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1. Genomic Diversity and Zoonotic Potential of Brucella neotomae

Author

Vergnaud, Gilles, Zygmunt, Michel S., Ashford, Roland T., Whatmore, Adrian M., and Cloeckaert, Axel

Subjects
Health
Abstract

The genus Brucella comprises a monophyletic group including 6 classical species showing clonal evolution: B. abortus, B. suis, B. melitensis, B. canis, B. ovis, and B. neotomae (1,2). The zoonotic [...]

Published
2024
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8. Prevalence and speciation of brucellosis in febrile patients from a pastoralist community of Tanzania

Author

Bodenham, Rebecca F., Lukambagire, AbdulHamid S., Ashford, Roland T., Buza, Joram J., Cash-Goldwasser, Shama, Crump, John A., Kazwala, Rudovick R., Maro, Venance P., McGiven, John, Mkenda, Nestory, Mmbaga, Blandina T., Rubach, Matthew P., Sakasaka, Philoteus, Shirima, Gabriel M., Swai, Emanuel S., Thomas, Kate M., Whatmore, Adrian M., Haydon, Daniel T., and Halliday, Jo E. B.

Published
2020
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13. Forensic microbiology reveals that Neisseria animaloris infections in harbour porpoises follow traumatic injuries by grey seals

Author

Foster, Geoffrey, Whatmore, Adrian M., Dagleish, Mark P., Malnick, Henry, Gilbert, Maarten J., Begeman, Lineke, Macgregor, Shaheed K., Davison, Nicholas J., Roest, Hendrik Jan, Jepson, Paul, Howie, Fiona, Muchowski, Jakub, Brownlow, Andrew C., Wagenaar, Jaap A., Kik, Marja J. L., Deaville, Rob, Doeschate, Mariel T. I. ten, Barley, Jason, Hunter, Laura, and IJsseldijk, Lonneke L.

Published
2019
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15. Global phylogenomic diversity of Brucella abortus: spread of a dominant lineage.

Author

Janke, Nicolette R., Williamson, Charles H. D., Drees, Kevin P., Suárez-Esquivel, Marcela, Allen, Adrian R., Ladner, Jason T., Quance, Christine R., Robbe-Austerman, Suelee, O’Callaghan, David, Whatmore, Adrian M., and Foster, Jeffrey T.

Subjects
CATTLE genetics, BRUCELLA abortus, CATTLE breeds, WHOLE genome sequencing, SINGLE nucleotide polymorphisms, VETERINARY epidemiology, GENETIC variation
Abstract

Brucella abortus is a globally important zoonotic pathogen largely found in cattle hosts and is typically transmitted to humans through contaminated dairy products or contact with diseased animals. Despite the long, shared history of cattle and humans, little is known about how trade in cattle has spread this pathogen throughout the world. Whole genome sequencing provides unparalleled resolution to investigate the global evolutionary history of a bacterium such as B. abortus by providing phylogenetic resolution that has been unobtainable using other methods. We report on large-scale genome sequencing and analysis of B. abortus collected globally from cattle and 16 other hosts from 52 countries. We used single nucleotide polymorphisms (SNPs) to identify genetic variation in 1,074 B. abortus genomes and using maximum parsimony generated a phylogeny that identified four major clades. Two of these clades, clade A (median date 972 CE; 95% HPD, 781–1142 CE) and clade B (median date 150 BCE; 95% HPD, 515 BCE–164 CE), were exceptionally diverse for this species and are exclusively of African origin where provenance is known. The third clade, clade C (median date 949 CE; 95% HPD, 766–1102 CE), had most isolates coming from a broad swath of the Middle East, Europe, and Asia, also had relatively high diversity. Finally, the fourth major clade, clade D (median date 1467 CE; 95% HPD, 1367–1553 CE) comprises the large majority of genomes in a dominant but relatively monomorphic group that predominantly infects cattle in Europe and the Americas. These data are consistent with an African origin for B. abortus and a subsequent spread to the Middle East, Europe, and Asia, probably through the movement of infected cattle. We hypothesize that European arrival to the Americas starting in the 15th century introduced B. abortus from Western Europe through the introduction of a few common cattle breeds infected with strains from clade D. These data provide the foundation of a comprehensive global phylogeny of this important zoonotic pathogen that should be an important resource in human and veterinary epidemiology. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Whole genome sequencing of Ethiopian Brucella abortus isolates expands the known diversity of an early branching sub-Saharan African lineage.

Author

Edao, Bedaso Mammo, Ameni, Gobena, Berg, Stefan, Tekle, Muluken, Whatmore, Adrian M., Wood, James L. N., van Tonder, Andries J., and Ashford, Roland T.

Subjects
WHOLE genome sequencing, BRUCELLA abortus, ANIMAL herds, SINGLE nucleotide polymorphisms, TANDEM repeats, NUCLEOTIDE sequencing
Abstract

Brucellosis remains one of the most significant zoonotic diseases globally, responsible for both considerable human morbidity and economic losses due to its impacts on livestock productivity. Despite this, there remain significant evidence gaps in many low- and middle-income countries, including those of sub-Saharan Africa. Here we report the first molecular characterisation of Brucella sp. from Ethiopia. Fifteen Brucella sp. isolates from an outbreak in cattle from a herd in central Ethiopia were identified as Brucella abortus, using bacterial culture and molecular methods. Sequencing of the Ethiopian B. abortus isolates allowed their phylogenetic comparison with 411 B. abortus strains of diverse geographical origins, using whole genome single nucleotide polymorphisms (wgSNP). The Ethiopian isolates belonged to an early-branching lineage (Lineage A) previously only represented by data from two strains, both of sub-Saharan African origin (Kenya and Mozambique). A second B. abortus lineage (Lineage B), also comprised solely of strains originating from sub-Saharan Africa, was identified. The majority of strains belonged to one of two lineages of strains originating from a much broader geographical range. Further analyses based on multi-locus sequence typing (MLST) and multi-locus variable-number tandem repeat analysis (MLVA) expanded the number of B. abortus strains available for comparison with the Ethiopian isolates and were consistent with the findings from wgSNP analysis. MLST profiles of the Ethiopian isolates expanded the sequence type (ST) diversity of the early branching lineage of B. abortus, equivalent to wgSNP Lineage A. A more diverse cluster of STs, equivalent to wgSNP Lineage B, was comprised solely of strains originating from sub-Saharan Africa. Similarly, analysis of B. abortus MLVA profiles (n = 1891) confirmed that the Ethiopian isolates formed a unique cluster, similar to only two existing strains, and distinct from the majority of other strains of sub-Saharan African origin. These findings expand the known diversity of an under-represented lineage of B. abortus and suggest a potential evolutionary origin for the species in East Africa. In addition to providing information concerning Brucella species extant within Ethiopia this work serves as the basis for further studies on the global population structure and evolutionary history of a major zoonotic pathogen. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Editorial: Pathogenomics of the Genus Brucella and Beyond

