Your search keyword '"Tina S. Lusk"' showing total 7 results

1. High-Resolution Microbiome Profiling for Detection and Tracking of Salmonella enterica

Author

Christopher J. Grim, Ninalynn Daquigan, Tina S. Lusk Pfefer, Andrea R. Ottesen, James R. White, and Karen G. Jarvis

Subjects

16S rRNA, community, profiling, microbiome, Salmonella, metagenomics, Microbiology, QR1-502

Abstract

16S rRNA community profiling continues to be a useful tool to study microbiome composition and dynamics, in part due to advances in next generation sequencing technology that translate into reductions in cost. Reliable taxonomic identification to the species-level, however, remains difficult, especially for short-read sequencing platforms, due to incomplete coverage of the 16S rRNA gene. This is especially true for Salmonella enterica, which is often found as a low abundant member of the microbial community, and is often found in combination with several other closely related enteric species. Here, we report on the evaluation and application of Resphera Insight, an ultra-high resolution taxonomic assignment algorithm for 16S rRNA sequences to the species level. The analytical pipeline achieved 99.7% sensitivity to correctly identify S. enterica from WGS datasets extracted from the FDA GenomeTrakr Bioproject, while demonstrating 99.9% specificity over other Enterobacteriaceae members. From low-diversity and low-complexity samples, namely ice cream, the algorithm achieved 100% specificity and sensitivity for Salmonella detection. As demonstrated using cilantro and chili powder, for highly complex and diverse samples, especially those that contain closely related species, the detection threshold will likely have to be adjusted higher to account for misidentifications. We also demonstrate the utility of this approach to detect Salmonella in the clinical setting, in this case, bloodborne infections.

Published

2017

2. Water quality, availability, and acute gastroenteritis on the Navajo Nation - a pilot case-control study

Author

Jan Vinjé, Robert Weatherholtz, Raymond Reid, Nicole Gregoricus, Chandra Schneeberger, Douglas H. Esposito, Laura L. Hammitt, Scott Grytdal, James W. Campbell, Cheryl A. Bopp, Vincent R. Hill, Katherine L. O'Brien, Lihua Xiao, Nancy Garrett, Tina S. Lusk, and Aron J. Hall

Subjects

0301 basic medicine, Microbiology (medical), 030106 microbiology, Water source, Limited access, 03 medical and health sciences, Water Supply, Environmental health, Water Quality, Humans, Waste Management and Disposal, Water Science and Technology, Public Health, Environmental and Occupational Health, Case-control study, Acute gastroenteritis, language.human_language, Coliform bacteria, Gastroenteritis, Infectious Diseases, Geography, Navajo, Case-Control Studies, language, Indians, North American, Water quality, Water use

Abstract

The Navajo Nation includes approximately 250,000 American Indians living in a remote high desert environment with limited access to public water systems. We conducted a pilot case-control study to assess associations between acute gastroenteritis (AGE) and water availability, use patterns, and quality. Case patients with AGE and non-AGE controls who presented for care to two Indian Health Service hospitals were recruited. Data on demographics and water use practices were collected using a standard questionnaire. Household drinking water was tested for presence of pathogens, coliforms, and residual chlorine. Sixty-one subjects (32 cases and 29 controls) participated in the study. Cases and controls were not significantly different with respect to water sources, quality, or patterns of use. Twenty-one percent (n = 12) of study participants resided in dwellings not connected to a community water system. Eleven percent (n = 7) of subjects reported drinking hauled water from unregulated sources. Coliform bacteria were present in 44% (n = 27) of household water samples, and 68% (n = 40) of samples contained residual chlorine concentrations of

Published

2018

3. Metagenomic Description of Preenrichment and Postenrichment of Recalled Chapati Atta Flour Using a Shotgun Sequencing Approach

Author

Tina S. Lusk Pfefer, Padmini Ramachandran, Julie A. Kase, Andrea Ottesen, and Elizabeth Reed

Subjects

0301 basic medicine, Klebsiella, biology, Shotgun sequencing, 030231 tropical medicine, Pantoea, Enterobacter, biology.organism_classification, medicine.disease_cause, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Metagenomics, Genetics, medicine, Prokaryotes, Food science, Molecular Biology, Escherichia coli, Bacteria, Escherichia coli O121

Abstract

The bacterial microbiome of flour recalled for possible Escherichia coli O121 contamination was characterized before (hour 0) and after (hour 24) enrichment using shotgun sequencing. At hour 0, Staphylococcus (46.8 to 66.5%) and Pantoea (12.6 to 21.0%) bacteria were dominant. At hour 24, Enterobacter (28.7 to 70.9%) and Klebsiella (25.6 to 68.6%) bacteria dominated, and Escherichia coli ranged from 0.3 to 17.9%.

