Your search keyword '"Birdsell, DN"' showing total 33 results

1. Phylogeography of Francisella tularensis subsp. holarctica, Europe.

Author

Gyuranecz M, Birdsell DN, Splettstoesser W, Seibold E, Beckstrom-Sternberg SM, Makrai L, Fodor L, Fabbi M, Vicari N, Johansson A, Busch JD, Vogler AJ, Keim P, Wagner DM, Gyuranecz, Miklós, Birdsell, Dawn N, Splettstoesser, Wolf, Seibold, Erik, Beckstrom-Sternberg, Stephen M, and Makrai, László

Abstract

Francisella tularensis subsp. holarctica isolates from Austria, Germany, Hungary, Italy, and Romania were placed into an existing phylogeographic framework. Isolates from Italy were assigned to phylogenetic group B.FTNF002-00; the other isolates, to group B.13. Most F. tularensis subsp. holarctica isolates from Europe belong to these 2 geographically segregated groups. [ABSTRACT FROM AUTHOR]

Published

2012

2. Multiple Introductions of Yersinia pestis during Urban Pneumonic Plague Epidemic, Madagascar, 2017.

Author

Andrianaivoarimanana V, Savin C, Birdsell DN, Vogler AJ, Le Guern AS, Rahajandraibe S, Brémont S, Rahelinirina S, Sahl JW, Ramasindrazana B, Rakotonanahary RJL, Rakotomanana F, Randremanana R, Maheriniaina V, Razafimbia V, Kwasiborski A, Balière C, Ratsitorahina M, Baril L, Keim P, Caro V, Rasolofo V, Spiegel A, Pizarro-Cerda J, Wagner DM, and Rajerison M

Subjects

Humans, Madagascar epidemiology, Genomics, Plague epidemiology, Yersinia pestis genetics, Epidemics

Abstract

Pneumonic plague (PP) is characterized by high infection rate, person-to-person transmission, and rapid progression to severe disease. In 2017, a PP epidemic occurred in 2 Madagascar urban areas, Antananarivo and Toamasina. We used epidemiologic data and Yersinia pestis genomic characterization to determine the sources of this epidemic. Human plague emerged independently from environmental reservoirs in rural endemic foci >20 times during August-November 2017. Confirmed cases from 5 emergences, including 4 PP cases, were documented in urban areas. Epidemiologic and genetic analyses of cases associated with the first emergence event to reach urban areas confirmed that transmission started in August; spread to Antananarivo, Toamasina, and other locations; and persisted in Antananarivo until at least mid-November. Two other Y. pestis lineages may have caused persistent PP transmission chains in Antananarivo. Multiple Y. pestis lineages were independently introduced to urban areas from several rural foci via travel of infected persons during the epidemic.

Published

2024

3. Genomic characterization of Francisella tularensis and other diverse Francisella species from complex samples.

Author

Wagner DM, Birdsell DN, McDonough RF, Nottingham R, Kocos K, Celona K, Özsürekci Y, Öhrman C, Karlsson L, Myrtennäs K, Sjödin A, Johansson A, Keim PS, Forsman M, and Sahl JW

Subjects

Animals, DNA, Bacterial genetics, Genomics, Humans, Phylogeny, RNA, Anti-Infective Agents, Francisella tularensis genetics, Tularemia microbiology

Abstract

Francisella tularensis, the bacterium that causes the zoonosis tularemia, and its genetic near neighbor species, can be difficult or impossible to cultivate from complex samples. Thus, there is a lack of genomic information for these species that has, among other things, limited the development of robust detection assays for F. tularensis that are both specific and sensitive. The objective of this study was to develop and validate approaches to capture, enrich, sequence, and analyze Francisella DNA present in DNA extracts generated from complex samples. RNA capture probes were designed based upon the known pan genome of F. tularensis and other diverse species in the family Francisellaceae. Probes that targeted genomic regions also present in non-Francisellaceae species were excluded, and probes specific to particular Francisella species or phylogenetic clades were identified. The capture-enrichment system was then applied to diverse, complex DNA extracts containing low-level Francisella DNA, including human clinical tularemia samples, environmental samples (i.e., animal tissue and air filters), and whole ticks/tick cell lines, which was followed by sequencing of the enriched samples. Analysis of the resulting data facilitated rigorous and unambiguous confirmation of the detection of F. tularensis or other Francisella species in complex samples, identification of mixtures of different Francisella species in the same sample, analysis of gene content (e.g., known virulence and antimicrobial resistance loci), and high-resolution whole genome-based genotyping. The benefits of this capture-enrichment system include: even very low target DNA can be amplified; it is culture-independent, reducing exposure for research and/or clinical personnel and allowing genomic information to be obtained from samples that do not yield isolates; and the resulting comprehensive data not only provide robust means to confirm the presence of a target species in a sample, but also can provide data useful for source attribution, which is important from a genomic epidemiology perspective., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

4. Transmission of Antimicrobial Resistant Yersinia pestis During a Pneumonic Plague Outbreak.

Author

Andrianaivoarimanana V, Wagner DM, Birdsell DN, Nikolay B, Rakotoarimanana F, Randriantseheno LN, Vogler AJ, Sahl JW, Hall CM, Somprasong N, Cauchemez S, Schweizer HP, Razafimandimby H, Rogier C, and Rajerison M

Subjects

Animals, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Disease Outbreaks, Retrospective Studies, Plague drug therapy, Plague epidemiology, Yersinia pestis genetics

Abstract

Background: Pneumonic plague (PP), caused by Yersinia pestis, is the most feared clinical form of plague due to its rapid lethality and potential to cause outbreaks. PP outbreaks are now rare due to antimicrobial therapy., Methods: A PP outbreak in Madagascar involving transmission of a Y. pestis strain resistant to streptomycin, the current recommended first-line treatment in Madagascar, was retrospectively characterized using epidemiology, clinical diagnostics, molecular characterization, and animal studies., Results: The outbreak occurred in February 2013 in the Faratsiho district of Madagascar and involved 22 cases, including 3 untreated fatalities. The 19 other cases participated in funeral practices for the fatal cases and fully recovered after combination antimicrobial therapy: intramuscular streptomycin followed by oral co-trimoxazole. The Y. pestis strain that circulated during this outbreak is resistant to streptomycin resulting from a spontaneous point mutation in the 30S ribosomal protein S12 (rpsL) gene. This same mutation causes streptomycin resistance in 2 unrelated Y. pestis strains, one isolated from a fatal PP case in a different region of Madagascar in 1987 and another isolated from a fatal PP case in China in 1996, documenting this mutation has occurred independently at least 3 times in Y. pestis. Laboratory experiments revealed this mutation has no detectable impact on fitness or virulence, and revertants to wild-type are rare in other species containing it, suggesting Y. pestis strains containing it could persist in the environment., Conclusions: Unique antimicrobial resistant (AMR) strains of Y. pestis continue to arise in Madagascar and can be transmitted during PP outbreaks., (© Infectious Diseases Society of America 2021.)

