8 results on '"O'BRIEN, STEPHEN J."'
Search Results
2. A Dog's Breakfast?
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O'Brien, Stephen J. and Murphy, William J.
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ANIMAL genome mapping , *GENOMES , *GENE mapping , *GENETICS - Abstract
Examines reasons behind selecting dog for full-genome sequencing by researchers. Goals of the International Human Genome Project; Progress registered in dog genetics; Process used in building dog genome sequence.
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- 2003
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3. Ancestral primate viewed.
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O'Brien, Stephen J. and Stanyon, Roscoe
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GENE mapping , *PRIMATES , *MAMMALS , *GENOMES , *GENETICS - Abstract
Highlights the results of three studies which compare the genome maps and chromosomes of 15 species of primate, using four non-primate orders as a reference standard for the organization of ancestral mammalian genomes. Differences between distantly related species; Genome rearrangements that punctuate adaptation and species formation.
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- 1999
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4. Genomically Intact Endogenous Feline Leukemia Viruses of Recent Origin.
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Roca, Alfred L., Pecon-Slattery, Jill, and O'Brien, Stephen J.
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GENOMES , *VIRUSES , *MEDICAL microbiology , *GENETICS , *GENETIC vectors , *MEDICAL research - Abstract
We isolated and sequenced two complete endogenous feline leukemia viruses (enFeLVs), designated enFeLV-AGTT and enFeLV-GGAG. In enFeLV.AGTT, the open reading frames are reminiscent of a functioning FeLV genome, and the 5′ and 3′ long terminal repeat sequences are identical. Neither endogenous provirus is genetically fixed in cats but polymorphic, with 8.9 and 15.2% prevalence for enFeLV-AGTT and enFeLV-GGAG, respectively, among a survey of domestic cats. Neither provirus was found in the genomes of related species of the Felis genus, previously shown to harbor enFeLVs. The absence of mutational divergence, polymorphic incidence in cats, and absence in related species suggest that these enFeLVs may have entered the germ line more recently than previously believed, perhaps coincident with domestication, and reopens the question of whether some enFeLVs might be replication competent. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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5. Mitogenomic sequences support a north–south subspecies subdivision within Solenodon paradoxus.
- Author
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Brandt, Adam L., Grigorev, Kirill, Afanador-Hernández, Yashira M., Paulino, Liz A., Murphy, William J., Núñez, Adrell, Komissarov, Aleksey, Brandt, Jessica R., Dobrynin, Pavel, Hernández-Martich, J. David, María, Roberto, O'Brien, Stephen J., Rodríguez, Luis E., Martínez-Cruzado, Juan C., Oleksyk, Taras K., and Roca, Alfred L.
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INSECTIVORES (Mammals) , *GENOMES , *PHYLOGENY , *MAMMALS , *GENETICS - Abstract
Solenodons are insectivores found only in Hispaniola and Cuba, with a Mesozoic divergence date versus extant mainland mammals. Solenodons are the oldest lineage of living eutherian mammal for which a mitogenome sequence has not been reported. We determined complete mitogenome sequences for six Hispaniolan solenodons (Solenodon paradoxus) using next-generation sequencing. The solenodon mitogenomes were 16,454–16,457 bp long and carried the expected repertoire of genes. A mitogenomic phylogeny confirmed the basal position of solenodons relative to shrews and moles, with solenodon mitogenomes estimated to have diverged from those of other mammals ca. 78 Mya. Control region sequences of solenodons from the northern (n = 3) and southern (n = 5) Dominican Republic grouped separately in a network, withFST= 0.72 (p = 0.036) between north and south. This regional genetic divergence supports previous morphological and genetic reports recognizing northern (S. p. paradoxus) and southern (S. p. woodi) subspecies in need of separate conservation plans. [ABSTRACT FROM PUBLISHER]
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- 2017
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6. Accounting for multiple comparisons in a genome-wide association study (GWAS).
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Johnson, Randall C., Nelson, George W., Troyer, Jennifer L., Lautenberger, James A., Kessing, Bailey D., Winkler, Cheryl A., and O'Brien, Stephen J.
