Your search keyword '"McClure, Jennifer C."' showing total 12 results

1. Truncation of IFT80 causes early embryonic loss in Holstein cattle associated with Holstein haplotype 2

Author

Ortega, M. Sofía, Bickhart, Derek M., Lockhart, Kelsey N., Null, Daniel J., Hutchison, Jana L., McClure, Jennifer C., and Cole, John B.

Published

2022

2. Oral swabs as a proxy for direct ruminal microbiome sampling in Holstein dairy cows is correlated with sample color.

Author

Skarlupka, Joseph H., Cox, Madison S., Steinberger, Andrew J., Sbardellati, Dino L., McClure, Jennifer C., Bickhart, Derek M., Scheftgen, Andrew J., Zuniga-Chaves, Ibrahim, Wolfe, Luke A., Paget, Eric, Skadron, Charles, Attipetty, Nithya, and Suen, Garret

Subjects

DAIRY cattle, BACTERIAL communities, MICROBIAL communities, GASTROINTESTINAL contents, BACTERIAL diversity, FUNGAL communities

Abstract

Using oral swabs to collect the remnants of stomach content regurgitation during rumination in dairy cows can replicate up to 70% of the ruminal bacterial community, offering potential for broad-scale population-based studies on the rumen microbiome. The swabs collected from dairy cows often vary widely with respect to sample quality, likely due to several factors such as time of sample collection and cow rumination behavior, which may limit the ability of a given swab to accurately represent the ruminal microbiome. One such factor is the color of the swab, which can vary significantly across different cows. Here, we hypothesize that darker-colored swabs contain more rumen contents, thereby better representing the ruminal bacterial community than lightercolored swabs. To address this, we collected oral swabs from 402 dairy cows and rumen samples from 13 cannulated cows on a research farm in Wisconsin, United States and subjected them to 16S rRNA sequencing. In addition, given that little is known about the ability of oral swabs to recapitulate the ruminal fungal community, we also conducted ITS sequencing of these samples. To correlate swab color to the microbiota we developed and utilized a novel imaging approach to colorimetrically quantify each swab from a range of light to dark. We found that swabs with increasing darkness scores were significantly associated with increased bacterial alpha diversity (p < 0.05). Lighter swabs exhibited greater variation in their community structure, with many identified amplicon sequence variants (ASVs) categorized as belonging to known bovine oral and environmental taxa. Our analysis of the fungal microbiome found that swabs with increasing darkness scores were associated with decreased alpha diversity (p < 0.05) and were also significantly associated with the ruminal solids fungal community, but not with the ruminal liquid community. Our study refines the utility of oral swabs as a useful proxy for capturing the ruminal microbiome and demonstrates that swab color is an important factor to consider when using this approach for documenting both the bacterial and fungal communities. [ABSTRACT FROM AUTHOR]

Published

2024

3. Genome wide association study of passive immunity and disease traits in beef-suckler and dairy calves on Irish farms

Author

Johnston, Dayle, Mukiibi, Robert, Waters, Sinéad M., McGee, Mark, Surlis, Carla, McClure, Jennifer C., McClure, Matthew C., Todd, Cynthia G., and Earley, Bernadette

Published

2020

4. Rate of bovine heteropaternal superfecundation in the Irish National Herd: twins with different sires

Author

McClure, Matthew C., McClure, Jennifer C., and McCarthy, John

Published

2017

5. A Reference Genome Assembly of American Bison, Bison bison bison.

Author

Oppenheimer, Jonas, Rosen, Benjamin D, Heaton, Michael P, Ley, Brian L Vander, Shafer, Wade R, Schuetze, Fred T, Stroud, Brad, Kuehn, Larry A, McClure, Jennifer C, Barfield, Jennifer P, Blackburn, Harvey D, Kalbfleisch, Theodore S, Bickhart, Derek M, Davenport, Kimberly M, Kuhn, Kristen L, Green, Richard E, Shapiro, Beth, and Smith, Timothy P L

Subjects

AMERICAN bison, CATTLE, GENOMES, BISON, MEGAFAUNA, SIMMENTAL cattle, CATTLE genetics, TWENTIETH century

