153 research outputs found

    Complete mitochondrial genome of a bat-eared fox (Otocyon megalotis), along with phylogenetic considerations

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    The bat-eared fox, Otocyon megalotis, is the only member of its genus and is thought to occupy a basal position within the dog family. These factors can lead to challenges in complete mitochondrial reconstructions and accurate phylogenetic positioning. Here, we present the first complete mitochondrial genome of the bat-eared fox recovered using shotgun sequencing and iterative mapping to three distantly related species. Phylogenetic analyses placed the bat-eared fox basal in the Canidae family within the clade including true foxes (Vulpes) and the raccoon dog (Nyctereutes) with high support values. This position is in good agreement with previously published results based on short fragments of mitochondrial and nuclear genes, therefore adding more support to the basal positioning of the bat-eared fox within Canidae.The European Research Council (consolidator grant GeneFlow # 310763 to M.H), National Research Foundation (NRF, South Africa), Ministry of Economy and Competitiveness (MINECO, Spain), and Swedish Research Council Formas (Sweden).http://www.tandfonline.com/loi/tmdn20am2017Mammal Research InstituteZoology and Entomolog

    Genomic analyses reveal an absence of contemporary introgressive admixture between fin whales and blue whales, despite known hybrids

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    Fin whales (Balaenoptera physalus) and blue whales (B. musculus) are the two largest species on Earth and are widely distributed across the world's oceans. Hybrids between these species appear to be relatively widespread and have been reported in both the North Atlantic and North Pacific; they are also relatively common, and have been proposed to occur once in every thousand fin whales. However, despite known hybridization, fin and blue whales are not sibling species. Rather, the closest living relative of fin whales are humpback whales (Megaptera novaeangliae). To improve the quality of fin whale data available for analysis, we assembled and annotated a fin whale nuclear genome using in-silico mate pair libraries and previously published short-read data. Using this assembly and genomic data from a humpback, blue, and bowhead whale, we investigated whether signatures of introgression between the fin and blue whale could be found. We find no signatures of contemporary admixture in the fin and blue whale genomes, although our analyses support ancestral gene flow between the species until 2.4-1.3 Ma. We propose the following explanations for our findings; i) fin/blue whale hybridization does not occur in the populations our samples originate from, ii) contemporary hybrids are a recent phenomenon and the genetic consequences have yet to become widespread across populations, or iii) fin/blue whale hybrids are under large negative selection, preventing them from backcrossing and contributing to the parental gene pools

    Complete mitochondrial genome of a bat-eared fox (Otocyon megalotis), along with phylogenetic considerations

    Get PDF
    The bat-eared fox, Otocyon megalotis, is the only member of its genus and is thought to occupy a basal position within the dog family. These factors can lead to challenges in complete mitochondrial reconstructions and accurate phylogenetic positioning. Here, we present the first complete mitochondrial genome of the bat-eared fox recovered using shotgun sequencing and iterative mapping to three distantly related species. Phylogenetic analyses placed the bat-eared fox basal in the Canidae family within the clade including true foxes (Vulpes) and the raccoon dog (Nyctereutes) with high support values. This position is in good agreement with previously published results based on short fragments of mitochondrial and nuclear genes, therefore adding more support to the basal positioning of the bat-eared fox within Canidae.The European Research Council (consolidator grant GeneFlow # 310763 to M.H), National Research Foundation (NRF, South Africa), Ministry of Economy and Competitiveness (MINECO, Spain), and Swedish Research Council Formas (Sweden).http://www.tandfonline.com/loi/tmdn20am2017Mammal Research InstituteZoology and Entomolog

    Aardwolf population diversity and phylogenetic positioning inferred using complete mitochondrial genomes

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    The aardwolf (Proteles cristata) is a unique, insectivorous species of the family Hyaenidae. It occupies a disjunct range in eastern and southern Africa and is possibly a remaining member of a historical dog-like hyaena clade. Although both local and global population status and trends are largely unknown, aardwolves are not uncommon in arid grasslands and the IUCN conservation status of Least Concern appears to be justified.However, they are one of the least studied of the four hyaena species,and we have scarce information about the genetic structure of aardwolf populations. Here, we present the first complete aardwolf mitochondrial genomes and provide novel information about aardwolf evolutionary origins and genetic structure within a single population. Through the investigation of complete mitochondrial genomes from five individuals from a single population within South Africa, we find the mitochondrial diversity of this population to be neither particularly high nor low compared to a number of other mammalian species. Moreover, we also provide additional evidence towards the basal position of the aardwolf within Hyaenidae with a divergence time of 13.0 Ma (95% CI 10.1–16.4 Ma) from all other extant hyaena species.The European Research Council, the National Research Foundation (NRF, South Africa), and the Spanish Ministry of Economy and Competitiveness (MINECO).http://www.sawma.co.zaam2020Mammal Research InstituteZoology and Entomolog

    Successful application of ancient DNA extraction and library construction protocols to museum wet collection specimens

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    Millions of scientific specimens are housed in museum collections, a large part of which are fluid preserved. The use of formaldehyde as fixative and subsequent storage in ethanol is especially common in ichthyology and herpetology. This type of preservation damages DNA and reduces the chance of successful retrieval of genetic data. We applied ancient DNA extraction and single stranded library construction protocols to a variety of vertebrate samples obtained from wet collections and of different ages. Our results show that almost all samples tested yielded endogenous DNA. Archival DNA extraction was successful across different tissue types as well as using small amounts of tissue. Conversion of archival DNA fragments into single-stranded libraries resulted in usable data even for samples with initially undetectable DNA amounts. Subsequent target capture approaches for mitochondrial DNA using homemade baits on a subset of 30 samples resulted in almost complete mitochondrial genome sequences in several instances. Thus, application of ancient DNA methodology makes wet collection specimens, including type material as well as rare, old or extinct species, accessible for genetic and genomic analyses. Our results, accompanied by detailed step-by-step protocols, are a large step forward to open the DNA archive of museum wet collections for scientific studies.publishedVersio
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