Published

2022

5. Proteomic Signatures of Antimicrobial Resistance in Yersinia pestis and Francisella tularensis .

Author

Deatherage Kaiser BL, Birdsell DN, Hutchison JR, Thelaus J, Jenson SC, Andrianaivoarimanana V, Byström M, Myrtennäs K, McDonough RF, Nottingham RD, Sahl JW, Schweizer HP, Rajerison M, Forsman M, Wunschel DS, and Wagner DM

Abstract

Antimicrobial resistance (AMR) is a well-recognized, widespread, and growing issue of concern. With increasing incidence of AMR, the ability to respond quickly to infection with or exposure to an AMR pathogen is critical. Approaches that could accurately and more quickly identify whether a pathogen is AMR also are needed to more rapidly respond to existing and emerging biological threats. We examined proteins associated with paired AMR and antimicrobial susceptible (AMS) strains of Yersinia pestis and Francisella tularensis , causative agents of the diseases plague and tularemia, respectively, to identify whether potential existed to use proteins as signatures of AMR. We found that protein expression was significantly impacted by AMR status. Antimicrobial resistance-conferring proteins were expressed even in the absence of antibiotics in growth media, and the abundance of 10-20% of cellular proteins beyond those that directly confer AMR also were significantly changed in both Y. pestis and F. tularensis . Most strikingly, the abundance of proteins involved in specific metabolic pathways and biological functions was altered in all AMR strains examined, independent of species, resistance mechanism, and affected cellular antimicrobial target. We have identified features that distinguish between AMR and AMS strains, including a subset of features shared across species with different resistance mechanisms, which suggest shared biological signatures of resistance. These features could form the basis of novel approaches to identify AMR phenotypes in unknown strains., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Deatherage Kaiser, Birdsell, Hutchison, Thelaus, Jenson, Andrianaivoarimanana, Byström, Myrtennäs, McDonough, Nottingham, Sahl, Schweizer, Rajerison, Forsman, Wunschel and Wagner.)

Published

2022

6. Phylogenetic Analysis of Francisella tularensis Group A.II Isolates from 5 Patients with Tularemia, Arizona, USA, 2015-2017.

Author

Birdsell DN, Yaglom H, Rodriguez E, Engelthaler DM, Maurer M, Gaither M, Vinocur J, Weiss J, Terriquez J, Komatsu K, Ormsby ME, Gebhardt M, Solomon C, Nienstadt L, Williamson CHD, Sahl JW, Keim PS, and Wagner DM

Subjects

Aged, Arizona epidemiology, Female, Francisella tularensis isolation & purification, Genome, Bacterial, History, 21st Century, Humans, Male, Middle Aged, Phylogeny, Tularemia history, Whole Genome Sequencing, Francisella tularensis classification, Francisella tularensis genetics, Tularemia epidemiology, Tularemia microbiology

Abstract

We examined 5 tularemia cases in Arizona, USA, during 2015-2017. All were caused by Francisella tularensis group A.II. Genetically similar isolates were found across large spatial and temporal distances, suggesting that group A.II strains are dispersed across long distances by wind and exhibit low replication rates in the environment.

Published

2019

7. A single introduction of Yersinia pestis to Brazil during the 3rd plague pandemic.

Author

Vogler AJ, Sahl JW, Leal NC, Sobreira M, Williamson CHD, Bollig MC, Birdsell DN, Rivera A, Thompson B, Nottingham R, Rezende AM, Keim P, Almeida AMP, and Wagner DM

Subjects

Brazil epidemiology, DNA, Bacterial genetics, Genetic Variation, Genome, Bacterial, History, 19th Century, History, 20th Century, Humans, Phylogeny, Phylogeography, Plague epidemiology, Plague microbiology, Polymorphism, Single Nucleotide, Spatio-Temporal Analysis, Yersinia pestis classification, Yersinia pestis isolation & purification, Pandemics history, Plague history, Yersinia pestis genetics

Abstract

Yersinia pestis was introduced to Brazil during the third plague pandemic and currently exists in several recognized foci. There is currently limited available phylogeographic data regarding Y. pestis in Brazil. We generated whole genome sequences for 411 Y. pestis strains from six Brazilian foci to investigate the phylogeography of Y. pestis in Brazil; these strains were isolated from 1966 to 1997. All 411 strains were assigned to a single monophyletic clade within the 1.ORI population, indicating a single Y. pestis introduction was responsible for the successful establishment of endemic foci in Brazil. There was a moderate level of genomic diversity but little population structure among the 411 Brazilian Y. pestis strains, consistent with a radial expansion wherein Y. pestis spread rapidly from the coast to the interior of Brazil and became ecologically established. Overall, there were no strong spatial or temporal patterns among the Brazilian strains. However, strains from the same focus tended to be more closely related and strains isolated from foci closer to the coast tended to fall in more basal positions in the whole genome phylogeny than strains from more interior foci. Overall, the patterns observed in Brazil are similar to other locations affected during the 3rd plague pandemic such as in North America and Madagascar., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

8. Evaluating the long-term persistence of Bacillus spores on common surfaces.

Author

Enger KS, Mitchell J, Murali B, Birdsell DN, Keim P, Gurian PL, and Wagner DM

Subjects

Colony Count, Microbial, Stainless Steel analysis, Bacillus cereus growth & development, Bacillus thuringiensis growth & development, Spores, Bacterial growth & development

Abstract

Bacillus spores resist inactivation, but the extent of their persistence on common surfaces is unclear. This work addresses knowledge gaps regarding biothreat agents in the environment to reduce uncertainty in risk assessment models. Studies were conducted to investigate the long-term inactivation of Bacillus anthracis and three commonly used surrogate organisms - B. cereus, B. atrophaeus and B. thuringiensis on three materials: laminate countertop, stainless steel and polystyrene Petri dishes. Viable spores were measured at 1, 30, 90, 196, 304 and 1038 days. Twelve different persistence models were fit to the data using maximum likelihood estimation and compared. The study found that (1) spore inactivation was not log-linear, as commonly modelled; (2) B. thuringiensis counts increased at 24 h on all materials, followed by a subsequent decline; (3) several experiments showed evidence of a 'U' shape, with spore counts apparently decreasing and then increasing between 1 and 304 days; (4) spores on polystyrene showed little inactivation; and (5) the maximum inactivation of 56% was observed for B. atrophaeus spores on steel at 196 days. Over the range of surfaces, time durations and conditions (humidity controlled vs. uncontrolled) examined, B. thuringiensis most closely matched the behaviour of B. anthracis., (© 2018 The Authors. Microbial Biotechnology published by John Wiley & Sons Ltd and Society for Applied Microbiology.)

