Your search keyword '"Snelling, Warren"' showing total 10 results

1. RNA-Seq Meta-analysis identifies genes in skeletal muscle associated with gain and intake across a multi-season study of crossbred beef steers

Author

Keel, Brittney N., Zarek, Christina M., Keele, John W., Kuehn, Larry A., Snelling, Warren M., Oliver, William T., Freetly, Harvey C., and Lindholm-Perry, Amanda K.

Published

2018

2. A multiway analysis for identifying high integrity bovine BACs

Author

McEwan John C, Brauning Rudiger, McWilliam Sean, Barris Wesley, Ratnakumar Abhirami, Snelling Warren M, and Dalrymple Brian P

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background In large genomics projects involving many different types of analyses of bacterial artificial chromosomes (BACs), such as fingerprinting, end sequencing (BES) and full BAC sequencing there are many opportunities for the identities of BACs to become confused. However, by comparing the results from the different analyses, inconsistencies can be identified and a set of high integrity BACs preferred for future research can be defined. Results The location of each bovine BAC in the BAC fingerprint-based genome map and in the genome assembly were compared based on the reported BESs, and for a smaller number of BACs the full sequence. BACs with consistent positions in all three datasets, or if the full sequence was not available, for both the fingerprint map and BES-based alignments, were deemed to be correctly positioned. BACs with consistent BES-based and fingerprint-based locations, but with conflicting locations based on the fully sequenced BAC, appeared to have been misidentified during sequencing, and included a number of apparently swapped BACs. Inconsistencies between BES-based and fingerprint map positions identified thirty one plates from the CHORI-240 library that appear to have suffered substantial systematic problems during the end-sequencing of the BACs. No systematic problems were identified in the fingerprinting of the BACs. Analysis of BACs overlapping in the assembly identified a small overrepresentation of clones with substantial overlap in the library and a substantial enrichment of highly overlapping BACs on the same plate in the CHORI-240 library. More than half of these BACs appear to have been present as duplicates on the original BAC-library plates and thus should be avoided in subsequent projects. Conclusion Our analysis shows that ~95% of the bovine CHORI-240 library clones with both a BAC fingerprint and two BESs mapping to the genome in the expected orientations (~27% of all BACs) have consistent locations in the BAC fingerprint map and the genome assembly. We have developed a broadly applicable methodology for checking the integrity of BAC-based datasets even where only incomplete and partially assembled genomic sequence is available.

Published

2009

3. Characterization of 954 bovine full-CDS cDNA sequences

Author

Snelling Warren M, Clawson Michael L, Heaton Michael P, Keele John W, Sonstegard Tad S, Harhay Gregory P, Wiedmann Ralph T, Van Tassell Curt P, and Smith Timothy PL

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Genome assemblies rely on the existence of transcript sequence to stitch together contigs, verify assembly of whole genome shotgun reads, and annotate genes. Functional genomics studies also rely on transcript sequence to create expression microarrays or interpret digital tag data produced by methods such as Serial Analysis of Gene Expression (SAGE). Transcript sequence can be predicted based on reconstruction from overlapping expressed sequence tags (EST) that are obtained by single-pass sequencing of random cDNA clones, but these reconstructions are prone to errors caused by alternative splice forms, transcripts from gene families with related sequences, and expressed pseudogenes. These errors confound genome assembly and annotation. The most useful transcript sequences are derived by complete insert sequencing of clones containing the entire length, or at least the full protein coding sequence (CDS) portion, of the source mRNA. While the bovine genome sequencing initiative is nearing completion, there is currently a paucity of bovine full-CDS mRNA and protein sequence data to support bovine genome assembly and functional genomics studies. Consequently, the production of high-quality bovine full-CDS cDNA sequences will enhance the bovine genome assembly and functional studies of bovine genes and gene products. The goal of this investigation was to identify and characterize the full-CDS sequences of bovine transcripts from clones identified in non-full-length enriched cDNA libraries. In contrast to several recent full-length cDNA investigations, these full-CDS cDNAs were selected, sequenced, and annotated without the benefit of the target organism's genomic sequence, by using comparison of bovine EST sequence to existing human mRNA to identify likely full-CDS clones for full-length insert cDNA (FLIC) sequencing. Results The predicted bovine protein lengths, 5' UTR lengths, and Kozak consensus sequences from 954 bovine FLIC sequences (bFLICs; average length 1713 nt, representing 762 distinct loci) are all consistent with previously sequenced mammalian full-length transcripts. Conclusion In most cases, the bFLICs span the entire CDS of the genes, providing the basis for creating predicted bovine protein sequences to support proteomics and comparative evolutionary research as well as functional genomics and genome annotation. The results demonstrate the utility of the comparative approach in obtaining predicted protein sequences in other species.

