ABSTRACT The leopard shark Triakis semifasciata (family Triakidae) is threatened by habitat loss and targeted by recreational and commercial fishermen in the Eastern Pacific Ocean, from Oregon, USA, to the Gulf of California, Mexico. Despite environmental issues, there are few genetic and genomic resources available for this species. This study assembled the complete mitochondrial genome of T. semifasciata from a skin metagenomic sample and described it in detail. The phylogenetic position of T. semifasciata amongst closely related species was also examined using mitochondrial protein-coding genes (PCGs). The mitochondrial genome of T. semifasciata is 16,613 bp in length and consists of 13 PCGs, two ribosomal RNA (rRNA) genes, and 22 transfer RNA (tRNA) genes. A 30 bp long region was identified as the origin of replication for the light strand (OL) between the trnN and trnC genes, and a 974 bp long putative control region (CR) contains the origin of replication for the heavy strand (OH). The gene order in T. semifasciata is identical to that of cofamilial species. An analysis of Ka/Ks ratios for all PCGs yielded values < 1, indicating that all PCGs experience strong purifying selection. All tRNAs exhibit a canonical ‘cloverleaf’ secondary structure except for tRNA-Ser1 which lacks the stem of the dihydrouridine (DHU) arm and in place possesses a simple loop. A phylomitogenomic maximum likelihood (ML) analysis did not support the monophyly of the family Trakidae and placed T. semifasciata in a sister position to Hemitriakis japanica. However, the aforementioned sister position was poorly supported by ML bootstrap values. This study represents a new genomic resource for this commercially and recreationally important species and confirms that mitochondrial genomes can be assembled from skin metagenomic samples as shown before in an unrelated shark species.
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