Published

2018

9. Coinfections identified from metagenomic analysis of cervical lymph nodes from tularemia patients.

Author

Birdsell DN, Özsürekci Y, Rawat A, Aycan AE, Mitchell CL, Sahl JW, Johansson A, Colman RE, Schupp JM, Ceyhan M, Keim PS, and Wagner DM

Subjects

DNA, Bacterial genetics, DNA, Bacterial metabolism, Female, Francisella tularensis isolation & purification, Humans, Lymph Nodes pathology, Male, Middle Aged, Neck, Polymerase Chain Reaction, Sequence Analysis, DNA, Coinfection diagnosis, Francisella tularensis genetics, Lymph Nodes microbiology, Metagenomics, Tularemia diagnosis

Abstract

Background: Underlying coinfections may complicate infectious disease states but commonly go unnoticed because an a priori clinical suspicion is usually required so they can be detected via targeted diagnostic tools. Shotgun metagenomics is a broad diagnostic tool that can be useful for identifying multiple microbes simultaneously especially if coupled with lymph node aspirates, a clinical matrix known to house disparate pathogens. The objective of this study was to analyze the utility of this unconventional diagnostic approach (shotgun metagenomics) using clinical samples from human tularemia cases as a test model. Tularemia, caused by the bacterium Francisella tularensis, is an emerging infectious disease in Turkey. This disease commonly manifests as swelling of the lymph nodes nearest to the entry of infection. Because swollen cervical nodes are observed from many different types of human infections we used these clinical sample types to analyze the utility of shotgun metagenomics., Methods: We conducted an unbiased molecular survey using shotgun metagenomics sequencing of DNA extracts from fine-needle aspirates of neck lymph nodes from eight tularemia patients who displayed protracted symptoms. The resulting metagenomics data were searched for microbial sequences (bacterial and viral)., Results: F. tularensis sequences were detected in all samples. In addition, we detected DNA of other known pathogens in three patients. Both Hepatitis B virus (HBV) and Human Parvovirus B-19 were detected in one individual and Human Parvovirus B-19 alone was detected in two other individuals. Subsequent PCR coupled with Sanger sequencing verified the metagenomics results. The HBV status was independently confirmed via serological diagnostics, despite evading notice during the initial assessment., Conclusion: Our data highlight that shotgun metagenomics of fine-needle lymph node aspirates is a promising clinical diagnostic strategy to identify coinfections. Given the feasibility of the diagnostic approach demonstrated here, further steps to promote integration of this type of diagnostic capability into mainstream clinical practice are warranted.

Published

2018

10. Low cost, low tech SNP genotyping tools for resource-limited areas: Plague in Madagascar as a model.

Author

Mitchell CL, Andrianaivoarimanana V, Colman RE, Busch J, Hornstra-O'Neill H, Keim PS, Wagner DM, Rajerison M, and Birdsell DN

Subjects

Costs and Cost Analysis, Electrophoresis, Agar Gel, Genotyping Techniques economics, Health Resources, Humans, Madagascar, Polymerase Chain Reaction, Yersinia pestis classification, Genotyping Techniques instrumentation, Plague diagnosis, Polymorphism, Single Nucleotide, Yersinia pestis genetics

Abstract

Background: Genetic analysis of pathogenic organisms is a useful tool for linking human cases together and/or to potential environmental sources. The resulting data can also provide information on evolutionary patterns within a targeted species and phenotypic traits. However, the instruments often used to generate genotyping data, such as single nucleotide polymorphisms (SNPs), can be expensive and sometimes require advanced technologies to implement. This places many genotyping tools out of reach for laboratories that do not specialize in genetic studies and/or lack the requisite financial and technological resources. To address this issue, we developed a low cost and low tech genotyping system, termed agarose-MAMA, which combines traditional PCR and agarose gel electrophoresis to target phylogenetically informative SNPs., Methodology/principal Findings: To demonstrate the utility of this approach for generating genotype data in a resource-constrained area (Madagascar), we designed an agarose-MAMA system targeting previously characterized SNPs within Yersinia pestis, the causative agent of plague. We then used this system to genetically type pathogenic strains of Y. pestis in a Malagasy laboratory not specialized in genetic studies, the Institut Pasteur de Madagascar (IPM). We conducted rigorous assay performance validations to assess potential variation introduced by differing research facilities, reagents, and personnel and found no difference in SNP genotyping results. These agarose-MAMA PCR assays are currently employed as an investigative tool at IPM, providing Malagasy researchers a means to improve the value of their plague epidemiological investigations by linking outbreaks to potential sources through genetic characterization of isolates and to improve understanding of disease ecology that may contribute to a long-term control effort., Conclusions: The success of our study demonstrates that the SNP-based genotyping capacity of laboratories in developing countries can be expanded with manageable financial cost for resource constraint laboratories. This is a practical formula that reduces resource-driven limitations to genetic research and promises to advance global collective knowledge of infectious diseases emanating from resource limited regions of the world.

Published

2017

11. Temporal phylogeography of Yersinia pestis in Madagascar: Insights into the long-term maintenance of plague.

Author

Vogler AJ, Andrianaivoarimanana V, Telfer S, Hall CM, Sahl JW, Hepp CM, Centner H, Andersen G, Birdsell DN, Rahalison L, Nottingham R, Keim P, Wagner DM, and Rajerison M

Subjects

Endemic Diseases, Genome, Bacterial, Genotype, Humans, Madagascar epidemiology, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Spatio-Temporal Analysis, Yersinia pestis genetics, Phylogeography, Plague epidemiology, Plague microbiology, Yersinia pestis classification, Yersinia pestis isolation & purification

Abstract

Background: Yersinia pestis appears to be maintained in multiple, geographically separate, and phylogenetically distinct subpopulations within the highlands of Madagascar. However, the dynamics of these locally differentiated subpopulations through time are mostly unknown. To address that gap and further inform our understanding of plague epidemiology, we investigated the phylogeography of Y. pestis in Madagascar over an 18 year period., Methodology/principal Findings: We generated whole genome sequences for 31 strains and discovered new SNPs that we used in conjunction with previously identified SNPs and variable-number tandem repeats (VNTRs) to genotype 773 Malagasy Y. pestis samples from 1995 to 2012. We mapped the locations where samples were obtained on a fine geographic scale to examine phylogeographic patterns through time. We identified 18 geographically separate and phylogenetically distinct subpopulations that display spatial and temporal stability, persisting in the same locations over a period of almost two decades. We found that geographic areas with higher levels of topographical relief are associated with greater levels of phylogenetic diversity and that sampling frequency can vary considerably among subpopulations and from year to year. We also found evidence of various Y. pestis dispersal events, including over long distances, but no evidence that any dispersal events resulted in successful establishment of a transferred genotype in a new location during the examined time period., Conclusions/significance: Our analysis suggests that persistent endemic cycles of Y. pestis transmission within local areas are responsible for the long term maintenance of plague in Madagascar, rather than repeated episodes of wide scale epidemic spread. Landscape likely plays a role in maintaining Y. pestis subpopulations in Madagascar, with increased topographical relief associated with increased levels of localized differentiation. Local ecological factors likely affect the dynamics of individual subpopulations and the associated likelihood of observing human plague cases in a given year in a particular location.

Published

2017

12. Pneumonic Plague Transmission, Moramanga, Madagascar, 2015.

Author

Ramasindrazana B, Andrianaivoarimanana V, Rakotondramanga JM, Birdsell DN, Ratsitorahina M, and Rajerison M

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Humans, Madagascar epidemiology, Male, Middle Aged, Plague microbiology, Plague mortality, Young Adult, Contact Tracing, Plague epidemiology, Plague transmission, Yersinia pestis genetics

Abstract

During a pneumonic plague outbreak in Moramanga, Madagascar, we identified 4 confirmed, 1 presumptive, and 9 suspected plague case-patients. Human-to-human transmission among close contacts was high (reproductive number 1.44) and the case fatality rate was 71%. Phylogenetic analysis showed that the Yersinia pestis isolates belonged to group q3, different from the previous outbreak.

