Sequences of the mitochondrial cytochrome c oxidase subunit I (COI) gene have been used for DNA barcoding and determining the genetic diversity of mammal species. In the current study, our intention was to test the validity of COI barcodes for detecting genetic divergence and to reveal whether or not there is a genetic variation at this marker within canids. Three species (Canis aureus, Canis lupus and Vulpes vulpes) from the family Canidae were selected for DNA barcoding using samples collected from Iran and Turkey. All three species had unique barcoding sequences and none of the sequences were shared among these species. The mean sequence divergences within and among the species were 0.61% and 12.32%, respectively, which fell into the mean divergence ranges found in some mammal groups. The genetic diversity of these three canid species was relatively higher than that found in previously reported studies.
We focused on a comparison of karyological data for the European brown hare Lepus europaeus, from the Asian part of Turkey. In Turkish L. europaeus, the diploid number (2n), the fundamental number of chromosomal arms (FN) and the number of autosomal arms (FNa) were determined to be 2n=48, 84 and 80, respectively. The autosomes are composed of three pairs of metacentric chromosomes, four pairs of submetacentric chromosomes, ten pairs of subtelocentric chromosomes and six pairs of acrocentric chromosomes. The X chromosome was a medium-large submetacentric and the Y chromosome was a very small acrocentric. This is the third report for L. europaeus from Turkey and confirmed the previous results with regard to 2n. However, when comparing our findings with those of other authors, there were karyotypic differences among the chromosomes. These differences were related to the number of chromosome arms. Additionally, we present the skull measurements of seven samples for the Turkish brown hare collected from three localities, and these measurements conformed to those of previous studies
Williams’s jerboa (Scarturus williamsi), a medium-sized jerboa distributed in Anatolia and its adjacent regions, is a member of the four- and five-toed jerboas found mostly in Asia. Disagreements about the taxonomy of this taxon at the genus/species level continue to exist. Here, we report the first effort to sequence and assemble the mitochondrial genome of Williams’s jerboa from Turkey. The mitochondrial genome of S. williamsi was 16,653 bp in total length and contained 13 protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs), and two non-coding regions (the D-loop and OL region) with intergenic spacer. All of the genes, except ND6 and eight tRNAs, were encoded on the heavy chain strand, similar to the features of mitogenomes of other rodents. When compared with all available rodent mitochondrial genomes, Williams’s jerboa showed (1) a serine deletion at the 3′-end of the ATP8 gene, (2) the ND5 gene terminated with a TAG codon and (3) a tandem repeat cluster (273 bp in length) in the control region. Williams’s jerboa and Siberian jerboa grouped as sister taxa despite the high genetic distance (17.6%) between them, belonging to Allactaginae. This result is consistent with the latest pre-revision, which suggests that Williams’s jerboa and the Siberian jerboa may belong to separate genera, as Scarturus and Orientallactaga, respectively. The present study provides a reference mitochondrial genome for Williams’s jerboa for further molecular studies of other species of Dipodoidea and Rodentia.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.