Your search keyword '"Kijas, J. W."' showing total 5 results

1. Technical note: High fidelity of whole-genome amplified sheep (Ovis aries) deoxyribonucleic acid using a high-density single nucleotide polymorphism array-based genotyping platform.

Author

Magee, D. A., Park, S. D. E., Scraggs, E., Murphy, A. M., Doherty, M. L., Kijas, J. W., and MacHugh, D. E.

Subjects

SHEEP physiology, ANIMAL genetics, VETERINARY genetics, GENETICS of animal nutrition, GENETIC polymorphisms, GENOTYPE-environment interaction

Abstract

Advances in high-throughput genotyping technologies have afforded researchers the opportunity to study ever-increasing numbers of SNP in animal genomes. However, many studies encounter difficulties in obtaining sufficient quantities of high-quality DNA for such analyses, particularly when the source biological material is limited or degraded. The recent development of in vitro whole-genome amplification approaches has permitted researchers to circumvent these challenges by increasing the amount of usable DNA in normally small-quantity samples. Here, we assess the performance of whole-genome amplification products generated from ovine genomic DNA using a high-throughput SNP genotyping platform, the newly developed Illumina ovineSNP50 BeadChip. Our results demonstrate a high genotype call rate for conventional genomic DNA and whole-genome amplified genomic DNA. The data also reveal an exceptionally high concordance rate (≥99%) between the genotypes generated from whole-genome amplified products and their conventional genomic DNA counterparts. This study supports the use of whole-genome amplification as a viable solution for the analysis of high-density SNP genotypic data using compromised or limited starting material. [ABSTRACT FROM AUTHOR]

Published

2010

2. Evaluation of 16 loci to examine the cross-species utility of single nucleotide polymorphism arrays.

Author

Sechi, T., Coltman, D. W., and Kijas, J. W.

Subjects

SHEEP as laboratory animals, GENETIC polymorphisms, NUCLEOTIDES, SEISMIC arrays, CROSS-species amplification, LOCUS (Genetics)

Abstract

Large collections of single nucleotide polymorphisms (SNPs) have recently been identified from a number of livestock genomes. This raises the possibility that SNP arrays might be useful for analysis in related species for which few genetic markers are currently available. To address the likely success of such an approach, the aim of this study was to examine the threshold number and position of flanking mutations which act to prevent genotype calls being produced. Sequence diversity was measured across 16 loci containing SNPs known either to work successfully between species or fail between species. In pairwise comparisons between domestic and wild sheep, sequence divergence surrounding working SNP assays was significantly lower than that surrounding non-functional assays. In addition, the location of flanking mismatches tended to be closer to the target SNP in loci that failed to generate genotype calls across species. The magnitude of sequence divergence observed for both working and non-functional assays was compared with the divergence separating domestic sheep from European Mouflon, African Barbary, goat and cattle. The results suggest that the utility of SNP arrays for analysis of shared polymorphism will be restricted to closely related pairs of species. Analysis across more divergent species will, however, be successful for other objectives, such as the identification of the ancestral state of SNPs. [ABSTRACT FROM AUTHOR]

Published

2010

3. Mitochondrial haplotypes reveal a strong genetic structure for three Indian sheep breeds.

Author

Pardeshi, V. C., Kadoo, N. Y., Sainani, M. N., Meadows, J. R. S., Kijas, J. W., and Gupta, V. S.