Published

2005

4. Linkage mapping bovine EST-based SNP

Author

Bennett Gary L, Harhay Gregory P, Keele John W, Stone Roger T, Casas Eduardo, Snelling Warren M, and Smith Timothy PL

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Existing linkage maps of the bovine genome primarily contain anonymous microsatellite markers. These maps have proved valuable for mapping quantitative trait loci (QTL) to broad regions of the genome, but more closely spaced markers are needed to fine-map QTL, and markers associated with genes and annotated sequence are needed to identify genes and sequence variation that may explain QTL. Results Bovine expressed sequence tag (EST) and bacterial artificial chromosome (BAC)sequence data were used to develop 918 single nucleotide polymorphism (SNP) markers to map genes on the bovine linkage map. DNA of sires from the MARC reference population was used to detect SNPs, and progeny and mates of heterozygous sires were genotyped. Chromosome assignments for 861 SNPs were determined by twopoint analysis, and positions for 735 SNPs were established by multipoint analyses. Linkage maps of bovine autosomes with these SNPs represent 4585 markers in 2475 positions spanning 3058 cM . Markers include 3612 microsatellites, 913 SNPs and 60 other markers. Mean separation between marker positions is 1.2 cM. New SNP markers appear in 511 positions, with mean separation of 4.7 cM. Multi-allelic markers, mostly microsatellites, had a mean (maximum) of 216 (366) informative meioses, and a mean 3-lod confidence interval of 3.6 cM Bi-allelic markers, including SNP and other marker types, had a mean (maximum) of 55 (191) informative meioses, and were placed within a mean 8.5 cM 3-lod confidence interval. Homologous human sequences were identified for 1159 markers, including 582 newly developed and mapped SNP. Conclusion Addition of these EST- and BAC-based SNPs to the bovine linkage map not only increases marker density, but provides connections to gene-rich physical maps, including annotated human sequence. The map provides a resource for fine-mapping quantitative trait loci and identification of positional candidate genes, and can be integrated with other data to guide and refine assembly of bovine genome sequence. Even after the bovine genome is completely sequenced, the map will continue to be a useful tool to link observable phenotypes and animal genotypes to underlying genes and molecular mechanisms influencing economically important beef and dairy traits.

Published

2005

5. Integrating linkage and radiation hybrid mapping data for bovine chromosome 15

Author

Takasuga Akiko, Ihara Naoya, Bennett Gary L, Harhay Gregory P, Stone Roger T, Smith Timothy PL, Keele John W, Gautier Mathieu, Snelling Warren M, Takeda Haruko, Sugimoto Yoshikazu, and Eggen André