Published

2017

13. Genetic variation at the MHC DRB1 locus is similar across Gunnison's prairie dog (Cynomys gunnisoni) colonies regardless of plague history.

Author

Cobble KR, Califf KJ, Stone NE, Shuey MM, Birdsell DN, Colman RE, Schupp JM, Aziz M, Van Andel R, Rocke TE, Wagner DM, and Busch JD

Abstract

Yersinia pestis was introduced to North America around 1900 and leads to nearly 100% mortality in prairie dog (Cynomys spp.) colonies during epizootic events, which suggests this pathogen may exert a strong selective force. We characterized genetic diversity at an MHC class II locus (DRB1) in Gunnison's prairie dog (C. gunnisoni) and quantified population genetic structure at the DRB1 versus 12 microsatellite loci in three large Arizona colonies. Two colonies, Seligman (SE) and Espee Ranch (ES), have experienced multiple plague-related die-offs in recent years, whereas plague has never been documented at Aubrey Valley (AV). We found fairly low allelic diversity at the DRB1 locus, with one allele (DRB1*01) at high frequency (0.67-0.87) in all colonies. Two other DRB1 alleles appear to be trans-species polymorphisms shared with the black-tailed prairie dog (C. ludovicianus), indicating that these alleles have been maintained across evolutionary time frames. Estimates of genetic differentiation were generally lower at the MHC locus (F ST = 0.033) than at microsatellite markers (F ST = 0.098). The reduced differentiation at DRB1 may indicate that selection has been important for shaping variation at MHC loci, regardless of the presence or absence of plague in recent decades. However, genetic drift has probably also influenced the DRB1 locus because its level of differentiation was not different from that of microsatellites in an F ST outlier analysis. We then compared specific MHC alleles to plague survivorship in 60 C. gunnisoni that had been experimentally infected with Y. pestis. We found that survival was greater in individuals that carried at least one copy of the most common allele (DRB1*01) compared to those that did not (60% vs. 20%). Although the sample sizes of these two groups were unbalanced, this result suggests the possibility that this MHC class II locus, or a nearby linked gene, could play a role in plague survival.

Published

2016

14. High Prevalence of Intermediate Leptospira spp. DNA in Febrile Humans from Urban and Rural Ecuador.

Author

Chiriboga J, Barragan V, Arroyo G, Sosa A, Birdsell DN, España K, Mora A, Espín E, Mejía ME, Morales M, Pinargote C, Gonzalez M, Hartskeerl R, Keim P, Bretas G, Eisenberg JN, and Trueba G

Subjects

Animals, Ecuador epidemiology, Fever of Unknown Origin epidemiology, Fever of Unknown Origin virology, Humans, Leptospira genetics, Leptospira virology, Leptospirosis epidemiology, Prevalence, Rural Population, Sequence Analysis, DNA methods, Urban Population, Disease Outbreaks, Fever of Unknown Origin diagnosis, Leptospira pathogenicity, Leptospirosis diagnosis

Abstract

Leptospira spp., which comprise 3 clusters (pathogenic, saprophytic, and intermediate) that vary in pathogenicity, infect >1 million persons worldwide each year. The disease burden of the intermediate leptospires is unclear. To increase knowledge of this cluster, we used new molecular approaches to characterize Leptospira spp. in 464 samples from febrile patients in rural, semiurban, and urban communities in Ecuador; in 20 samples from nonfebrile persons in the rural community; and in 206 samples from animals in the semiurban community. We observed a higher percentage of leptospiral DNA-positive samples from febrile persons in rural (64%) versus urban (21%) and semiurban (25%) communities; no leptospires were detected in nonfebrile persons. The percentage of intermediate cluster strains in humans (96%) was higher than that of pathogenic cluster strains (4%); strains in animal samples belonged to intermediate (49%) and pathogenic (51%) clusters. Intermediate cluster strains may be causing a substantial amount of fever in coastal Ecuador.

Published

2015

15. Water as Source of Francisella tularensis Infection in Humans, Turkey.

Author

Kilic S, Birdsell DN, Karagöz A, Çelebi B, Bakkaloglu Z, Arikan M, Sahl JW, Mitchell C, Rivera A, Maltinsky S, Keim P, Üstek D, Durmaz R, and Wagner DM

Subjects

Animals, Disease Outbreaks, Genotype, Humans, Phylogeography methods, Rodentia, Turkey epidemiology, Water, Waterborne Diseases genetics, Francisella tularensis pathogenicity, Tularemia epidemiology, Waterborne Diseases epidemiology

Abstract

Francisella tularensis DNA extractions and isolates from the environment and humans were genetically characterized to elucidate environmental sources that cause human tularemia in Turkey. Extensive genetic diversity consistent with genotypes from human outbreaks was identified in environmental samples and confirmed water as a source of human tularemia in Turkey.

Published

2015

16. Whole Genome Analysis of Injectional Anthrax Identifies Two Disease Clusters Spanning More Than 13 Years.

Author

Keim P, Grunow R, Vipond R, Grass G, Hoffmaster A, Birdsell DN, Klee SR, Pullan S, Antwerpen M, Bayer BN, Latham J, Wiggins K, Hepp C, Pearson T, Brooks T, Sahl J, and Wagner DM

Subjects

Anthrax transmission, Cluster Analysis, Disease Outbreaks, Drug Users, Humans, Molecular Epidemiology, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Spatio-Temporal Analysis, Anthrax epidemiology, Anthrax microbiology, Bacillus anthracis classification, Bacillus anthracis genetics, Genome, Bacterial, Genomics methods