Author

Cloeckaert, Axel, Zygmunt, Michel S., Scholz, Holger C., Vizcaino, Nieves, and Whatmore, Adrian M.

Subjects
virulence, Editorial, cell envelope, evolution, Ochrobactrum, Microbiology, Brucella, genetics/genomics, Brucellaceae, diversity
Published
2021

24. NanA, a neuraminidase from Streptococcus pneumoniae, shows high levels of sequence diversity, at least in part through recombination with Streptococcus oralis

Author

King, Samantha J., Whatmore, Adrian M., and Dowson, Christopher G.

Subjects
Streptococcus pneumoniae -- Genetic aspects, Streptococcus pneumoniae -- Research, Virulence (Microbiology) -- Research, Biological diversity -- Research, Genetic research, Biological sciences
Abstract

Streptococcus pneumoniae, an important human pathogen, contains at least two genes, nanA and nanB, that express sialidase activity. NanA is a virulence determinant of pneumococci which is important in animal models of colonization and middle ear infections. The gene encoding NanA was detected in all 106 pneumococcal strains screened that represented 59 restriction profiles. Sequencing confirmed a high level of diversity, up to 17.2% at the nucleotide level and 14.8% at the amino acid level. NanA diversity is due to a number of mechanisms including insertions, point mutations, and recombination generating mosaic genes. The level of nucleotide divergence for each recombinant block is greater than 30% and much higher than the 20% identified within mosaic pbp genes, suggesting that a high selective pressure exists for these alterations. These data indicate that at least one of the four recombinant blocks identified originated from a Streptococcus oralis isolate, demonstrating for the first time that protein virulence determinants of pneumococci have, as identified previously for genes encoding penicillin binding proteins, evolved by recombination with oral streptococci. No amino acid alterations were identified within the aspartic boxes or predicted active site, suggesting that sequence variation may be important in evading the adaptive immune response. Furthermore, this suggests that nanA is an important target of the immune system in the interaction between the pneumococcus and host.

Published
2005

25. Distribution, genetic diversity, and variable expression of the gene encoding hyaluronate lyase within the Streptococcus suis population

Author

King, Samantha J., Allen, Andrew G., Maskell, Duncan J., Dowson, Christopher G., and Whatmore, Adrian M.

Subjects
Bacterial infections -- Research, Virulence (Microbiology) -- Research, Virulence (Microbiology) -- Physiological aspects, Streptococcus -- Research, Biological sciences
Abstract

Although Streptococcus suis is an economically important pathogen of pigs and an occasional cause of zoonotic infections of humans knowledge of crucial virulence factors, and as a consequence targets for therapeutic or prophylactic intervention, remains limited. Here we describe a detailed study of the distribution, diversity, and in vitro expression of hyaluronate lyase, a protein implicated as a virulence factor of many mucosal pathogens. The gene encoding hyaluronate lyase, hyl, was present in all 309 bona fide S. suis isolates examined representing diverse serotypes, geographic sources, and clinical backgrounds. Examination of the genetic diversity of hyl by RFLP and sequence analysis indicated a pattern of diversity shared by many gram-positive surface proteins with a variable 5' region encoding the most distal cell surface-exposed regions of the protein and a much more conserved 3' region encoding domains more closely associated with the bacterial cell. Variation occurs by several mechanisms, including the accumulation of point mutations and deletion and insertion events, and there is clear evidence that genetic recombination has contributed to molecular variation in this gene. Despite the ubiquitous presence of hyl, the corresponding enzyme activity was detected in fewer than 30% of the 309 isolates. In several cases this lack of activity correlates with the presence of mutations (either sequence duplications or point mutations) within hyl that result in a truncated polypeptide. There is a striking absence of hyaluronate lyase activity in a large majority of isolates from classic S. suis invasive disease, indicating that this protein is probably not a crucial virulence factor, although activity is present in significantly higher numbers of isolates associated with pneumonia.

Published
2004

31. Evidence for niche adaptation in the genome of the bovine pathogen Streptococcus uberis

Author

Kehoe Michael, Maskell Duncan, Field Terence R, Egan Sharon A, Barrell Bart G, Woodward John, Quail Michael A, Clark Louise, Barron Andy, Bignell Alexandra, Lennard Nicola, Leigh James A, Holden Matthew TG, Ward Philip N, Dowson Christopher G, Chanter Neil, Whatmore Adrian M, Bentley Stephen D, and Parkhill Julian

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

Abstract Background Streptococcus uberis, a Gram positive bacterial pathogen responsible for a significant proportion of bovine mastitis in commercial dairy herds, colonises multiple body sites of the cow including the gut, genital tract and mammary gland. Comparative analysis of the complete genome sequence of S. uberis strain 0140J was undertaken to help elucidate the biology of this effective bovine pathogen. Results The genome revealed 1,825 predicted coding sequences (CDSs) of which 62 were identified as pseudogenes or gene fragments. Comparisons with related pyogenic streptococci identified a conserved core (40%) of orthologous CDSs. Intriguingly, S. uberis 0140J displayed a lower number of mobile genetic elements when compared with other pyogenic streptococci, however bacteriophage-derived islands and a putative genomic island were identified. Comparative genomics analysis revealed most similarity to the genomes of Streptococcus agalactiae and Streptococcus equi subsp. zooepidemicus. In contrast, streptococcal orthologs were not identified for 11% of the CDSs, indicating either unique retention of ancestral sequence, or acquisition of sequence from alternative sources. Functions including transport, catabolism, regulation and CDSs encoding cell envelope proteins were over-represented in this unique gene set; a limited array of putative virulence CDSs were identified. Conclusion S. uberis utilises nutritional flexibility derived from a diversity of metabolic options to successfully occupy a discrete ecological niche. The features observed in S. uberis are strongly suggestive of an opportunistic pathogen adapted to challenging and changing environmental parameters.