Subjects

SHEEP, SHEEP breeds, MITOCHONDRIAL DNA, GENETIC polymorphisms, ANIMAL population genetics, ANIMAL genetics

Abstract

This survey represents the first characterization of mitochondrial DNA diversity within three breeds of Indian sheep (two strains of the Deccani breed, as well as the Bannur and Garole breeds) from different geographic regions and with divergent phenotypic characteristics. A 1061-bp fragment of the mitochondrial genome spanning the control region, a portion of the 12S rRNA gene and the complete phenyl tRNA gene, was sequenced from 73 animals and compared with the corresponding published sequence from European and Asian breeds and the European Mouflon ( Ovis musimon). Analysis of all 156 sequences revealed 73 haplotypes, 52 of which belonged to the Indian breeds. The three Indian breeds had no haplotypes in common, but one Indian haplotype was shared with European and other Asian breeds. The highest nucleotide and haplotype diversity was observed in the Bannur breed (0.00355 and 0.981 respectively), while the minimum was in the Sangamneri strain of the Deccani breed (0.00167 and 0.882 respectively). All 52 Indian haplotypes belonged to mitochondrial lineage A. Therefore, these Indian sheep are distinct from other Asian and European breeds studied so far. The relationships among the haplotypes showed strong breed structure and almost no introgression among these Indian breeds, consistent with Indian sheep husbandry, which discourages genetic exchange between breeds. These results have implications for the conservation of India's ovine biodiversity and suggest a common origin for the breeds investigated. [ABSTRACT FROM AUTHOR]

Published

2007

4. Sequence diversity and rates of molecular evolution between sheep and cattle genes.

Author

Kijas, J. W., Menzies, M., and Ingham, A.

Subjects

*MOLECULAR evolution, *CATTLE, *SHEEP, *GENETICS, *GENETIC polymorphisms

Abstract

Experiments that aim to identify genes of importance in sheep are currently inhibited by a paucity of genomic resources. One approach, therefore, is to exploit the wealth of data and associated capabilities becoming available for the bovine genome. Cross-species application of microarrays and comparative sequencing to identify single nucleotide polymorphisms are two possibilities; however, both are dependant on the level of nucleotide sequence similarity between the two species. This study used 120 gene orthologues consisting of over 60 kb of aligned sequence to estimate the gene diversity between cattle and sheep. Less than 3% of protein-coding nucleotide positions were found to be different, indicating that the prospect for successfully using cross-species strategies is high. Substitution at synonymous sites ranged between 6.9 and 7.7% (± 0.3%), and was higher than at non-synonymous sites (1.4–1.7 ± 0.1%). The relative rate test was used to determine whether the observed mutation rates were constant between the two lineages. While the rate at synonymous sites appeared constant, the rate at non-synonymous sites was significantly higher within the caprinae lineage (sheep) when compared with bovinae (cattle; χ2 = 10.03; d.f. = 1, P < 0.01). This is the first demonstration that variable rates of molecular evolution may be present within the family Bovidae. [ABSTRACT FROM AUTHOR]

Published

2006

5. Nucleotide diversity on the ovine Y chromosome.

Author

Meadows, J. R. S., Hawken, R. J., and Kijas, J. W.

Subjects

NUCLEOTIDES, Y chromosome, GENETIC polymorphisms, SEX chromosomes, LIVESTOCK, BIODIVERSITY

Abstract

To investigate the impact of male-mediated introgression during the evolution of sheep breeds, a sequencing approach was used to identify single nucleotide polymorphisms (SNPs) from the male-specific region of the ovine Y chromosome (MSY). A total of 4380 bp, which comprised nine fragments from five MSY genes was sequenced within a panel of 14 males from seven breeds. Sequence alignment identified a single segregating site, an A/G SNP located approximately 1685 bp upstream of the ovineSRYgene. The resulting estimation of nucleotide diversity (πY = 0.90 ± 0.50 × 10−4) falls towards the lower end of estimates from other species. This was compared with the nucleotide diversity estimated from the autosomal component of the genome. Sequence analysis of 2933 bp amplified from eight autosomal genes revealed a nucleotide diversity (πA = 2.15 ± 0.27 × 10−3) higher than previously reported for sheep. Following adjustment for the contrasting influence of effective population size and a male biased mutation rate, comparison revealed that approximately 10% of the expected nucleotide diversity is present on the ovine Y chromosome. [ABSTRACT FROM AUTHOR]

Published

2004