Abstract

Background: Anthrax is a rare disease in humans but elicits great public fear because of its past use as an agent of bioterrorism. Injectional anthrax has been occurring sporadically for more than ten years in heroin consumers across multiple European countries and this outbreak has been difficult to trace back to a source., Methods: We took a molecular epidemiological approach in understanding this disease outbreak, including whole genome sequencing of Bacillus anthracis isolates from the anthrax victims. We also screened two large strain repositories for closely related strains to provide context to the outbreak., Findings: Analyzing 60 Bacillus anthracis isolates associated with injectional anthrax cases and closely related reference strains, we identified 1071 Single Nucleotide Polymorphisms (SNPs). The synapomorphic SNPs (350) were used to reconstruct phylogenetic relationships, infer likely epidemiological sources and explore the dynamics of evolving pathogen populations. Injectional anthrax genomes separated into two tight clusters: one group was exclusively associated with the 2009-10 outbreak and located primarily in Scotland, whereas the second comprised more recent (2012-13) cases but also a single Norwegian case from 2000., Interpretation: Genome-based differentiation of injectional anthrax isolates argues for at least two separate disease events spanning > 12 years. The genomic similarity of the two clusters makes it likely that they are caused by separate contamination events originating from the same geographic region and perhaps the same site of drug manufacturing or processing. Pathogen diversity within single patients challenges assumptions concerning population dynamics of infecting B. anthracis and host defensive barriers for injectional anthrax., Funding: This work was supported by the United States Department of Homeland Security grant no. HSHQDC-10-C-00,139 and via a binational cooperative agreement between the United States Government and the Government of Germany. This work was supported by funds from the German Ministry of Defense (Sonderforschungsprojekt 25Z1-S-431,214). Support for sequencing was also obtained from Illumina, Inc. These sources had no role in the data generation or interpretation, and had not role in the manuscript preparation., Panel 1 Research in Context Systematic Review: We searched PubMed for any article published before Jun. 17, 2015, with the terms "Bacillus anthracis" and "heroin", or "injectional anthrax". Other than our previously published work (Price et al., 2012), we found no other relevant studies on elucidating the global phylogenetic relationships of B. anthracis strains associated with injectional anthrax caused by recreational heroin consumption of spore-contaminated drug. There were, however, publically available genome sequences of two strains involved (Price et al., 2012, Grunow et al., 2013) and the draft genome sequence of Bacillus anthracis UR-1, isolated from a German heroin user (Ruckert et al., 2012) with only limited information on the genotyping of closely related strains (Price et al., 2012, Grunow et al., 2013)., Lay Person Interpretation: Injectional anthrax has been plaguing heroin drug users across Europe for more than 10 years. In order to better understand this outbreak, we assessed genomic relationships of all available injectional anthrax strains from four countries spanning a > 12 year period. Very few differences were identified using genome-based analysis, but these differentiated the isolates into two distinct clusters. This strongly supports a hypothesis of at least two separate anthrax spore contamination events perhaps during the drug production processes. Identification of two events would not have been possible from standard epidemiological analysis. These comprehensive data will be invaluable for classifying future injectional anthrax isolates and for future geographic attribution.

Published

2015

17. Diverse Francisella tularensis strains and oropharyngeal tularemia, Turkey.

Author

Özsürekci Y, Birdsell DN, Çelik M, Karadağ-Öncel E, Johansson A, Forsman M, Vogler AJ, Keim P, Ceyhan M, and Wagner DM

Subjects

Disease Outbreaks, Genes, Bacterial, Humans, Pharyngeal Diseases epidemiology, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Tularemia epidemiology, Turkey epidemiology, Francisella tularensis genetics, Pharyngeal Diseases microbiology, Tularemia microbiology

Published

2015

18. Insights to genetic characterization tools for epidemiological tracking of Francisella tularensis in Sweden.

Author

Wahab T, Birdsell DN, Hjertqvist M, Mitchell CL, Wagner DM, Keim PS, Hedenström I, and Löfdahl S

Subjects

Francisella tularensis classification, Geography, Humans, Minisatellite Repeats, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Sweden epidemiology, Francisella tularensis genetics, Tularemia epidemiology, Tularemia microbiology

Abstract

Tularaemia, caused by the bacterium Francisella tularensis, is endemic in Sweden and is poorly understood. The aim of this study was to evaluate the effectiveness of three different genetic typing systems to link a genetic type to the source and place of tularemia infection in Sweden. Canonical single nucleotide polymorphisms (canSNPs), MLVA including five variable number of tandem repeat loci and PmeI-PFGE were tested on 127 F. tularensis positive specimens collected from Swedish case-patients. All three typing methods identified two major genetic groups with near-perfect agreement. Higher genetic resolution was obtained with canSNP and MLVA compared to PFGE; F. tularensis samples were first assigned into ten phylogroups based on canSNPs followed by 33 unique MLVA types. Phylogroups were geographically analysed to reveal complex phylogeographic patterns in Sweden. The extensive phylogenetic diversity found within individual counties posed a challenge to linking specific genetic types with specific geographic locations. Despite this, a single phylogroup (B.22), defined by a SNP marker specific to a lone Swedish sequenced strain, did link genetic type with a likely geographic place. This result suggests that SNP markers, highly specific to a particular reference genome, may be found most frequently among samples recovered from the same location where the reference genome originated. This insight compels us to consider whole-genome sequencing (WGS) as the appropriate tool for effectively linking specific genetic type to geography. Comparing the WGS of an unknown sample to WGS databases of archived Swedish strains maximizes the likelihood of revealing those rare geographically informative SNPs.

Published

2014

19. TaqMan real-time PCR assays for single-nucleotide polymorphisms which identify Francisella tularensis and its subspecies and subpopulations.

Author

Birdsell DN, Vogler AJ, Buchhagen J, Clare A, Kaufman E, Naumann A, Driebe E, Wagner DM, and Keim PS

Subjects

DNA, Bacterial chemistry, Francisella tularensis classification, Francisella tularensis isolation & purification, Genotype, Genotyping Techniques, Humans, Real-Time Polymerase Chain Reaction methods, Tularemia diagnosis, Francisella tularensis genetics, Polymorphism, Single Nucleotide

Abstract

Francisella tularensis, the etiologic agent of tularemia and a Class A Select Agent, is divided into three subspecies and multiple subpopulations that differ in virulence and geographic distribution. Given these differences, there is a need to rapidly and accurately determine if a strain is F. tularensis and, if it is, assign it to subspecies and subpopulation. We designed TaqMan real-time PCR genotyping assays using eleven single nucleotide polymorphisms (SNPs) that were potentially specific to closely related groups within the genus Francisella, including numerous subpopulations within F. tularensis species. We performed extensive validation studies to test the specificity of these SNPs to particular populations by screening the assays across a set of 565 genetically and geographically diverse F. tularensis isolates and an additional 21 genetic near-neighbor (outgroup) isolates. All eleven assays correctly determined the genetic groups of all 565 F. tularensis isolates. One assay differentiates F. tularensis, F. novicida, and F. hispaniensis from the more genetically distant F. philomiragia and Francisella-like endosymbionts. Another assay differentiates F. tularensis isolates from near neighbors. The remaining nine assays classify F. tularensis-confirmed isolates into F. tularensis subspecies and subpopulations. The genotyping accuracy of these nine assays diminished when tested on outgroup isolates (i.e. non F. tularensis), therefore a hierarchical approach of assay usage is recommended wherein the F. tularensis-specific assay is used before the nine downstream assays. Among F. tularensis isolates, all eleven assays were highly sensitive, consistently amplifying very low concentrations of DNA. Altogether, these eleven TaqMan real-time PCR assays represent a highly accurate, rapid, and sensitive means of identifying the species, subspecies, and subpopulation of any F. tularensis isolate if used in a step-wise hierarchical scheme. These assays would be very useful in clinical, epidemiological, and/or forensic investigations involving F. tularensis.

Published

2014

20. Genome Sequence of Bacillus anthracis STI, a Sterne-Like Georgian/Soviet Vaccine Strain.

Author

Okinaka RT, Challacombe J, Drees K, Birdsell DN, Janke N, Naumann A, Seymour M, Hornstra H, Schupp J, Sahl J, Foster JT, Pearson T, Turnbull P, and Keim P

Abstract

The Bacillus anthracis strain STI is a Soviet vaccine strain that lacks the pXO2 plasmid. Previous data indicate that this isolate forms a new branch within the B. anthracis sub-group originally identified as A. Br.008/009., (Copyright © 2014 Okinaka et al.)