Published
2009
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32. Phenotypic and molecular characterisation of Brucella isolates from marine mammals

Author

Bashiruddin John B, Whatmore Adrian M, King Amanda C, Perrett Lorraine L, Stubberfield Emma J, Dawson Claire E, Stack Judy A, and MacMillan Alastair P

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Bacteria of the genus Brucella are the causative organisms of brucellosis in animals and man. Previous characterisation of Brucella strains originating from marine mammals showed them to be distinct from the terrestrial species and likely to comprise one or more new taxa. Recently two new species comprising Brucella isolates from marine mammals, B. pinnipedialis and B. ceti, were validly published. Here we report on an extensive study of the molecular and phenotypic characteristics of marine mammal Brucella isolates and on how these characteristics relate to the newly described species. Results In this study, 102 isolates of Brucella originating from eleven species of marine mammals were characterised. Results obtained by analysis using the Infrequent Restriction Site (IRS)-Derivative PCR, PCR-RFLP of outer membrane protein genes (omp) and IS711 fingerprint profiles showed good consistency with isolates originating from cetaceans, corresponding to B. ceti, falling into two clusters. These correspond to isolates with either dolphins or porpoises as their preferred host. Isolates originating predominantly from seals, and corresponding to B. pinnipedialis, cluster separately on the basis of IS711 fingerprinting and other molecular approaches and can be further subdivided, with isolates from hooded seals comprising a distinct group. There was little correlation between phenotypic characteristics used in classical Brucella biotyping and these groups. Conclusion Molecular approaches are clearly valuable in the division of marine mammal Brucella into subtypes that correlate with apparent ecological divisions, whereas conventional bioyping is of less value. The data presented here confirm that there are significant subtypes within the newly described marine mammal Brucella species and add to a body of evidence that could lead to the recognition of additional species or sub-species within this group.

Published
2008
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33. Rapid identification of Brucella isolates to the species level by real time PCR based single nucleotide polymorphism (SNP) analysis

Author

Smith Catherine J, Koylass Mark S, Gopaul Krishna K, and Whatmore Adrian M

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Brucellosis, caused by members of the genus Brucella, remains one of the world's major zoonotic diseases. Six species have classically been recognised within the family Brucella largely based on a combination of classical microbiology and host specificity, although more recently additional isolations of novel Brucella have been reported from various marine mammals and voles. Classical identification to species level is based on a biotyping approach that is lengthy, requires extensive and hazardous culturing and can be difficult to interpret. Here we describe a simple and rapid approach to identification of Brucella isolates to the species level based on real-time PCR analysis of species-specific single nucleotide polymorphisms (SNPs) that were identified following a robust and extensive phylogenetic analysis of the genus. Results Seven pairs of short sequence Minor Groove Binding (MGB) probes were designed corresponding to SNPs shown to possess an allele specific for each of the six classical Brucella spp and the marine mammal Brucella. Assays were optimised to identical reaction parameters in order to give a multiple outcome assay that can differentiate all the classical species and Brucella isolated from marine mammals. The scope of the assay was confirmed by testing of over 300 isolates of Brucella, all of which typed as predicted when compared to other phenotypic and genotypic approaches. The assay is sensitive being capable of detecting and differentiating down to 15 genome equivalents. We further describe the design and testing of assays based on three additional SNPs located within the 16S rRNA gene that ensure positive discrimination of Brucella from close phylogenetic relatives on the same platform. Conclusion The multiple-outcome assay described represents a new tool for the rapid, simple and unambiguous characterisation of Brucella to the species level. Furthermore, being based on a robust phylogenetic framework, the assay provides a platform that can readily be extended in the future to incorporate newly identified Brucella groups, to further type at the subspecies level, or to include markers for additional useful characteristics.

Published
2008
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34. Relationships between emm and multilocus sequence types within a global collection of Streptococcus pyogenes

Author

McGregor Karen F, Bessen Debra E, and Whatmore Adrian M

Subjects
Microbiology, QR1-502
Abstract

Abstract Background The M type-specific surface protein antigens encoded by the 5' end of emm genes are targets of protective host immunity and attractive vaccine candidates against infection by Streptococcus pyogenes, a global human pathogen. A history of genetic change in emm was evaluated for a worldwide collection of > 500 S. pyogenes isolates that were defined for genetic background by multilocus sequence typing of housekeeping genes. Results Organisms were categorized by genotypes that roughly correspond to throat specialists, skin specialists, and generalists often recovered from infections at either tissue site. Recovery of distant clones sharing the same emm type was ~4-fold higher for skin specialists and generalists, as compared to throat specialists. Importantly, emm type was often a poor marker for clone. Recovery of clones that underwent recombinational replacement with a new emm type was most evident for the throat and skin specialists. The average ratio of nonsynonymous substitutions per nonsynonymous site (Ka) and synonymous substitutions per synonymous site (Ks) was 4.9, 1.5 and 1.3 for emm types of the throat specialist, skin specialist and generalist groups, respectively. Conclusion Data indicate that the relationships between emm type and genetic background differ among the three host tissue-related groups, and that the selection pressures acting on emm appear to be strongest for the throat specialists. Since positive selection is likely due in part to a protective host immune response, the findings may have important implications for vaccine design and vaccination strategies.