Abstract

Bison are an icon of the American West and an ecologically, commercially, and culturally important species. Despite numbering in the hundreds of thousands today, conservation concerns remain for the species, including the impact on genetic diversity of a severe bottleneck around the turn of the 20th century and genetic introgression from domestic cattle. Genetic diversity and admixture are best evaluated at genome-wide scale, for which a high-quality reference is necessary. Here, we use trio binning of long reads from a bison–Simmental cattle (Bos taurus taurus) male F1 hybrid to sequence and assemble the genome of the American plains bison (Bison bison bison). The male haplotype genome is chromosome-scale, with a total length of 2.65 Gb across 775 scaffolds (839 contigs) and a scaffold N50 of 87.8 Mb. Our bison genome is ~13× more contiguous overall and ~3400× more contiguous at the contig level than the current bison reference genome. The bison genome sequence presented here (ARS-UCSC_bison1.0) will enable new research into the evolutionary history of this iconic megafauna species and provide a new tool for the management of bison populations in federal and commercial herds. [ABSTRACT FROM AUTHOR]

Published

2021

6. A Reference Genome Assembly of Simmental Cattle, Bos taurus taurus.

Author

Heaton, Michael P, Smith, Timothy P L, Bickhart, Derek M, Ley, Brian L Vander, Kuehn, Larry A, Oppenheimer, Jonas, Shafer, Wade R, Schuetze, Fred T, Stroud, Brad, McClure, Jennifer C, Barfield, Jennifer P, Blackburn, Harvey D, Kalbfleisch, Theodore S, Davenport, Kimberly M, Kuhn, Kristen L, Green, Richard E, Shapiro, Beth, and Rosen, Benjamin D

Subjects

CATTLE, SIMMENTAL cattle, CATTLE breeds, GENOMES, CATTLE breeding, SPECIES diversity, GENOMICS

Abstract

Genomics research has relied principally on the establishment and curation of a reference genome for the species. However, it is increasingly recognized that a single reference genome cannot fully describe the extent of genetic variation within many widely distributed species. Pangenome representations are based on high-quality genome assemblies of multiple individuals and intended to represent the broadest possible diversity within a species. A Bovine Pangenome Consortium (BPC) has recently been established to begin assembling genomes from more than 600 recognized breeds of cattle, together with other related species to provide information on ancestral alleles and haplotypes. Previously reported de novo genome assemblies for Angus, Brahman, Hereford, and Highland breeds of cattle are part of the initial BPC effort. The present report describes a complete single haplotype assembly at chromosome-scale for a fullblood Simmental cow from an F1 bison–cattle hybrid fetus by trio binning. Simmental cattle, also known as Fleckvieh due to their red and white spots, originated in central Europe in the 1830s as a triple-purpose breed selected for draught, meat, and dairy production. There are over 50 million Simmental cattle in the world, known today for their fast growth and beef yields. This assembly (ARS_Simm1.0) is similar in length to the other bovine assemblies at 2.86 Gb, with a scaffold N50 of 102 Mb (max scaffold 156.8 Mb) and meets or exceeds the continuity of the best Bos taurus reference assemblies to date. [ABSTRACT FROM AUTHOR]

Published

2021

7. Experimental infection of Rhipicephalus sanguineus with Ehrlichia chaffeensis

Author

Stoffel, Ryan T., McClure, Jennifer C., Butcher, Marion M., Johnson, Gayle C., Roland, Will, Cheng, Chuanmin, Sirigireddy, Kamesh R., Ganta, Roman, Boughan, Kirstin, Ewing, S.A., and Stich, Roger W.

Published

2014

8. SNP Data Quality Control in a National Beef and Dairy Cattle System and Highly Accurate SNP Based Parentage Verification and Identification.

Author

McClure, Matthew C., McCarthy, John, Flynn, Paul, McClure, Jennifer C., Dair, Emma, O'Connell, D. K., and Kearney, John F.