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GENOMES , *GENETIC markers , *STATISTICAL correlation , *FACTOR analysis , *GENETICS - Abstract
Background: As we enter an era when testing millions of SNPs in a single gene association study will become the standard, consideration of multiple comparisons is an essential part of determining statistical significance. Bonferroni adjustments can be made but are conservative due to the preponderance of linkage disequilibrium (LD) between genetic markers, and permutation testing is not always a viable option. Three major classes of corrections have been proposed to correct the dependent nature of genetic data in Bonferroni adjustments: permutation testing and related alternatives, principal components analysis (PCA), and analysis of blocks of LD across the genome. We consider seven implementations of these commonly used methods using data from 1514 European American participants genotyped for 700,078 SNPs in a GWAS for AIDS. Results: A Bonferroni correction using the number of LD blocks found by the three algorithms implemented by Haploview resulted in an insufficiently conservative threshold, corresponding to a genome-wide significance level of α = 0.15 - 0.20. We observed a moderate increase in power when using PRESTO, SLIDE, and simpleM when compared with traditional Bonferroni methods for population data genotyped on the Affymetrix 6.0 platform in European Americans (a = 0.05 thresholds between 1 x 10-7 and 7 x 10-8). Conclusions: Correcting for the number of LD blocks resulted in an anti-conservative Bonferroni adjustment. SLIDE and simpleM are particularly useful when using a statistical test not handled in optimized permutation testing packages, and genome-wide corrected p-values using SLIDE, are much easier to interpret for consumers of GWAS studies. [ABSTRACT FROM AUTHOR]
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- 2010
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7. A Domestic cat X Chromosome Linkage Map and the Sex-Linked orange Locus: Mapping of orange, Multiple Origins and Epistasis Over nonagouti.
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Schmidt-Küntzel, Anne, Nelson, George, David, Victor A., Schãffer, Alejandro A., Eizirik, Eduardo, Roelke, Melody E., Kehler, James S., Hannah, Steven S., O'Brien, Stephen J., and Menotti-Raymond, Marilyn
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CATS , *DOMESTIC animal genetics , *GENETICS , *SEX chromosomes , *X chromosome , *GENOMES , *EPISTASIS (Genetics) , *GENE expression - Abstract
A comprehensive genetic linkage map of the domestic cat X chromosome was generated with the goal o localizing the genomic position of the classic X-linked orange (O) locus. Microsatellite markers with an average spacing of 3 Mb were selected from sequence traces of the cat 1.9X whole genome sequence (WGS), including the pseudoautosomal region 1 (PAR1). Extreme variation in recombination rates (centimorgans per megabase) was observed along the X chromosome, ranging from a virtual absence of recombination events in a region estimated to he >30 Mb to recombination frequencies of 15.7 cM/Mb in a segment estimated to be <0.3 Mb. This detailed linkage map was applied to position the X-linked orange gene, placing this locus on the q arm of the X chromosome, as opposed to a previously reported location on the p arm. Fine mapping placed the locus between markers at positions 106 and 116.8 Mb in the current 1.9X-coverage sequence assembly of the cat genome. Haplotype analysis revealed potential recombination events that could reduce the size of the candidate region to 3.5 Mb and suggested multiple origins for the orange phenotype in the domestic cat. Furthermore, epistasis of orange over nonagouti was demonstrated at the genetic level. [ABSTRACT FROM AUTHOR]
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- 2009
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8. The Near Eastern Origin of Cat Domestication.
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Driscoll, Carlos A., Menotti-Raymond, Marilyn, Roca, Alfred L., Hupe, Karsten, Johnson, Warren E., Geffen, Eli, Harley, Eric H., Delibes, Miguel, Pontier, Dominique, Kitchener, Andrew C., Yamaguchi, Nobuyuki, O'Brien, Stephen J., and Macdonald, David W.
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GENOMES , *CATS , *DOMESTIC animals , *ANIMAL training , *WILDCAT , *ANIMAL breeding , *GENETICS , *ANIMAL species , *DOMESTICATION of animals - Abstract
The world's domestic cats carry patterns of sequence variation in their genome that reflect a history of domestication and breed development. A genetic assessment of 979 domestic cats and their wild progenitors—Fells silvestris silvestris (European wildcat), F. s. lybica (Near Eastern wildcat), F. s. ornata (central Asian wildcat), F. s. cafra (southern African wildcat), and F. s. bieti (Chinese desert cat)—indicated that each wild group represents a distinctive subspecies of Fells silvestris. Further analysis revealed that cats were domesticated in the Near East, probably coincident with agricultural village development in the Fertile Crescent. Domestic cats derive from at least five founders from across this region, whose descendants were transported across the world by human assistance. [ABSTRACT FROM AUTHOR]
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- 2007
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