Published

2018

4. Identification of Brucella genus and eight Brucella species by Luminex bead-based suspension array

Author

Julie A. Kase, Tina S. Lusk Pfefer, and Ruth Timme

Subjects

0301 basic medicine, Brucella species, DNA, Bacterial, High-throughput screening, 030106 microbiology, Pcr assay, Brucella, Microbiology, Sensitivity and Specificity, Brucellosis, 03 medical and health sciences, Milk products, Genus, medicine, Animals, Humans, Oligonucleotide Array Sequence Analysis, Sheep, biology, medicine.disease, biology.organism_classification, Virology, Bacterial Typing Techniques, 030104 developmental biology, Milk, Food Science

Abstract

Globally, unpasteurized milk products are vehicles for the transmission of brucellosis, a zoonosis responsible for cases of foodborne illness in the United States and elsewhere. Existing PCR assays to detect Brucella species are restricted by the resolution of band sizes on a gel or the number of fluorescent channels in a single real-time system. The Luminex bead-based suspension array is performed in a 96-well plate allowing for high throughput screening of up to 100 targets in one sample with easily discernible results. We have developed an array using the Bio-Plex 200 to differentiate the most common Brucella species: B. abortus, B. melitensis, B. suis, B. suis bv5, B. canis, B. ovis, B. pinnipedia, and B. neotomae, as well as Brucella genus. All probes showed high specificity, with no cross-reaction with non-Brucella strains. We could detect pure DNA from B. abortus, B. melitensis, and genus-level Brucella at concentrations of ≤5 fg/μL. Pure DNA from all other species tested positive at concentrations well below 500 fg/μL and we positively identified B. neotomae in six artificially contaminated cheese and milk products. An intra-laboratory verification further demonstrated the assay's accuracy and robustness in the rapid screening (3–4 h including PCR) of DNA.

Published

2017

5. Comparison of six commercial DNA extraction kits for detection of Brucella neotomae in Mexican and Central American-style cheese and other milk products

Author

Errol Strain, Julie A. Kase, and Tina S. Lusk

Subjects

DNA, Bacterial, biology, Colony Count, Microbial, Analytic Sample Preparation Methods, Pasteurization, Food Contamination, Brucella, biology.organism_classification, Microbiology, DNA extraction, law.invention, Milk, Milk products, Cheese, law, Animals, Cattle, Central american, Reagent Kits, Diagnostic, Food science, Brucella neotomae, Polymerase chain reaction, Food Science, Brucella DNA

Abstract

Raw or inadequately pasteurized milk from infected animals and cheese made with such milk are a frequent vehicle for human brucellosis infection. Also, biological terrorism is a concern with certain Brucella spp. Due to matrix-associated real-time polymerase chain reaction (qPCR) inhibitors, robust sample preparations are crucial. We compared six commercial nucleic acid extraction kits using nine Mexican and Central American-style soft cheeses or creams and three liquid milk products inoculated with Brucella neotomae , a surrogate for pathogenic Brucella spp. Kits were evaluated by purity and quantity of DNA as determined by qPCR Ct values, reproducibility across cheese and milk types, and cost. At 10 7 CFU/g in four different cheeses, Qiagen statistically outperformed all other kits. When two cheese styles were inoculated at dual levels, Qiagen and High Pure kit extracted samples at 1.5 × 10 5 CFU/g produced average Ct values of 34–39, while PrepSEQ and MagMAX kit extracted samples exhibited higher or no Ct values. High Pure and Qiagen kits excelled also with liquid milk products. Considering matrices, inoculation levels, and kits evaluated, High Pure and Qiagen products produced Brucella DNA of high quality and quantity indicated by the lowest Ct values and were the least expensive.

Published

2013

6. High-Resolution Microbiome Profiling for Detection and Tracking of Salmonella enterica.

Author

Grim, Christopher J., Daquigan, Ninalynn, Pfefer, Tina S. Lusk, Ottesen, Andrea R., White, James R., and Jarvis, Karen G.