Published
2008
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35. Characterisation of the genetic diversity of Brucella by multilocus sequencing

Author

MacMillan Alastair P, Perrett Lorraine L, and Whatmore Adrian M

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Brucella species include economically important zoonotic pathogens that can infect a wide range of animals. There are currently six classically recognised species of Brucella although, as yet unnamed, isolates from various marine mammal species have been reported. In order to investigate genetic relationships within the group and identify potential diagnostic markers we have sequenced multiple genetic loci from a large sample of Brucella isolates representing the known diversity of the genus. Results Nine discrete genomic loci corresponding to 4,396 bp of sequence were examined from 160 Brucella isolates. By assigning each distinct allele at a locus an arbitrary numerical designation the population was found to represent 27 distinct sequence types (STs). Diversity at each locus ranged from 1.03–2.45% while overall genetic diversity equated to 1.5%. Most loci examined represent housekeeping gene loci and, in all but one case, the ratio of non-synonymous to synonymous change was substantially Brucella species, B. abortus, B. melitensis, B. ovis and B. neotomae correspond to well-separated clusters. With the exception of biovar 5, B. suis isolates cluster together, although they form a more diverse group than other classical species with a number of distinct STs corresponding to the remaining four biovars. B. canis isolates are located on the same branch very closely related to, but distinguishable from, B. suis biovar 3 and 4 isolates. Marine mammal isolates represent a distinct, though rather weakly supported, cluster within which individual STs display one of three clear host preferences. Conclusion The sequence database provides a powerful dataset for addressing ongoing controversies in Brucella taxonomy and a tool for unambiguously placing atypical, phenotypically discordant or newly emerging Brucella isolates. Furthermore, by using the phylogenetic backbone described here, robust and rationally selected markers for use in diagnostic assay development can be identified.

Published
2007
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36. Scientific Reports

Author

Al Dahouk, Sascha, Köhler, Stephan, Occhialini, Alessandra, Jiménez de Bagüés, María Pilar, Hammerl, Jens Andre, Eisenberg, Tobias, Vergnaud, Gilles, Cloeckaert, Axel, Zygmunt, Michel, Whatmore, Adrian, Melzer, Falk, Drees, Kevin, Foster, Jeffrey, Wattam, Alice, Scholz, Holger, Department of Biological Safety, Bundesinstitut für Risikobewertung - Federal Institute for Risk Assessment (BfR), Institut de Recherche en Infectiologie de Montpellier (IRIM), Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM), Unidad de Producción y Sanidad Animal, Centro de Investigación y Tecnología Agroalimentaria, Instituto Agroalimentario de Aragón, University of Zaragoza - Universidad de Zaragoza [Zaragoza], Landesbetrieb Hessisches Landeslabor, Institut de génétique et microbiologie [Orsay] (IGM), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Infectiologie Animale et Santé Publique - IASP (Nouzilly, France), Institut National de la Recherche Agronomique (INRA), German National Reference Laboratory for Animal Brucellosis, Federal Research Institute for Animal Health - Friedrich-Loeffler-Institut, Northern Arizona University [Flagstaff], Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Centre d’études d’Agents Pathogènes et Biotechologies pour la Santé (CPBS), Université Paris Sud (Paris 11), Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Université Paris-Saclay, Animal and Plant Health Agency (APHA), Department of Molecular, Cellular, and Biomedical Sciences, University of New Hampshire (UNH), Biocomplexity Institute of Virginia Tech [Blacksburg], Virginia Tech [Blacksburg], Bundeswehr Institute of Microbiology, Federal funds from National Institute of Allergy and Infectious Diseases, National Institutes of Health, Department of Health and Human Services HHSN272201400027C, Spanish grant INIA-RTA2013-00065-C02-01, Federal Institute for Risk Assessment, Germany 1329-485, Food and Rural Affairs at German Federal Institute SE0314 SE0316, Department of Environment, Federal Ministry of Food and Agriculture 47-003 1322-503 1322-619, Hessian Ministry of Environment, Climate Change, Agriculture and Consumer Protection, French DGA (Direction Generale de l'Armement) via the MicroType project ANR-14-ASMA-0002-02, European Defence Agency (EDA), Université de Montpellier (UM), UR Infectiologie animale et Santé publique (UR IASP), Bundeswehr Institute of Microbiology, Department of Bacteriology, Munich, Germany, RWTH Aachen University, Centro de Investigacion y Tecnologia Agroalimentaria de Aragon (CITA), Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Infectiologie et Santé Publique (UMR ISP), Institut National de la Recherche Agronomique (INRA)-Université de Tours (UT), Animal and Plant Health Agency [Addlestone, UK] (APHA), Friedrich-Loeffler-Institut (FLI), German Center for Infection Research, Partnersite Munich (DZIF), Rheinisch-Westfälische Technische Hochschule Aachen University (RWTH), Centro de Investigación y Tecnología Agroalimentaria de Aragón (CITA), and Institut National de la Recherche Agronomique (INRA)-Université de Tours

Subjects
phylogénétique, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, [SDV]Life Sciences [q-bio], analysis resource, murine models, Tanzania, Mice, Germany, phénotypage, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Transmisión de enfermedades, Phylogeny, Mice, Inbred BALB C, amphibians, monocyte-derived macrophages, lipopolysaccharide, comparative sequence, mammifère, genetic diversity, Brucelosis, Biological Evolution, Brucellaceae, bacterial bioinformatics database, melitensis 16m, vole microtus-arvalis, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Liver, Flagella, Host-Pathogen Interactions, Anura, Autre (Sciences du Vivant), [SDV.OT]Life Sciences [q-bio]/Other [q-bio.OT], Biotechnologies, macrophage, Anfibios, brucella spp, Article, Cell Line, Genetic Heterogeneity, Bacterial Proteins, death, Animals, mammals, analyse moléculaire, Mamíferos, Macrophages, amphibien, Gene Expression Regulation, Bacterial, Brucella, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, infection, Producción y sanidad animal, Animals, Zoo, souche bactérienne, Gram-Negative Bacterial Infections, Spleen, Multilocus Sequence Typing
Abstract

Scientific reports 7, 44420 (2017). doi:10.1038/srep44420, Published by Nature Publishing Group, London

Published
2017
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37. Brucellosis in ruminants and pastoralists in Borena, Southern Ethiopia.

