5 results on '"Buckley-Beason, Valerie A."'
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2. Clouded leopard phylogeny revisited: support for species recognition and population division between Borneo and Sumatra.
- Author
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Wilting, Andreas, Buckley-Beason, Valerie A., Feldhaar, Heike, Gadau, Jürgen, O'Brien, Stephen J., and Linsenmair, K. Eduard
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PHYLOGENY , *BIOLOGY , *CONVERGENT evolution , *IMMUNOTAXONOMY - Abstract
Background: The clouded leopard (Neofelis nebulosa) is one of the least known cat species and depletion of their forested habitats puts it under heavy pressure. Recently reclassification of Bornean clouded leopards (N. nebulosa diardi) to species level (N.diardi) was suggested based on molecular and morphological evidence. Since the genetic results were based solely on three Bornean samples we re-evaluated this partition using additional samples of Bornean clouded leopards (N = 7) and we were also able to include specimens from Sumatra (N = 3), which were lacking in previous analysis. Results: We found strong support for the distinction between N. nebulosa and N. diardi based on three fragments of mtDNA (900 bp) and 18 microsatellites. Forty-one fixed mitochondrial nucleotide differences and non-overlapping allele sizes in 8 of 18 microsatellite loci distinguished N. nebulosa and N. diardi. This is equivalent to the genetic divergence among recognized species in the genus Panthera. Sumatran clouded leopards clustered with specimens from Borneo, suggesting that Sumatran individuals also belong to N. diardi. Additionally, a significant population subdivision was apparent among N. diardi from Sumatra and Borneo based on mtDNA and microsatellite data. Conclusion: Referring to their origin on two Sunda Islands we propose to give N. diardi the common name "Sundaland clouded leopard". The reduced gene flow between Borneo and Sumatra might suggest the recognition of two subspecies of N. diardi. Based on this reclassification of clouded leopards not only species, but also the populations on Borneo and Sumatra should be managed separately and a higher priority should be placed to protect the different populations from extinction. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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3. Molecular Evidence for Species-Level Distinctions in Clouded Leopards
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Buckley-Beason, Valerie A., Johnson, Warren E., Nash, Willliam G., Stanyon, Roscoe, Menninger, Joan C., Driscoll, Carlos A., Howard, JoGayle, Bush, Mitch, Page, John E., Roelke, Melody E., Stone, Gary, Martelli, Paolo P., Wen, Ci, Ling, Lin, Duraisingam, Ratna K., Lam, Phan V., and O'Brien, Stephen J.
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SNOW leopard , *NUCLEIC acids , *METEOROLOGICAL precipitation - Abstract
Summary: Among the 37 living species of Felidae, the clouded leopard (Neofelis nebulosa) is generally classified as a monotypic genus basal to the Panthera lineage of great cats . This secretive, mid-sized (16–23 kg) carnivore, now severely endangered, is traditionally subdivided into four southeast Asian subspecies (A) . We used molecular genetic methods to re-evaluate subspecies partitions and to quantify patterns of population genetic variation among 109 clouded leopards of known geographic origin (A, in the available online). We found strong phylogeographic monophyly and large genetic distances between N. n. nebulosa (mainland) and N. n. diardi (Borneo; n = 3 individuals) with mtDNA (771 bp), nuclear DNA (3100 bp), and 51 microsatellite loci. Thirty-six fixed mitochondrial and nuclear nucleotide differences and 20 microsatellite loci with nonoverlapping allele-size ranges distinguished N. n. nebulosa from N. n. diardi. Along with fixed subspecies-specific chromosomal differences, this degree of differentiation is equivalent to, or greater than, comparable measures among five recognized Panthera species (lion, tiger, leopard, jaguar, and snow leopard). These distinctions increase the urgency of clouded leopard conservation efforts, and if affirmed by morphological analysis and wider sampling of N. n. diardi in Borneo and Sumatra, would support reclassification of N. n. diardi as a new species (Neofelis diardi). [Copyright &y& Elsevier]
- Published
- 2006
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4. Defining and Mapping Mammalian Coat Pattern Genes: Multiple Genomic Regions Implicated in Domestic Cat Stripes and Spots.
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Eizirik, Eduardo, David, Victor A., Buckley-Beason, Valerie, Roelke, Melody E., Schäffer, Alejandro A., Hannah, Steven S., Narfström, Kristina, O'Brien, Stephen J., and Menotti-Raymond, Marilyn
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MAMMALIAN artificial chromosomes , *PHENOTYPES , *CAMOUFLAGE (Biology) , *LOCUS (Genetics) , *CATS , *ABYSSINIAN cat - Abstract
Mammalian coat patterns (e.g., spots, stripes) are hypothesized to play important roles in camouflage and other relevant processes, yet the genetic and developmental bases for these phenotypes are completely unknown. The domestic cat, with its diversity of coat patterns, is an excellent model organism to investigate these phenomena. We have established three independent pedigrees to map the four recognized pattern variants classically considered to be specified by a single locus, Tabby; in order of dominance, these are the unpatterned agouti form called ''Abyssinian'' or ''ticked'' (Ta), followed by Spotted (Ts), Mackerel (TM), and Blotched (tb). We demonstrate that at least three different loci control the coat markings of the domestic cat. One locus, responsible for the Abyssinian form (herein termed the Ticked locus), maps to an ∼3.8-Mb region on cat chromosome B1. A second locus controls the Tabby alleles TM and tb, and maps to an ∼5-Mb genomic region on cat chromosome A1. One or more additional loci act as modifiers and create a spotted coat by altering mackerel stripes. On the basis of our results and associated observations, we hypothesize that mammalian patterned coats are formed by two distinct processes: a spatially oriented developmental mechanism that lays down a species-specific pattern of skin cell differentiation and a pigmentation-oriented mechanism that uses information from the preestablished pattern to regulate the synthesis of melanin profiles. [ABSTRACT FROM AUTHOR]
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- 2010
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5. FIV diversity: FIV Ple subtype composition may influence disease outcome in African lions
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Troyer, Jennifer L., Roelke, Melody E., Jespersen, Jillian M., Baggett, Natalie, Buckley-Beason, Valerie, MacNulty, Dan, Craft, Meggan, Packer, Craig, Pecon-Slattery, Jill, and O’Brien, Stephen J.
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FELINE immunodeficiency virus infection , *HIV infections , *MATHEMATICAL models , *LIONS , *VETERINARY immunology , *ANIMAL mortality , *COMMUNICABLE diseases in animals , *DISEASES - Abstract
Abstract: Feline immunodeficiency virus (FIV) infects domestic cats and at least 20 additional species of non-domestic felids throughout the world. Strains specific to domestic cat (FIV Fca ) produce AIDS-like disease progression, sequelae and pathology providing an informative model for HIV infection in humans. Less is known about the immunological and pathological influence of FIV in other felid species although multiple distinct strains of FIV circulate in natural populations. As in HIV-1 and HIV-2, multiple diverse cross-species infections may have occurred. In the Serengeti National Park, Tanzania, three divergent subtypes of lion FIV (FIV Ple ) are endemic, whereby 100% of adult lions are infected with one or more of these strains. Herein, the relative distribution of these subtypes in the population are surveyed and, combined with observed differences in lion mortality due to secondary infections based on FIV Ple subtypes, the data suggest that FIV Ple subtypes may have different patterns of pathogenicity and transmissibility among wild lion populations. [Copyright &y& Elsevier]
- Published
- 2011
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