Published

2014

21. Phylogeography of Bacillus anthracis in the country of Georgia shows evidence of population structuring and is dissimilar to other regional genotypes.

Author

Khmaladze E, Birdsell DN, Naumann AA, Hochhalter CB, Seymour ML, Nottingham R, Beckstrom-Sternberg SM, Beckstrom-Sternberg J, Nikolich MP, Chanturia G, Zhgenti E, Zakalashvili M, Malania L, Babuadze G, Tsertsvadze N, Abazashvili N, Kekelidze M, Tsanava S, Imnadze P, Ganz HH, Getz WM, Pearson O, Gajer P, Eppinger M, Ravel J, Wagner DM, Okinaka RT, Schupp JM, Keim P, and Pearson T

Subjects

Georgia, Humans, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Anthrax microbiology, Bacillus anthracis genetics

Abstract

Sequence analyses and subtyping of Bacillus anthracis strains from Georgia reveal a single distinct lineage (Aust94) that is ecologically established. Phylogeographic analysis and comparisons to a global collection reveals a clade that is mostly restricted to Georgia. Within this clade, many groups are found around the country, however at least one subclade is only found in the eastern part. This pattern suggests that dispersal into and out of Georgia has been rare and despite historical dispersion within the country, for at least for one lineage, current spread is limited.

Published

2014

22. Francisella tularensis subsp. tularensis group A.I, United States.

Author

Birdsell DN, Johansson A, Öhrman C, Kaufman E, Molins C, Pearson T, Gyuranecz M, Naumann A, Vogler AJ, Myrtennäs K, Larsson P, Forsman M, Sjödin A, Gillece JD, Schupp J, Petersen JM, Keim P, and Wagner DM

Subjects

Francisella tularensis genetics, Genome, Viral, Humans, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Tularemia microbiology, United States epidemiology, Francisella tularensis classification, Tularemia epidemiology

Abstract

We used whole-genome analysis and subsequent characterization of geographically diverse strains using new genetic signatures to identify distinct subgroups within Francisella tularensis subsp. tularensis group A.I: A.I.3, A.I.8, and A.I.12. These subgroups exhibit complex phylogeographic patterns within North America. The widest distribution was observed for A.I.12, which suggests an adaptive advantage.

Published

2014

23. Yersinia pestis and the plague of Justinian 541-543 AD: a genomic analysis.

Author

Wagner DM, Klunk J, Harbeck M, Devault A, Waglechner N, Sahl JW, Enk J, Birdsell DN, Kuch M, Lumibao C, Poinar D, Pearson T, Fourment M, Golding B, Riehm JM, Earn DJ, Dewitte S, Rouillard JM, Grupe G, Wiechmann I, Bliska JB, Keim PS, Scholz HC, Holmes EC, and Poinar H

Subjects

Africa epidemiology, Animals, Asia epidemiology, Disease Reservoirs, Europe epidemiology, History, Medieval, Humans, Plague epidemiology, Plague genetics, Tooth microbiology, Yersinia pestis isolation & purification, DNA, Bacterial isolation & purification, Pandemics history, Phylogeny, Plague history, Yersinia pestis genetics

Abstract

Background: Yersinia pestis has caused at least three human plague pandemics. The second (Black Death, 14-17th centuries) and third (19-20th centuries) have been genetically characterised, but there is only a limited understanding of the first pandemic, the Plague of Justinian (6-8th centuries). To address this gap, we sequenced and analysed draft genomes of Y pestis obtained from two individuals who died in the first pandemic., Methods: Teeth were removed from two individuals (known as A120 and A76) from the early medieval Aschheim-Bajuwarenring cemetery (Aschheim, Bavaria, Germany). We isolated DNA from the teeth using a modified phenol-chloroform method. We screened DNA extracts for the presence of the Y pestis-specific pla gene on the pPCP1 plasmid using primers and standards from an established assay, enriched the DNA, and then sequenced it. We reconstructed draft genomes of the infectious Y pestis strains, compared them with a database of genomes from 131 Y pestis strains from the second and third pandemics, and constructed a maximum likelihood phylogenetic tree., Findings: Radiocarbon dating of both individuals (A120 to 533 AD [plus or minus 98 years]; A76 to 504 AD [plus or minus 61 years]) places them in the timeframe of the first pandemic. Our phylogeny contains a novel branch (100% bootstrap at all relevant nodes) leading to the two Justinian samples. This branch has no known contemporary representatives, and thus is either extinct or unsampled in wild rodent reservoirs. The Justinian branch is interleaved between two extant groups, 0.ANT1 and 0.ANT2, and is distant from strains associated with the second and third pandemics., Interpretation: We conclude that the Y pestis lineages that caused the Plague of Justinian and the Black Death 800 years later were independent emergences from rodents into human beings. These results show that rodent species worldwide represent important reservoirs for the repeated emergence of diverse lineages of Y pestis into human populations., Funding: McMaster University, Northern Arizona University, Social Sciences and Humanities Research Council of Canada, Canada Research Chairs Program, US Department of Homeland Security, US National Institutes of Health, Australian National Health and Medical Research Council., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

24. Draft Genome Sequences of Two Bulgarian Bacillus anthracis Strains.

Author

Birdsell DN, Antwerpen M, Keim P, Hanczaruk M, Foster JT, Sahl JW, Wagner DM, and Grass G

Abstract

Bacillus anthracis strains previously isolated from Bulgaria form a unique subcluster within the A1.a cluster that is typical for isolates from southeastern Europe. Here, we report the draft genome sequences of two Bulgarian B. anthracis strains belonging to the A branch (A.Br.)008/009 canonical single nucleotide polymorphism (SNP) group of the major A branch.

Published

2013

25. Identification and typing of Francisella tularensis with a highly automated genotyping assay.

Author

Duncan DD, Vogler AJ, Wolcott MJ, Li F, Sarovich DS, Birdsell DN, Watson LM, Hall TA, Sampath R, Housley R, Blyn LB, Hofstadler SA, Ecker DJ, Keim P, Wagner DM, and Eshoo MW

Subjects

Animals, Base Composition, DNA, Bacterial genetics, Francisella tularensis genetics, Genetic Markers, Genotype, Minisatellite Repeats, Polymorphism, Single Nucleotide, Species Specificity, Spectrometry, Mass, Electrospray Ionization, Ticks microbiology, Tularemia genetics, Bacterial Typing Techniques methods, Francisella tularensis classification, Francisella tularensis isolation & purification, Polymerase Chain Reaction methods

Abstract

A PCR assay was developed to genotypically characterize Francisella tularensis and F. novicida. An integrated and partially redundant set of markers was selected to provide positive identification of these species, identify subspecies of F. tularensis and genotype 14 variable number tandem repeat (VNTR) markers. Assay performance was evaluated with 117 Francisella samples. Sample DNA was amplified, and the masses of the PCR products were determined with electrospray ionization/time of flight mass spectrometry (ESI-MS). The base compositions of the PCR amplicons were derived from these high-accuracy mass measurements and contrasted with databased information associated with each of the 25 assay markers. Species and subspecies determinations for all samples were fully concordant with results from established typing methods, and VNTR markers provided additional discrimination among samples. Sequence variants were observed with a number of assay markers, but these did not interfere with sample characterization, and served to increase the genetic diversity detected by the assay., (© 2012 Ibis Biosciences.)