Author

Edao, Bedaso Mammo, Ameni, Gobena, Assefa, Zerihun, Berg, Stefan, Whatmore, Adrian M., and Wood, James L. N.

Subjects
BRUCELLOSIS, RUMINANTS, VETERINARY public health, ZOONOSES, BACTERIAL diseases
Abstract

Brucellosis is a bacterial zoonotic disease that has important veterinary and public health consequences as well as economic impact in sub Saharan Africa including Ethiopia. A cross-sectional study was conducted in four selected districts of Borena Pastoral setting in Southern Ethiopia from October 2017 to February 2018 to estimate the prevalence of brucellosis and assess associated risk factors in cattle, sheep, goats and occupationally associated humans. A total of 750 cattle, 882 sheep and goats and 341 human subjects were screened for evidence of brucellosis using the Rose Bengal Test (RBT) with positive results confirmed by Competitive-ELISA(c-ELISA). Structured questionnaires were used for collection of metadata from individual animals, herders and animal attendants to test the association between explanatory and outcome variables. The overall animal level prevalence was 2.4% (95% confidence interval, CI: 1.4–3.7) in cattle, 3.2% (95% CI: 2.1–4.6) in sheep and goats, and 2.6% (95% CI: 1.2–5) in humans occupationally linked to livestock production systems. Herd size, parity, and history of abortion were risk factors associated with Brucella seropositivity (P<0.05) in cattle whereas in sheep and goats the results showed that district, age group, flock size, and history of abortion were significantly associated risk factors with Brucella seropositivity (P<0.05). Assisting calving and presence of seropositive animals in a household (P<0.05) were significantly associated with Brucella seropositivity in humans. Evidence of brucellosis in various animal species and the associated human population illustrates the need for a coordinated One Health approach to controlling brucellosis so as to improve public health and livestock productivity. Author summary: Brucellosis is a bacterial infectious disease with public health and economic importance mainly in low and middle-income countries (LMICs). The burden of this disease in livestock and its zoonotic importance in humans in sub-Saharan Africa including Ethiopia is poorly understood. In Ethiopia, although epidemiological studies were conducted in intensive dairy herds in high lands areas, there is shortage of data on the epidemiology and public health and impacts of brucellosis. This study was conducted to estimate the prevalence brucellosis in different species of livestock and pastoralists and thereafter to identify the potential risk factors affecting its occurrence and transmission. To this effect, a one health approach was used. [ABSTRACT FROM AUTHOR]

Published
2020
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38. Application of Whole Genome Sequencing and Pan-Family Multi-Locus Sequence Analysis to Characterize Relationships Within the Family Brucellaceae.

Author

Ashford, Roland T., Muchowski, Jakub, Koylass, Mark, Scholz, Holger C., and Whatmore, Adrian M.

Subjects
NUCLEOTIDE sequencing, BRUCELLA, SEQUENCE analysis, PHYLOGENY
Abstract

The bacterial family Brucellaceae is currently composed of seven genera, including species of the genus Brucella , a number of which are significant veterinary and zoonotic pathogens. The bacteriological identification of pathogenic Brucella spp. may be hindered by their close phenotypic similarity to other members of the Brucellaceae , particularly of the genus Ochrobactrum. Additionally, a number of novel atypical Brucella taxa have recently been identified, which exhibit greater genetic diversity than observed within the previously described species, and which share genomic features with organisms outside of the genus. Furthermore, previous work has indicated that the genus Ochrobactrum is polyphyletic, raising further questions regarding the relationship between the genus Brucella and wider Brucellaceae. We have applied whole genome sequencing (WGS) and pan-family multi-locus sequence analysis (MLSA) approaches to a comprehensive panel of Brucellaceae type strains, in order to characterize relationships within the family. Phylogenies based on WGS core genome alignments were able to resolve phylogenetic relationships of 31 non- Brucella spp. type strains from within the family, alongside type strains of twelve Brucella species. A phylogeny based on concatenated pan-family MLSA data was largely consistent with WGS based analyses. Notably, recently described atypical Brucella isolates were consistently placed in a single clade with existing species, clearly distinct from all members of the genus Ochrobactrum and wider family. Both WGS and MLSA methods closely grouped Brucella spp. with a sub-set of Ochrobactrum species. However, results also confirmed that the genus Ochrobactrum is polyphyletic, with seven species forming a separate grouping. The pan-family MLSA scheme was subsequently applied to a panel of 50 field strains of the family Brucellaceae , isolated from a wide variety of sources. This analysis confirmed the utility of the pan- Brucellaceae MLSA scheme in placing field isolates in relation to recognized type strains. However, a significant number of these isolates did not cluster with currently identified type strains, suggesting the existence of additional taxonomic diversity within some members of the Brucellaceae. The WGS and pan-family MLSA approaches applied here provide valuable tools for resolving the identity and phylogenetic relationships of isolates from an expanding bacterial family containing a number of important pathogens. [ABSTRACT FROM AUTHOR]

Published
2020
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39. Brucella vulpis sp. nov., a novel Brucella species isolated from mandibular lymph nodes of red foxes (Vulpes vulpes) in Austria

Author

Hofer , Erwin, Hammerl , Jens A., Zygmunt , Michel S., Cloeckaert , Axel, Koylass , Mark, Whatmore , Adrian M., Blom , Jochen, Revilla-Fernández , Sandra, Witte , Angela, Scholz , Holger C., Vergnaud , Gilles, Al Dahouk , Sascha, Aistleitner , Karin, WHO/FAO/OIE, Austrian Agency for Health and Food Safety (AGES), Central Institute of the Bundeswehr Medical Service, Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Bundesinstitut für Risikobewertung - Federal Institute for Risk Assessment (BfR), Federal Institute for Risk Assessment (BfR project no. 47-003, 1322-503, and 1322-619). Robert Koch-Institut (RKI) on behalf of the German Bundesministerium für Gesundheit (BMG), grant FKZ 1369-448, Infectiologie et Santé Publique (UMR ISP), Institut National de la Recherche Agronomique (INRA)-Université de Tours (UT), Center for Biotechnology (CeBiTec), Universität Bielefeld = Bielefeld University, Max Perutz Labs (MFPL), Medizinische Universität Wien = Medical University of Vienna-University of Vienna [Vienna], Institut de Biologie Intégrative de la Cellule ( I2BC ), Université Paris-Sud - Paris 11 ( UP11 ) -Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay-Centre National de la Recherche Scientifique ( CNRS ), and Federal Institute for Risk Assessment

