Real-Time PCR Assays of Single-Nucleotide Polymorphisms Defining the Major
            <i>Brucella</i>
            Clades

Foster, Jeffrey T.; Okinaka, Richard T.; Svensson, Rita; Shaw, Kathryn; De, Barun K.; Robison, Richard A.; Probert, William S.; Kenefic, Leo J.; Brown, William D.; Keim, Paul

doi:10.1128/jcm.01496-07

Cited by 58 publications

(27 citation statements)

References 35 publications

(37 reference statements)

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“…Concerning sensitivity and rapidness, a conventional PCR like our multiplex PCR assay cannot compete with a real-time PCR as developed by Foster et al (2008) for specific detection of 7 major Brucella clades. However, for identification of a sample of unknown source, 7 different real-time PCRs have to be run in parallel to reach this goal.…”

Section: Resultsmentioning

confidence: 98%

See 1 more Smart Citation

Development of a PCR assay for typing and subtyping of Brucella species

Huber

Scholz

Lucero

et al. 2009

International Journal of Medical Microbiology

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Section: Resultsmentioning

confidence: 98%

“…However, for identification of a sample of unknown source, 7 different real-time PCRs have to be run in parallel to reach this goal. Furthermore, the approach of Foster et al (2008) does not distinguish between biovars of certain species or between the marine brucellae according to current taxonomy, nor does it identify B. microti.…”

Section: Resultsmentioning

confidence: 98%

Development of a PCR assay for typing and subtyping of Brucella species

Huber

Scholz

Lucero

et al. 2009

International Journal of Medical Microbiology

View full text Add to dashboard Cite

“…Given advances in molecular approaches it would seem timely to consider whether such approaches offer a more meaningful replacement for biotyping. Such assays could be based on genomic rearrangements such as the multiplex Bruceladder (López-Goñi et al, 2008) or SNPs as per existing speciation assays (Scott et al, 2007; Foster et al, 2008; Gopaul et al, 2008) which have the advantage that they can be applied at a number of taxonomic levels (Keim et al, 2004). The crucial point is that they must be designed on the back of a robust population genetic understanding provided by data such as that presented here and iteratively re-examined as knowledge of extant diversity increases.…”

Section: Discussionmentioning

confidence: 99%

“…Further this traditional method is likely to become increasingly less relevant as the genus expands and new species emerge that diverge from classical criteria. As more molecular diversity has become apparent with technological advances biotyping is increasingly being replaced by the use of frontline molecular tools notably various diagnostic PCRs based on genomic deletions or SNPs (Foster et al, 2008; Gopaul et al, 2008, 2010; López-Goñi et al, 2008). However the performance of such tools is critically dependent on their design being based on an accurate and comprehensive understanding of the population genetic structure of the groups they are designed to separate (Keim et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Extended Multilocus Sequence Analysis to Describe the Global Population Structure of the Genus Brucella: Phylogeography and Relationship to Biovars

et al. 2016

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An extended multilocus sequence analysis (MLSA) scheme applicable to the Brucella, an expanding genus that includes zoonotic pathogens that severely impact animal and human health across large parts of the globe, was developed. The scheme, which extends a previously described nine locus scheme by examining sequences at 21 independent genetic loci in order to increase discriminatory power, was applied to a globally and temporally diverse collection of over 500 isolates representing all 12 known Brucella species providing an expanded and detailed understanding of the population genetic structure of the group. Over 100 sequence types (STs) were identified and analysis of data provided insights into both the global evolutionary history of the genus, suggesting that early emerging Brucella abortus lineages might be confined to Africa while some later lineages have spread worldwide, and further evidence of the existence of lineages with restricted host or geographical ranges. The relationship between biovar, long used as a crude epidemiological marker, and genotype was also examined and showed decreasing congruence in the order Brucella suis > B. abortus > Brucella melitensis. Both the previously described nine locus scheme and the extended 21 locus scheme have been made available at http://pubmlst.org/brucella/ to allow the community to interrogate existing data and compare with newly generated data.

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“…In some cases, appearance of mutants that generate genetic diversity is responsible for atypical susceptibility to dyes or delayed agglutination with anti- Brucella sera and thus hinders an accurate identification of the species and biovar [12]. Molecular genotyping based on single gene or multilocus sequence typing to identify locus polymorphisms or other mutations in genes have also been developed to understand the phylogeny of the genus Brucella and try to address the question of species and biovars [25][26]. These methods are not exhaustive when sub-typing for epidemiological trace-back is necessary.…”

Section: Discussionmentioning

confidence: 99%

Imported human brucellosis in Belgium: Bio and molecular typing of bacterial isolates, 1996-2015

et al. 2017

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ObjectivesThe aim of this study was to characterize by classical biotyping and Multi-Locus variable number tandem repeats (VNTR) Analysis (MLVA) all Brucella spp. derived from human cases in Belgium from 1996 to 2015. Final goals were to determine the species and biovar, to trace-back on genetic grounds the origin of each strain when patient history and risk factors were missing, and to survey for particular trends at the national level.MethodsA total of 37 Brucella strains, isolated from 37 patients in Belgium, were analyzed by both classical biotyping and MLVA, and the genetic patterns compared to those of human strains isolated worldwide.ResultsClassical biotyping revealed that isolates were mainly Brucella melitensis. Most of them belonged to biovar 3, the most abundant biovar in the Mediterranean region. MLVA confirmed that Brucella melitensis is too diverse in VNTRs to be able to make clusters associated to each biovar, but it allowed retrieving precious epidemiological information. The analysis highlighted the imported nature of the strains from all over the world with a dominant part from the Mediterranean countries. Findings of the MLVA11 testing were in line with the travel history of patients coming from Italy, Turkey, Lebanon and Peru. The analysis was particularly useful because it suggested the geographical origin of the infection for 12/16 patients for whom no case history was available.ConclusionClassical biotyping and MLVA analysis are not exclusive but remain complementary tools for Brucella melitensis strain surveillance. MLVA11 is sufficient for Brucella-free countries such as Belgium to trace the geographical origin of infection, but complete MLVA16 is needed to search for links with endemic areas.

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Real-Time PCR Assays of Single-Nucleotide Polymorphisms Defining the Major Brucella Clades

Cited by 58 publications

References 35 publications

Development of a PCR assay for typing and subtyping of Brucella species

Development of a PCR assay for typing and subtyping of Brucella species

Extended Multilocus Sequence Analysis to Describe the Global Population Structure of the Genus Brucella: Phylogeography and Relationship to Biovars

Imported human brucellosis in Belgium: Bio and molecular typing of bacterial isolates, 1996-2015

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