A pair of oligonucleotide primers (MP1 and MP2) were used for the polymerase chain reaction (PCR) amplification of a 486 base pair (bp) fragment of the 16S rRNA gene of 26 geographically diverse Australian Melissococcus pluton (causative agent of European foulbrood) isolates. PCR primers spanning a region of the 16S rRNA gene from position 893-1377 failed to amplify a product when template DNA from a wide range of pathogenic and saprophytic bacteria were used including Paenibacillus larvae, Paenibacillus alve~ Enterococcus faecium and Spiroplasma melliferum. The PCR did, however; reliably amplify a 486 bp fragment (when the annealing temperature was lowered by 5°C) using template DNA isolated from the phylagenetically-related bacterium Enterococcus faecalis. PCR amplicons generated from E faecalis and M. pluton were readily distinguished by digestion with the restriction endonuclease Hinfl and electrophoresis in 1.5% agarose or by electrophoresis in 1% agarose containing bisbenzidene/polyethylene glycol. A hemi-nested PCR requiring a combination of primers MP1 and a third primer, MP3, which spanned 25 nucleotides from position 1168--1144 and internal to the 486 bp amplicon generated by primers MP1 and MP2 was developed. The hemi-nested PCR amplified a 276 bp M. plutonspecific product that was not amplified with E faecalis DNA. In sensitivity studies, the PCR assay could reliably detect approximately 1-10 organisms/mi. This level of sensitivity was achieved using crude DNA templates (boiled cell lysate) prepared using lnstagene matrix. The PCR assay could also detect M. pluton in brood with European foulbrood. Downloaded by [University of Birmingham] at 08
Twenty-five unique CfoI-generated whole-cell DNA profiles were identified in a study of 30 Paenibacillus alvei isolates cultured from honey and diseased larvae collected from honeybee (Apis mellifera) colonies in geographically diverse areas in Australia. The fingerprint patterns were highly variable and readily discernible from one another, which highlighted the potential of this method for tracing the movement of isolates in epidemiological studies. 16S rRNA gene fragments (length, 1,416 bp) for all 30 isolates were enzymatically amplified by PCR and subjected to restriction analysis with DraI, HinfI, CfoI, AluI, FokI, and RsaI. With each enzyme the restriction profiles of the 16S rRNA genes from all 30 isolates were identical (one restriction fragment length polymorphism [RFLP] was observed in the HinfI profile of the 16S rRNA gene from isolate 17), which confirmed that the isolates belonged to the same species. The restriction profiles generated by using DraI, FokI, and HinfI differentiated P. alvei from the phylogenetically closely related species Paenibacillus macerans and Paenibacillus macquariensis. Alveolysin gene fragments (length, 1,555 bp) were enzymatically amplified from some of the P. alvei isolates (19 of 30 isolates), and RFLP were detected by using the enzymes CfoI, Sau3AI, and RsaI. Extrachromosomal DNA ranging in size from 1 to 10 kb was detected in 17 of 30 (57%) P. alvei whole-cell DNA profiles. Extensive biochemical heterogeneity was observed among the 28 P. alvei isolates examined with the API 50CHB system. All of these isolates were catalase, oxidase, and VogesProskauer positive and nitrate negative, and all produced acid when glycerol, esculin, and maltose were added. The isolates produced variable results for 16 of the 49 biochemical tests; negative reactions were recorded in the remaining 30 assays. The genetic and biochemical heterogeneity in P. alvei isolates may be a reflection of adaptation to the special habitats in which they originated.Paenibacillus alvei is a spore-forming bacterium that swarms vigorously on routine culture media. P. alvei, Enterococcus faecalis, Enterococcus faecium, and Achromobacter eurydice are often recovered from diseased larvae obtained from honeybee (Apis mellifera) colonies infected with Melissococcus pluton, the causative agent of European foulbrood (EFB) (3). In Australia, P. alvei is the third-most common bacterium detected in honeybee colonies, and E. faecalis, E. faecium, and A. eurydice are rarely recovered from EFB-affected colonies (17, 18). P. alvei can produce signs in larvae that are similar to the signs produced by Paenibacillus larvae subsp. larvae, which causes American foulbrood, the other major bacterial disease of honeybees.Several studies based on comparative analyses of 16S rRNA gene sequences of different Bacillus species revealed five phylogenetically distinct clusters (groups 1 through 5), which confirmed that this genus is genetically heterogeneous and in need of extensive taxonomic revision (1, 27). Furthermore, the authors sug...
Melissococcus pluton, the causative agent of European foulbrood is an economically significant disease of honey bees (Apis mellifera) across most regions of the world and is prevalent throughout most states of Australia. 49 Isolates of M. pluton recovered from diseased colonies or honey samples in New South Wales, Queensland, South Australia, Tasmania and Victoria were compared using SDS-PAGE, Western immunoblotting and restriction endonuclease analyses. DNA profiles of all 49 geographically diverse isolates showed remarkably similar AluI profiles although four isolates (one each from Queensland, South Australia, New South Wales and Victoria) displayed minor profile variations compared to AluI patterns of all other isolates. DNA from a subset of the 49 Australian and three isolates from the United Kingdom were digested separately with the restriction endonucleases CfoI, RsaI and DraI. Restriction endonuclease fragment patterns generated using these enzymes were also similar although minor variations were noted. SDS-PAGE of whole cell proteins from 13 of the 49 isolates from different states of Australia, including the four isolates which displayed minor profile variations (AluI) produced indistinguishable patterns. Major immunoreactive proteins of approximate molecular masses of 21, 24, 28, 30, 36, 40, 44, 56, 60, 71, 79 and 95 kDa were observed in immunoblots of whole cell lysates of 22 of the 49 isolates and reacted with rabbit hyperimmune antibodies raised against M. pluton whole cells. Neither SDS-PAGE or immunoblotting was capable of distinguishing differences between geographically diverse isolates of M. pluton. Collectively these data confirm that Australian isolates of M. pluton are genetically homogeneous and that this species may be clonal. Plasmid DNA was not detected in whole cell DNA profiles of any isolate resolved using agarose gel electrophoresis.
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