Subjects
[ SDV.MP.BAC ] Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology
Abstract

International audience; Two slow-growing, Gram-negative, non-motile, non-spore-forming, coccoid bacteria (strains F60T and F965), isolated in Austria from mandibular lymph nodes of two red foxes (Vulpes vulpes), were subjected to a polyphasic taxonomic analysis. In a recent study, both isolates were assigned to the genus Brucella but could not be attributed to any of the existing species. Hence, we have analysed both strains in further detail to determine their exact taxonomic position and genetic relatedness to other members of the genus Brucella. The genome sizes of F60T and F965 were 3 236 779 and 3 237 765 bp, respectively. Each genome consisted of two chromosomes, with a DNA G+C content of 57.2 %. A genome-to-genome distance of >80 %, an average nucleotide identity (ANI) of 97 % and an average amino acid identity (AAI) of 98 % compared with the type species Brucella melitensis confirmed affiliation to the genus. Remarkably, 5 % of the entire genetic information of both strains was of non-Brucella origin, including as-yet uncharacterized bacteriophages and insertion sequences as well as ABC transporters and other genes of metabolic function from various soil-living bacteria. Core-genome-based phylogenetic reconstructions placed the novel species well separated from all hitherto-described species of the genus Brucella, forming a long-branched sister clade to the classical species of Brucella. In summary, based on phenotypic and molecular data, we conclude that strains F60T and F965 are members of a novel species of the genus Brucella, for which the name Brucella vulpis sp. nov. is proposed, with the type strain F60T ( = BCCN 09-2T = DSM 101715T).

Published
2016
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40. Multiplex assay based on single-nucleotide polymorphisms for rapid identification of Brucella isolates at the species level

Author

Scott, Julie C., Koylass, Mark S., Stubberfield, Michael R., and Whatmore, Adrian M.

Subjects
Single nucleotide polymorphisms -- Research, Biological sciences
Abstract

A multiplex assay is developed based on the species-defining single-nucleotide (SNPs) that have offered an alternative approach for identifying Brucella isolates at the species level. The assay has overcome the subjectivity associated with biotyping with an approach that is straightforward and has advantages in terms of speed.

Published
2007

41. A heterogeneous population of motile Brucellae out of the frog pond

Author

Al-Dahouk, S., Kohler, S., Occhialini, A., Jiménez de Bagüés, María P, Hammerl, Jens A, Eisenberg, Tobias, Vergnaud, G., Cloeckaert, Axel, Zygmunt, Michel S., Whatmore, Adrian M., Melzer, Falk, Drees, K.P., Foster, J.T., Wattam, A.R., Scholz, Holger C., Department of Biological Safety, Bundesinstitut für Risikobewertung - Federal Institute for Risk Assessment (BfR), Centre d’études d’Agents Pathogènes et Biotechologies pour la Santé (CPBS), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), University of Zaragoza - Universidad de Zaragoza [Zaragoza], Landesbetrieb Hessisches Landeslabor, I2BC, Centre National de la Recherche Scientifique (CNRS), Infectiologie et Santé Publique (UMR ISP), Institut National de la Recherche Agronomique (INRA)-Université de Tours, Animal and Plant Health Agency [Addlestone, UK] (APHA), Friedrich-Loeffler-Institut (FLI), Department of Molecular, Cellular, and Biomedical Sciences, University of New Hampshire (UNH), Virginia Bioinformatics Institute, Virginia Tech [Blacksburg], Bundeswehr Institute of Microbiology, ProdInra, Migration, Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Institut National de la Recherche Agronomique (INRA)-Université de Tours (UT), and Bundeswehr Institute of Microbiology. DEU.

Subjects
[SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Rana, [SDV.MP] Life Sciences [q-bio]/Microbiology and Parasitology, Brucella, ComputingMilieux_MISCELLANEOUS
Abstract

Session DP : Biological Protection and Environmental Hazards; International audience

Published
2015

42. Contributors

Author

Allaker, Robert P., Allen, David J., Amirthalingam, Gayatri, Banyard, Ashley C., Barer, Michael R., Barnes, Eleanor, Barrett, Alan D.T., Bayliss, Christopher D., Brown, David W., Brown, Kevin E., Brown, Rebecca, Chalker, Vicki J., Cooper, Ian A., Cousins, David J., Cunliffe, Nigel, Cuschieri, Kate, de Silva, Nilanthi R., Diggle, Mathew A., Dryden, Matthew, Falzarano, Darryl, Feldmann, Heinz, Fooks, Anthony R., Fry, Norman K., Graham, Sheila, Green, Luke R., Haque, Tanzina, Harvala, Heli, Head, Mark W., Heim, Albert, Humphreys, Hilary, Icenogle, Joseph P., Ijaz, Samreen, Ironside, James W., Irving, William L., Iturriza-Gómara, Miren, Jenkins, Claire, Jenkins, David R., Johannessen, Ingólfur, Karunaweera, Nadira D., Ketley, Julian M., Kilian, Mogens, Mabey, David, McLauchlin, Jim, Nakagomi, Osamu, Oggioni, Marco Rinaldo, Oyston, Petra, Pareek, Manish, Peeling, Rosanna W., Peiris, J.S. Malik, Pennington, T. Hugh, Perelygina, Ludmila, Perera, Nelun, Picardeau, Mathieu, Powers, Ann M., Riegel, Philippe, Riley, Thomas V., Rosser, Andrew, Russell, Richard C., Russell, Paul, Safronetz, David, Sequeira, Marilda M., Simmonds, Peter, Slack, Mary P.E., Stephenson, Iain, Swann, Andrew, Taha, Yusri, Tedder, Richard S., Thwaite, Joanne E., Tong, C.Y. William, van Vliet, Arnoud H.M., Walker, David H., Warnock, David W., Whatmore, Adrian M., Winstanley, Craig, Wooldridge, Karl G., Wu, Guanghui, Yu, Xue-Jie, and Zambon, Maria