Subjects

SINGLE nucleotide polymorphisms, DAIRY cattle genetics, GENETIC databases

Abstract

A major use of genetic data is parentage verification and identification as inaccurate pedigrees negatively affect genetic gain. Since 2012 the international standard for single nucleotide polymorphism (SNP) verification in Bos taurus cattle has been the ISAG SNP panels. While these ISAG panels provide an increased level of parentage accuracy over microsatellite markers (MS), they can validate the wrong parent at ≤1% misconcordance rate levels, indicating that more SNP are needed if a more accurate pedigree is required. With rapidly increasing numbers of cattle being genotyped in Ireland that represent 61 B. taurus breeds from a wide range of farm types: beef/dairy, AI/pedigree/commercial, purebred/crossbred, and large to small herd size the Irish Cattle Breeding Federation (ICBF) analyzed different SNP densities to determine that at a minimum ≥500 SNP are needed to consistently predict only one set of parents at a ≤1% misconcordance rate. For parentage validation and prediction ICBF uses 800 SNP (ICBF800) selected based on SNP clustering quality, ISAG200 inclusion, call rate (CR), and minor allele frequency (MAF) in the Irish cattle population. Large datasets require sample and SNP quality control (QC). Most publications only deal with SNP QC via CR, MAF, parent-progeny conflicts, and Hardy-Weinberg deviation, but not sample QC. We report here parentage, SNP QC, and a genomic sample QC pipelines to deal with the unique challenges of >1 million genotypes from a national herd such as SNP genotype errors from mis-tagging of animals, lab errors, farm errors, and multiple other issues that can arise. We divide the pipeline into two parts: a Genotype QC and an Animal QC pipeline. The Genotype QC identifies samples with low call rate, missing or mixed genotype classes (no BB genotype or ABTG alleles present), and low genotype frequencies. The Animal QC handles situations where the genotype might not belong to the listed individual by identifying: >1 non-matching genotypes per animal, SNP duplicates, sex and breed prediction mismatches, parentage and progeny validation results, and other situations. The Animal QC pipeline make use of ICBF800 SNP set where appropriate to identify errors in a computationally efficient yet still highly accurate method. [ABSTRACT FROM AUTHOR]

Published

2018

9. Disrupting Protein Expression with Peptide Nucleic Acids Reduces Infection by Obligate Intracellular Rickettsia.

Author

Pelc, Rebecca S., McClure, Jennifer C., Kaur, Simran J., Sears, Khandra T., Rahman, M. Sayeedur, and Ceraul, Shane M.

Subjects

*PROTEIN expression, *PEPTIDE nucleic acids, *RICKETTSIA, *SPINE physiology, *MESSENGER RNA, *ELECTROPORATION

Abstract

Peptide Nucleic Acids (PNAs) are single-stranded synthetic nucleic acids with a pseudopeptide backbone in lieu of the phosphodiester linked sugar and phosphate found in traditional oligos. PNA designed complementary to the bacterial Shine-Dalgarno or start codon regions of mRNA disrupts translation resulting in the transient reduction in protein expression. This study examines the use of PNA technology to interrupt protein expression in obligate intracellular Rickettsia sp. Their historically intractable genetic system limits characterization of protein function. We designed PNA targeting mRNA for rOmpB from Rickettsia typhi and rickA from Rickettsia montanensis, ubiquitous factors important for infection. Using an in vitro translation system and competitive binding assays, we determined that our PNAs bind target regions. Electroporation of R. typhi and R. montanensis with PNA specific to rOmpB and rickA, respectively, reduced the bacteria’s ability to infect host cells. These studies open the possibility of using PNA to suppress protein synthesis in obligate intracellular bacteria. [ABSTRACT FROM AUTHOR]

Published

2015

10. Erratum to: A Reference Genome Assembly of Simmental Cattle, Bos taurus taurus.

Author

Heaton, Michael P, Smith, Timothy P L, Bickhart, Derek M, Ley, Brian L Vander, Kuehn, Larry A, Oppenheimer, Jonas, Shafer, Wade R, Schuetze, Fred T, Stroud, Brad, McClure, Jennifer C, Barfield, Jennifer P, Blackburn, Harvey D, Kalbfleisch, Theodore S, Davenport, Kimberly M, Kuhn, Kristen L, Green, Richard E, Shapiro, Beth, and Rosen, Benjamin D

Subjects

CATTLE, SIMMENTAL cattle, GENOMES, CATTLE genetics

Published

2021

11. Validating the Use of Bovine Buccal Sampling as a Proxy for the Rumen Microbiota by Using a Time Course and Random Forest Classification Approach.

