encoding genes were predicted from the assembly and 23,079 (94.42%) were annotated. Repeat elements comprised an estimated 38.49% of the genome, with the majority being LINEs (13.92%), SINEs (6.04%), and LTR elements. The topology of the species tree reconstructed using maximum-likelihood phylogenetic analysis was congruent with those of previous studies. This genome assembly can prove useful for comparative studies of genome structure and function in this rapidly diversifying lineage of mammals, for studies of population genomics and adaptation, and for biomedical research. Predicted amino acid sequence alignments for genes affecting heme biosynthesis, color vision, and hibernation showed point mutations and indels that may affect protein function and ecological adaptation.
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