Published
2019
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43. Brucella ceti and Brucella pinnipedialis infections in marine mammals

Author

Godfroid, Jacques, Nymo, Ingebjorg Helena, Tryland, Morten, Cloeckaert, Axel, Jauniaux, Thierry, Whatmore, Adrian M., Moreno, Edgardo, Foster, Geoffroy, Section of Arctic Veterinary medicine, Norwegian School of Veterinary Science, Infectiologie et Santé Publique (UMR ISP), Institut National de la Recherche Agronomique (INRA)-Université de Tours (UT), Université de Liège, Veterinary Laboratories Agency, Escuela de Medicina Veterinaria, Scottish Agricultural College, Aguirre, A.A., Ostgeld, R.S., Daszak, P., and Institut National de la Recherche Agronomique (INRA)-Université de Tours

Subjects
[SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology
Abstract

Chapitre 18; International audience

Published
2012

44. Isolation of Brucella microti from soil

Author

Scholz, Holger C., Hubalek, Zdenek, Nesvadbova, Jirina, Tomaso, Herbert, Vergnaud, Gilles, Le Fleche, Philippe, Whatmore, Adrian M., Al Dahouk, Sascha, Kruger, Monika, Lodri, Csilla, and Pfeffer, Martin

Subjects
Polymerase chain reaction -- Usage
Abstract

To the Editor: Brucella microti is a recently described Brucella species (1) that was isolated in 2000 from systemically infected common voles (Microtus arvalis) in South Moravia, Czech Republic. The [...]

Published
2008

45. Marine mammal Brucella genotype associated with zoonotic infection

Author

Whatmore, Adrian M., Dawson, Claire E., Groussaud, Pauline, Koylass, Mark S., King, Amanda C., Shankster, Stephen J., Sohn, Annette H., Probert, Will S., and McDonald, Wendy L.

Subjects
Meat industry -- Health aspects, Marine mammals -- Health aspects
Abstract

To the Editor: Brucellosis is a zoonotic disease that remains endemic to many parts of the world. There are 6 classic Brucella species described with different preferred hosts. Human disease [...]

Published
2008

46. Characterisation of North American Brucella isolates from marine mammals.

Author

Whatmore, Adrian M., Dawson, Claire, Muchowski, Jakub, Perrett, Lorraine L., Stubberfield, Emma, Koylass, Mark, Foster, Geoffrey, Davison, Nicholas J., Quance, Christine, Sidor, Inga F., Field, Cara L., and St. Leger, Judy

Subjects
*BRUCELLA, *ECOLOGICAL niche, *MARINE mammals, *MARINE biology, *ANIMAL species, *PHYSIOLOGY
Abstract

Extension of known ecological niches of Brucella has included the description of two novel species from marine mammals. Brucella pinnipedialis is associated predominantly with seals, while two major Brucella ceti clades, most commonly associated with porpoises or dolphins respectively, have been identified. To date there has been limited characterisation of Brucella isolates obtained from marine mammals outside Northern European waters, including North American waters. To address this gap, and extend knowledge of the global population structure and host associations of these Brucella species, 61 isolates from marine mammals inhabiting North American waters were subject to molecular and phenotypic characterisation enabling comparison with existing European isolates. The majority of isolates represent genotypes previously described in Europe although novel genotypes were identified in both B. ceti clades. Harp seals were found to carry B. pinnipedialis genotypes previously confined to hooded seals among a diverse repertoire of sequence types (STs) associated with this species. For the first time Brucella isolates were characterised from beluga whales and found to represent a number of distinct B. pinnipedialis genotypes. In addition the known host range of ST27 was extended with the identification of this ST from California sea lion samples. Finally the performance of the frequently used diagnostic tool Bruce-ladder, in differentiating B. ceti and B. pinnipedialis, was critically assessed based on improved knowledge of the global population structure of Brucella associated with marine mammals. [ABSTRACT FROM AUTHOR]

Published
2017
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47. Genome Reduction for Niche Association in Campylobacter Hepaticus, A Cause of Spotty Liver Disease in Poultry.

Author

Petrovska, Liljana, Yue Tang, van Rensburg, Melissa J. Jansen, Cawthraw, Shaun, Nunez, Javier, Sheppard, Samuel K., Ellis, Richard J., Whatmore, Adrian M., Crawshaw, Tim R., and Irvine, Richard M.

Subjects
CAMPYLOBACTER coli, AGRICULTURAL egg production, GENOMES, LIVER diseases, CAMPYLOBACTER jejuni
Abstract

The term "spotty liver disease" (SLD) has been used since the late 1990s for a condition seen in the UK and Australia that primarily affects free range laying hens around peak lay, causing acutemortality and a fall in egg production. A novel thermophilic SLD-associated Campylobacter was reported in the United Kingdom (UK) in 2015. Subsequently, similar isolates occurring in Australia were formally described as a new species, Campylobacter hepaticus. We describe the comparative genomics of 10 C. hepaticus isolates recovered from 5 geographically distinct poultry holdings in the UK between 2010 and 2012. Hierarchical gene-by-gene analyses of the study isolates and representatives of 24 known Campylobacter species indicated that C. hepaticus is most closely related to the major pathogens Campylobacter jejuni and Campylobacter coli. We observed low levels of within-farm variation, even between isolates collected over almost 3 years. With respect to C. hepaticus genome features, we noted that the study isolates had a ~140 Kb reduction in genome size, ~144 fewer genes, and a lower GC content compared to C. jejuni. The most notable reduction was in the subsystem containing genes for iron acquisition and metabolism, supported by reduced growth of C. hepaticus in an iron depletion assay. Genome reduction is common among many pathogens and in C. hepaticus has likely been driven at least in part by specialization following the occupation of a new niche, the chicken liver. [ABSTRACT FROM AUTHOR]

Published
2017
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48. Brucella ceti Infection in a Common Minke Whale ( Balaenoptera acutorostrata) with Associated Pathology.

