Abstract
BackgroundBrucellosis, 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.ResultsSeven 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.ConclusionThe 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.
Highlights
Brucellosis, caused by members of the genus Brucella, remains one of the world's major zoonotic diseases
Bovine infection is generally caused by B. abortus, B. melitensis infects predominantly sheep and goats, B. suis infects pigs, hares and reindeer, B. ovis infects sheep only, B. canis infects dogs, whilst B. neotomae has only been isolated from the desert wood rat
Assay design Previous multilocus sequence analysis (MLSA) studies, performed by us, identified a number of single nucleotide polymorphisms (SNPs) that are specific for known Brucella spp
Summary
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, more recently additional isolations of novel Brucella have been reported from various marine mammals and voles. In addition to the six classically described species novel members of the genus have more recently been isolated from marine mammals, predominantly dolphins, porpoises and seals. These have very recently been classified as two additional species, B. ceti (cetaceans) and B. pinnipedialis (pinnipeds) [7]. There is evidence to suggest that humans can be infected by marine mammal Brucella further highlighting the importance of this group of organisms to human health [10,11,12]
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