Subjects

SALMONELLA enterica, DETECTION of microorganisms, RIBOSOMAL RNA

Abstract

16S rRNA community profiling continues to be a useful tool to study microbiome composition and dynamics, in part due to advances in next generation sequencing technology that translate into reductions in cost. Reliable taxonomic identification to the species-level, however, remains difficult, especially for short-read sequencing platforms, due to incomplete coverage of the 16S rRNA gene. This is especially true for Salmonella enterica, which is often found as a low abundant member of the microbial community, and is often found in combination with several other closely related enteric species. Here, we report on the evaluation and application of Resphera Insight, an ultra-high resolution taxonomic assignment algorithm for 16S rRNA sequences to the species level. The analytical pipeline achieved 99.7% sensitivity to correctly identify S. enterica from WGS datasets extracted from the FDA GenomeTrakr Bioproject, while demonstrating 99.9% specificity over other Enterobacteriaceae members. From low-diversity and low-complexity samples, namely ice cream, the algorithm achieved 100% specificity and sensitivity for Salmonella detection. As demonstrated using cilantro and chili powder, for highly complex and diverse samples, especially those that contain closely related species, the detection threshold will likely have to be adjusted higher to account for misidentifications. We also demonstrate the utility of this approach to detect Salmonella in the clinical setting, in this case, bloodborne infections. [ABSTRACT FROM AUTHOR]

Published

2017

7. Characterization of microflora in Latin-style cheeses by next-generation sequencing technology

Author

Julie A. Kase, James R. White, Eric W. Brown, Marc W. Allard, Andrea Ottesen, and Tina S. Lusk

Subjects

DNA, Bacterial, Microbiology (medical), food.ingredient, Microflora, Exiguobacterium, Lactococcus, lcsh:QR1-502, Next Generation Sequencing, Pasteurization, medicine.disease_cause, DNA, Ribosomal, Microbiology, lcsh:Microbiology, law.invention, food, Listeria monocytogenes, Cheese, law, RNA, Ribosomal, 16S, medicine, Cluster Analysis, Agar, Food science, Fermentation in food processing, Phylogeny, Bacteria, biology, business.industry, High-Throughput Nucleotide Sequencing, Biodiversity, Raw milk, biology.organism_classification, Biotechnology, Latin-style cheese, Metagenomics, business, Research Article

Abstract

Background Cheese contamination can occur at numerous stages in the manufacturing process including the use of improperly pasteurized or raw milk. Of concern is the potential contamination by Listeria monocytogenes and other pathogenic bacteria that find the high moisture levels and moderate pH of popular Latin-style cheeses like queso fresco a hospitable environment. In the investigation of a foodborne outbreak, samples typically undergo enrichment in broth for 24 hours followed by selective agar plating to isolate bacterial colonies for confirmatory testing. The broth enrichment step may also enable background microflora to proliferate, which can confound subsequent analysis if not inhibited by effective broth or agar additives. We used 16S rRNA gene sequencing to provide a preliminary survey of bacterial species associated with three brands of Latin-style cheeses after 24-hour broth enrichment. Results Brand A showed a greater diversity than the other two cheese brands (Brands B and C) at nearly every taxonomic level except phylum. Brand B showed the least diversity and was dominated by a single bacterial taxon, Exiguobacterium, not previously reported in cheese. This genus was also found in Brand C, although Lactococcus was prominent, an expected finding since this bacteria belongs to the group of lactic acid bacteria (LAB) commonly found in fermented foods. Conclusions The contrasting diversity observed in Latin-style cheese was surprising, demonstrating that despite similarity of cheese type, raw materials and cheese making conditions appear to play a critical role in the microflora composition of the final product. The high bacterial diversity associated with Brand A suggests it may have been prepared with raw materials of high bacterial diversity or influenced by the ecology of the processing environment. Additionally, the presence of Exiguobacterium in high proportions (96%) in Brand B and, to a lesser extent, Brand C (46%), may have been influenced by the enrichment process. This study is the first to define Latin-style cheese microflora using Next-Generation Sequencing. These valuable preliminary data will direct selective tailoring of agar formulations to improve culture-based detection of pathogens in Latin-style cheese.