Author

Davison, Nicholas J., Perrett, Lorraine L., Dawson, Claire, Muchowski, Jakub, Whatmore, Adrian M., Dagleish, Mark P., and Haskins, Gary

Abstract

There are three major lineages of marine mammal strains of Brucella spp.: Brucella ceti ST23, found predominantly in porpoises; B. ceti ST26, in pelagic delphinids and ziphiids; and Brucella pinnipedialis ST24/25, predominantly in seals. The isolation of Brucella spp. in mysticetes has been described only in common minke whales ( Balaenoptera acutorostrata) in Norway and Scotland. We report a third case of Brucella infection and isolation in a minke whale associated with a large abscess. In contrast to the two previous reports that involved isolates of B. pinnipedialis ST24 or the porpoise-associated B. ceti complex ST23, this case was associated with the dolphin-associated B. ceti ST26. Thus, minke whales can be infected naturally with members of all the distinct major lineages of Brucella associated with marine mammals. This report is unique in that the B. ceti ST26 did not originate from a pelagic delphinid or a beaked whale. [ABSTRACT FROM AUTHOR]

Published
2017
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49. Genetic Relationships between Clinical Isolates of Streptococcus pneumoniae, Streptococcus oralis, and Streptococcus mitis: Characterization of 'Atypical' Pneumococci and Organisms Allied to S. mitis Harboring S. pneumoniae Virulence Factor-Encoding Genes

Author

Whatmore, Adrian M., Efstratiou, Androulla, Pickerill, A. Paul, Broughton, Karen, Woodard, Geoffrey, Sturgeon, Daniel, George, Robert, and Dowson, Christopher G.

Subjects
Phenotype, Streptococcus pneumoniae, Bacterial Proteins, Virulence, Genes, Bacterial, Bacterial Vaccines, Streptolysins, Humans, Streptococcus, Molecular Genomics, Streptococcus oralis, N-Acetylmuramoyl-L-alanine Amidase
Abstract

The oral streptococcal group (mitis phylogenetic group) currently consists of nine recognized species, although the group has been traditionally difficult to classify, with frequent changes in nomenclature over the years. The pneumococcus (Streptococcus pneumoniae), an important human pathogen, is traditionally distinguished from the most closely related oral streptococcal species Streptococcus mitis and Streptococcus oralis on the basis of three differentiating characteristics: optochin susceptibility, bile solubility, and agglutination with antipneumococcal polysaccharide capsule antibodies. However, there are many reports in the literature of pneumococci lacking one or more of these defining characteristics. Sometimes called "atypical" pneumococci, these isolates can be the source of considerable confusion in the clinical laboratory. Little is known to date about the genetic relationships of such organisms with classical S. pneumoniae isolates. Here we describe these relationships based on sequence analysis of housekeeping genes in comparison with previously characterized isolates of S. pneumoniae, S. mitis, and S. oralis. While most pneumococci were found to represent a closely related group these studies identified a subgroup of atypical pneumococcal isolates (bile insoluble and/or "acapsular") distinct from, though most closely related to, the "typical" pneumococcal isolates. However, a large proportion of isolates, found to be atypical on the basis of capsule reaction alone, did group with typical pneumococci, suggesting that they have either lost capsule production or represent as-yet-unrecognized capsular types. In contrast to typical S. pneumoniae, isolates phenotypically identified as S. mitis and S. oralis, which included isolates previously characterized in taxonomic studies, were genetically diverse. While most of the S. oralis isolates did fall into a well-separated group, S. mitis isolates did not cluster into a well-separated group. During the course of these studies we also identified a number of potentially important pathogenic isolates, which were frequently associated with respiratory disease, that phenotypically and genetically are most closely related to S. mitis but which harbor genes encoding the virulence determinants pneumolysin and autolysin classically associated with S. pneumoniae.

Published
2000

50. The Change of a Medically Important Genus: Worldwide Occurrence of Genetically Diverse Novel Brucella Species in Exotic Frogs.

Author

Scholz, Holger C., Mühldorfer, Kristin, Shilton, Cathy, Benedict, Suresh, Whatmore, Adrian M., Blom, Jochen, and Eisenberg, Tobias

Subjects
FROGS, BRUCELLA, VETERINARY medicine, HOSTS (Biology), BACTERIA phylogeny, WARM-blooded animals
Abstract

The genus Brucella comprises various species of both veterinary and human medical importance. All species are genetically highly related to each other, sharing intra-species average nucleotide identities (ANI) of > 99%. Infections occur among various warm-blooded animal species, marine mammals, and humans. Until recently, amphibians had not been recognized as a host for Brucella. In this study, however, we show that novel Brucella species are distributed among exotic frogs worldwide. Comparative recA gene analysis of 36 frog isolates from various continents and different frog species revealed an unexpected high genetic diversity, not observed among classical Brucella species. In phylogenetic reconstructions the isolates consequently formed various clusters and grouped together with atypical more distantly related brucellae, like B. inopinata, strain BO2, and Australian isolates from rodents, some of which were isolated as human pathogens. Of one frog isolate (10RB9215) the genome sequence was determined. Comparative genome analysis of this isolate and the classical Brucella species revealed additional genetic material, absent from classical Brucella species but present in Ochrobactrum, the closest genetic neighbor of Brucella, and in other soil associated genera of the Alphaproteobacteria. The presence of gene clusters encoding for additional metabolic functions, flanked by tRNAs and mobile genetic elements, as well as by bacteriophages is suggestive for a different ecology compared to classical Brucella species. Furthermore it suggests that amphibian isolates may represent a link between free living soil saprophytes and the pathogenic Brucella with a preferred intracellular habitat. We therefore assume that brucellae from frogs have a reservoir in soil and, in contrast to classical brucellae, undergo extensive horizontal gene transfer. [ABSTRACT FROM AUTHOR]

Published
2016
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