Published

2013

26. The activity of human aquaporin 1 as a cGMP-gated cation channel is regulated by tyrosine phosphorylation in the carboxyl-terminal domain.

Author

Campbell EM, Birdsell DN, and Yool AJ

Subjects

Animals, Female, Humans, Phosphorylation physiology, Protein Structure, Tertiary physiology, Xenopus laevis, Aquaporin 1 physiology, Cyclic GMP physiology, Ion Channel Gating physiology, Peptide Fragments physiology, Tyrosine metabolism

Abstract

In addition to a constitutive water channel activity, several studies suggest Aquaporin-1 (AQP1) functions as a nonselective monovalent cation channel activated by intracellular cGMP, although variability in responsiveness between preparations has led to controversy in the field. Data here support the hypothesis that responsiveness of the AQP1 ionic conductance to cGMP is governed by tyrosine phosphorylation. Wild-type and mutant human AQP1 channels expressed in Xenopus laevis oocytes were characterized by two-electrode voltage clamp and optical osmotic swelling analyses. Quadruple mutation by site-directed mutagenesis of barrier hydrophobic residues (Val50, Leu54, Leu170, Leu174) to alanines in the central pore induced inward rectification of the ionic current and shifted reversal potential by approximately +10 mV, indicating increased permeability of tetraethylammonium ion. Introduction of cysteine at lysine 51 in the central pore (K51C) in a cysteine-less template created new sensitivity to block of the conductance by mercuric ion. Mutations of candidate consensus sites and pharmacological manipulation of serine and threonine phosphorylation did not alter cGMP-dependent responses; however, mutation of tyrosine Y253C or pharmacological dephosphorylation prevented ion channel activation. Modification of Y253C by covalent addition of a negatively charged group [2-sulfonatoethyl methanethiosulfonate sodium salt (MTSES)] rescued the cGMP-activated conductance response, an effect reversed by dithiothreitol. Results support the proposal that phosphorylation of tyrosine Tyr253 in the carboxyl terminal domain, confirmed by Western blot, acts as a master switch regulating responsiveness of AQP1 ion channels to cGMP, and the tetrameric central pore is the ion permeation pathway. These findings advance resolution of a standing controversy and expand our understanding of AQP1 as a multifunctional regulated channel.

Published

2012

27. Melt analysis of mismatch amplification mutation assays (Melt-MAMA): a functional study of a cost-effective SNP genotyping assay in bacterial models.

Author

Birdsell DN, Pearson T, Price EP, Hornstra HM, Nera RD, Stone N, Gruendike J, Kaufman EL, Pettus AH, Hurbon AN, Buchhagen JL, Harms NJ, Chanturia G, Gyuranecz M, Wagner DM, and Keim PS

Subjects

Alleles, Bacteria pathogenicity, Base Composition, Base Pair Mismatch, Base Sequence, Cost-Benefit Analysis, DNA Mutational Analysis, DNA Primers genetics, DNA, Bacterial chemistry, DNA, Bacterial genetics, Genome, Bacterial, Genotype, Humans, Models, Genetic, Nucleic Acid Amplification Techniques, Nucleic Acid Denaturation, Real-Time Polymerase Chain Reaction, Bacteria genetics, Bacteriological Techniques economics, Polymorphism, Single Nucleotide

Abstract

Single nucleotide polymorphisms (SNPs) are abundant in genomes of all species and biologically informative markers extensively used across broad scientific disciplines. Newly identified SNP markers are publicly available at an ever-increasing rate due to advancements in sequencing technologies. Efficient, cost-effective SNP genotyping methods to screen sample populations are in great demand in well-equipped laboratories, but also in developing world situations. Dual Probe TaqMan assays are robust but can be cost-prohibitive and require specialized equipment. The Mismatch Amplification Mutation Assay, coupled with melt analysis (Melt-MAMA), is flexible, efficient and cost-effective. However, Melt-MAMA traditionally suffers from high rates of assay design failures and knowledge gaps on assay robustness and sensitivity. In this study, we identified strategies that improved the success of Melt-MAMA. We examined the performance of 185 Melt-MAMAs across eight different pathogens using various optimization parameters. We evaluated the effects of genome size and %GC content on assay development. When used collectively, specific strategies markedly improved the rate of successful assays at the first design attempt from ~50% to ~80%. We observed that Melt-MAMA accurately genotypes across a broad DNA range (~100 ng to ~0.1 pg). Genomic size and %GC content influence the rate of successful assay design in an independent manner. Finally, we demonstrated the versatility of these assays by the creation of a duplex Melt-MAMA real-time PCR (two SNPs) and conversion to a size-based genotyping system, which uses agarose gel electrophoresis. Melt-MAMA is comparable to Dual Probe TaqMan assays in terms of design success rate and accuracy. Although sensitivity is less robust than Dual Probe TaqMan assays, Melt-MAMA is superior in terms of cost-effectiveness, speed of development and versatility. We detail the parameters most important for the successful application of Melt-MAMA, which should prove useful to the wider scientific community.

Published

2012

28. Phylogeography of Francisella tularensis subspecies holarctica from the country of Georgia.

Author

Chanturia G, Birdsell DN, Kekelidze M, Zhgenti E, Babuadze G, Tsertsvadze N, Tsanava S, Imnadze P, Beckstrom-Sternberg SM, Beckstrom-Sternberg JS, Champion MD, Sinari S, Gyuranecz M, Farlow J, Pettus AH, Kaufman EL, Busch JD, Pearson T, Foster JT, Vogler AJ, Wagner DM, and Keim P

Subjects

Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, Francisella tularensis isolation & purification, Georgia (Republic), Molecular Sequence Data, Sequence Analysis, DNA, Francisella tularensis classification, Francisella tularensis genetics, Phylogeography, Tularemia microbiology

Abstract

Background: Francisella tularensis, the causative agent of tularemia, displays subspecies-specific differences in virulence, geographic distribution, and genetic diversity. F. tularensis subsp. holarctica is widely distributed throughout the Northern Hemisphere. In Europe, F. tularensis subsp. holarctica isolates have largely been assigned to two phylogenetic groups that have specific geographic distributions. Most isolates from Western Europe are assigned to the B.Br.FTNF002-00 group, whereas most isolates from Eastern Europe are assigned to numerous lineages within the B.Br.013 group. The eastern geographic extent of the B.Br.013 group is currently unknown due to a lack of phylogenetic knowledge about populations at the European/Asian juncture and in Asia. In this study, we address this knowledge gap by describing the phylogenetic structure of F. tularensis subsp. holarctica isolates from the country of Georgia, and by placing these isolates into a global phylogeographic context., Results: We identified a new genetic lineage of F. tularensis subsp. holarctica from Georgia that belongs to the B.Br.013 group. This new lineage is genetically and geographically distinct from lineages previously described from the B.Br.013 group from Central-Eastern Europe. Importantly, this new lineage is basal within the B.Br.013 group, indicating the Georgian lineage diverged before the diversification of the other known B.Br.013 lineages. Although two isolates from the Georgian lineage were collected nearby in the Ukrainian region of Crimea, all other global isolates assigned to this lineage were collected in Georgia. This restricted geographic distribution, as well as the high levels of genetic diversity within the lineage, is consistent with a relatively older origin and localized differentiation., Conclusions: We identified a new lineage of F. tularensis subsp. holarctica from Georgia that appears to have an older origin than any other diversified lineages previously described from the B.Br.013 group. This finding suggests that additional phylogenetic studies of F. tularensis subsp. holarctica populations in Eastern Europe and Asia have the potential to yield important new insights into the evolutionary history and phylogeography of this broadly dispersed F. tularensis subspecies.