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Bovine chromosome (BTA) 15 contains a quantitative trait loci (QTL) for meat tenderness, as well as several breaks in synteny with human chromosome (HSA) 11. Both linkage and radiation hybrid (RH) maps of BTA 15 are available, but the linkage map lacks gene-specific markers needed to identify genes underlying the QTL, and the gene-rich RH map lacks associations with marker genotypes needed to define the QTL. Integrating the maps will provide information to further explore the QTL as well as refine the comparative map between BTA 15 and HSA 11. A recently developed approach to integrating linkage and RH maps uses both linkage and RH data to resolve a consensus marker order, rather than aligning independently constructed maps. Automated map construction procedures employing this maximum-likelihood approach were developed to integrate BTA RH and linkage data, and establish comparative positions of BTA 15 markers with HSA 11 homologs. Results The integrated BTA 15 map represents 145 markers; 42 shared by both data sets, 36 unique to the linkage data and 67 unique to RH data. Sequence alignment yielded comparative positions for 77 bovine markers with homologs on HSA 11. The map covers approximately 32% of HSA 11 sequence in five segments of conserved synteny, another 15% of HSA 11 is shared with BTA 29. Bovine and human order are consistent in portions of the syntenic segments, but some rearrangement is apparent. Comparative positions of gene markers near the meat tenderness QTL indicate the region includes separate segments of HSA 11. The two microsatellite markers flanking the QTL peak are between defined syntenic segments. Conclusions Combining data to construct an integrated map not only consolidates information from different sources onto a single map, but information contributed from each data set increases the accuracy of the map. Comparison of bovine maps with well annotated human sequence can provide useful information about genes near mapped bovine markers, but bovine gene order may be different than human. Procedures to connect genetic and physical mapping data, build integrated maps for livestock species, and connect those maps to more fully annotated sequence can be automated, facilitating the maintenance of up-to-date maps, and providing a valuable tool to further explore genetic variation in livestock.

Published

2004

6. QTLs associated with dry matter intake, metabolic mid-test weight, growth and feed efficiency have little overlap across 4 beef cattle studies

Author

Saatchi, Mahdi, primary, Beever, Jonathan E, additional, Decker, Jared E, additional, Faulkner, Dan B, additional, Freetly, Harvey C, additional, Hansen, Stephanie L, additional, Yampara-Iquise, Helen, additional, Johnson, Kristen A, additional, Kachman, Stephen D, additional, Kerley, Monty S, additional, Kim, JaeWoo, additional, Loy, Daniel D, additional, Marques, Elisa, additional, Neibergs, Holly L, additional, Pollak, E John, additional, Schnabel, Robert D, additional, Seabury, Christopher M, additional, Shike, Daniel W, additional, Snelling, Warren M, additional, Spangler, Matthew L, additional, Weaber, Robert L, additional, Garrick, Dorian J, additional, and Taylor, Jeremy F, additional

Published

2014

7. A multiway analysis for identifying high integrity bovine BACs

Author

Ratnakumar, Abhirami, primary, Barris, Wesley, additional, McWilliam, Sean, additional, Brauning, Rudiger, additional, McEwan, John C, additional, Snelling, Warren M, additional, and Dalrymple, Brian P, additional

Published

2009

8. Characterization of 954 bovine full-CDS cDNA sequences

Author

Harhay, Gregory P, primary, Sonstegard, Tad S, additional, Keele, John W, additional, Heaton, Michael P, additional, Clawson, Michael L, additional, Snelling, Warren M, additional, Wiedmann, Ralph T, additional, Van Tassell, Curt P, additional, and Smith, Timothy PL, additional

Published

2005

9. Linkage mapping bovine EST-based SNP

Author

Snelling, Warren M, primary, Casas, Eduardo, additional, Stone, Roger T, additional, Keele, John W, additional, Harhay, Gregory P, additional, Bennett, Gary L, additional, and Smith, Timothy PL, additional

Published

2005

10. Integrating linkage and radiation hybrid mapping data for bovine chromosome 15

Author

Snelling, Warren M, primary, Gautier, Mathieu, additional, Keele, John W, additional, Smith, Timothy PL, additional, Stone, Roger T, additional, Harhay, Gregory P, additional, Bennett, Gary L, additional, Ihara, Naoya, additional, Takasuga, Akiko, additional, Takeda, Haruko, additional, Sugimoto, Yoshikazu, additional, and Eggen, André, additional

Published

2004