Author

Young, Juliana, Skarlupka, Joseph H., Cox, Madison S., Tassinari Resende, Rafael, Fischer, Amelie, Kalscheur, Kenneth F., McClure, Jennifer C., Cole, John B., Suen, Garret, and Bickhart, Derek M.

Subjects

*RANDOM forest algorithms, *TIME management, *ANIMAL feeding, *BOS, *MILK yield, *ANIMAL herds

Abstract

Analysis of the cow microbiome, as well as host genetic influences on the establishment and colonization of the rumen microbiota, is critical for development of strategies to manipulate ruminal function toward more efficient and environmentally friendly milk production. To this end, the development and validation of noninvasive methods to sample the rumen microbiota at a large scale are required. In this study, we further optimized the analysis of buccal swab samples as a proxy for direct bacterial samples of the rumen of dairy cows. To identify an optimal time for sampling, we collected buccal swab and rumen samples at six different time points relative to animal feeding. We then evaluated several biases in these samples using a machine learning classifier (random forest) to select taxa that discriminate between buccal swab and rumen samples. Differences in the inverse Simpson's diversity, Shannon's evenness, and Bray-Curtis dissimilarities between methods were significantly less apparent when sampling was performed prior to morning feeding (P < 0.05), suggesting that this time point was optimal for representative sampling. In addition, the random forest classifier was able to accurately identify nonrumen taxa, including 10 oral and putative feed-associated taxa. Two highly prevalent (>60%) taxa in buccal and rumen samples had significant variance in relative abundances between sampling methods but could be qualitatively assessed via regular buccal swab sampling. This work not only provides new insights into the oral community of ruminants but also further validates and refines buccal swabbing as a method to assess the rumen bacterial in large herds. [ABSTRACT FROM AUTHOR]

Published

2020

12. Efficacy of a doxycycline treatment regimen initiated during three different phases of experimental ehrlichiosis.

Author

McClure JC, Crothers ML, Schaefer JJ, Stanley PD, Needham GR, Ewing SA, and Stich RW

Subjects

Animals, Dogs, Ehrlichia canis genetics, Ehrlichia canis physiology, Polymerase Chain Reaction, Anti-Bacterial Agents therapeutic use, Dog Diseases drug therapy, Doxycycline therapeutic use, Ehrlichiosis drug therapy

Abstract

Doxycycline is the treatment of choice for canine monocytic ehrlichiosis (CME), a well-characterized disease and valuable model for tick-borne zoonoses. Conflicting reports of clearance of Ehrlichia canis after treatment with doxycycline suggested that the disease phase during which treatment is initiated influences outcomes of these treatments. The purpose of this study was to evaluate the efficacy of a 28-day doxycycline regimen for clearance of experimental E. canis infections from dogs treated during three phases of the disease. Ten dogs were inoculated with blood from E. canis carriers and treated with doxycycline during acute, subclinical, or chronic phases of CME. Daily rectal temperatures and semiweekly blood samples were monitored from each dog, and Rhipicephalus sanguineus ticks were acquisition fed on each dog for xenodiagnosis. Blood collected from dogs treated during acute or subclinical CME became PCR negative for E. canis as clinical parameters improved, but blood samples collected from dogs treated during chronic CME remained intermittently PCR positive. R. sanguineus ticks fed on dogs after doxycycline treatments became PCR positive for E. canis, regardless of when treatment was initiated. However, fewer ticks became PCR positive after feeding on two persistently infected dogs treated with doxycycline followed by rifampin, suggesting that antibiotic therapy can reduce tick acquisition of E. canis.

Published

2010