Published

2011

29. Phylogeography of Francisella tularensis ssp. holarctica in France.

Author

Vogler AJ, Birdsell DN, Lee J, Vaissaire J, Doujet CL, Lapalus M, Wagner DM, and Keim P

Subjects

France, Francisella tularensis genetics, Francisella tularensis isolation & purification, Genotype, Minisatellite Repeats, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Francisella tularensis classification

Abstract

Aim: To investigate the phylogeography of French Francisella tularensis ssp. holarctica isolates., Methods and Results:   Canonical SNPs and MLVA were used to genotype 103 French F. tularensis ssp. holarctica isolates. We confirmed the presence of one subclade, the central and western European group (B.Br.FTNF002-00), and identified four major MLVA genotypes with no obvious geographical differentiation., Conclusions:   The lack of geographical resolution among MLVA genotypes suggests rapid dispersal, convergent evolution or a combination of the two., Significance and Impact of the Study:   This study expands knowledge of the phylogeography of one of the two dominant European F. tularensis ssp. holarctica subclades and illustrates the need for additional SNP discovery within this subclade., (© 2010 The Authors. Letters in Applied Microbiology © 2010 The Society for Applied Microbiology.)

Published

2011

30. Rapid typing of Coxiella burnetii.

Author

Hornstra HM, Priestley RA, Georgia SM, Kachur S, Birdsell DN, Hilsabeck R, Gates LT, Samuel JE, Heinzen RA, Kersh GJ, Keim P, Massung RF, and Pearson T

Subjects

Base Sequence, Coxiella burnetii genetics, Coxiella burnetii isolation & purification, DNA Primers, Genes, Bacterial, Geography, Phylogeny, Polymorphism, Single Nucleotide, Coxiella burnetii classification

Abstract

Coxiella burnetii has the potential to cause serious disease and is highly prevalent in the environment. Despite this, epidemiological data are sparse and isolate collections are typically small, rare, and difficult to share among laboratories as this pathogen is governed by select agent rules and fastidious to culture. With the advent of whole genome sequencing, some of this knowledge gap has been overcome by the development of genotyping schemes, however many of these methods are cumbersome and not readily transferable between institutions. As comparisons of the few existing collections can dramatically increase our knowledge of the evolution and phylogeography of the species, we aimed to facilitate such comparisons by extracting SNP signatures from past genotyping efforts and then incorporated these signatures into assays that quickly and easily define genotypes and phylogenetic groups. We found 91 polymorphisms (SNPs and indels) among multispacer sequence typing (MST) loci and designed 14 SNP-based assays that could be used to type samples based on previously established phylogenetic groups. These assays are rapid, inexpensive, real-time PCR assays whose results are unambiguous. Data from these assays allowed us to assign 43 previously untyped isolates to established genotypes and genomic groups. Furthermore, genotyping results based on assays from the signatures provided here are easily transferred between institutions, readily interpreted phylogenetically and simple to adapt to new genotyping technologies.

Published

2011

31. Cost-effective interrogation of single nucleotide polymorphisms using the mismatch amplification mutation assay and capillary electrophoresis.

Author

Price EP, Matthews MA, Beaudry JA, Allred JL, Schupp JM, Birdsell DN, Pearson T, and Keim P

Subjects

Bacillus anthracis genetics, DNA Primers, Electrophoresis, Capillary economics, Genome, Bacterial genetics, Genotype, Models, Biological, Polymerase Chain Reaction economics, Base Pair Mismatch, Electrophoresis, Capillary methods, Polymerase Chain Reaction methods, Polymorphism, Single Nucleotide

Abstract

The ability to characterize SNPs is an important aspect of many clinical diagnostic, genetic and evolutionary studies. Here, we designed a multiplexed SNP genotyping method to survey a large number of phylogenetically informative SNPs within the genome of the bacterium Bacillus anthracis. This novel method, CE universal tail mismatch amplification mutation assay (CUMA), allows for PCR multiplexing and automatic scoring of SNP genotypes, thus providing a rapid, economical and higher throughput alternative to more expensive SNP genotyping techniques. CUMA delivered accurate B. anthracis SNP genotyping results and, when multiplexed, saved reagent costs by more than 80% compared with TaqMan real-time PCR. When real-time PCR technology and instrumentation is unavailable or the reagents are cost-prohibitive, CUMA is a powerful alternative for SNP genotyping.

Published

2010

32. Francisella tularensis subsp. novicida isolated from a human in Arizona.

Author

Birdsell DN, Stewart T, Vogler AJ, Lawaczeck E, Diggs A, Sylvester TL, Buchhagen JL, Auerbach RK, Keim P, and Wagner DM

Abstract

Background: Francisella tularensis is the etiologic agent of tularemia and is classified as a select agent by the Centers for Disease Control and Prevention. Currently four known subspecies of F. tularensis that differ in virulence and geographical distribution are recognized:tularensis (type A), holarctica (type B), mediasiatica, and novicida. Because of the Select Agent status and differences in virulence and geographical location, the molecular analysis of any clinical case of tularemia is of particular interest. We analyzed an unusual Francisella clinical isolate from a human infection in Arizona using multiple DNA-based approaches., Findings: We report that the isolate is F. tularensis subsp. novicida, a subspecies that is rarely isolated., Conclusion: The rarity of this novicida subspecies in clinical settings makes each case study important for our understanding of its role in disease and its genetic relationship with other F. tularensis subspecies.

Published

2009

33. An assessment tool for screening ROP in the preterm infant.

Author

Birdsell DN

Subjects

Humans, Infant, Newborn, Infant, Very Low Birth Weight, Intensive Care Units, Neonatal, Risk Factors, Infant, Premature, Neonatal Screening methods, Retinopathy of Prematurity diagnosis, Vision Screening methods

Abstract

An increased incidence of retinopathy of prematurity (ROP) parallels the increased incidence of viable births at earlier gestational ages. However, advancements in laser therapy can treat ROP and ultimately prevent blindness. This paper describes the development, implementation, and evaluation of a tool that consistently documents ROP assessments by medical staff, as well as pertinent medical history necessary to safely manage this critical population. The assessment tool was designed for an outpatient ophthalmology clinic. The outpatient population included all infants delivered at or transferred to the neonatal intensive care unit of a large university hospital located in the Midwestern United States. The infants were considered at risk for ROP if they weighed less than 1500 grams or if they had a gestational age of less than or equal to 34 weeks. At any given time, the outpatient clinic manages from 50 to 70 infants. Implementation of the tool increased consistency in documentation by medical staff and guided the initial assessment for nursing and technical staff members.

Published

2002