Inter- and intra-strain variation and PCR detection of the internal transcribed spacer 1 (ITS-1) sequences of Australian isolates of Eimeria species from chickens.

The objective of this study was to confirm the presence of seven species of Eimeria involved in chicken coccidiosis in Australia by comparing internal transcribed spacer 1 (ITS-1) sequences, ITS-1 polymerase chain reaction (PCR) methods and to apply phylogenetic analysis to assess evolutionary relationships of Australian isolates. Twenty-two distinct ITS-1 regions of 15 Australian Eimeria isolates were sequenced, and analysed using maximum parsimony, distance and maximum likelihood methods. Poor bootstrap support, resulting from high ITS-1 sequence heterogeneity between all species groups, resulted in polychotomy of the Eimeria species in all three trees generated by these analyses. Percentage identity analyses revealed two distant ITS-1 lineages in both E. mitis and E. maxima at the same levels that separate the two species E. tenella and E. necatrix. One E. maxima lineage consisted of Australian isolates, the other American isolates, with one European sequence (originating from the same isolate) in each lineage. One Australian E. praecox sequence was only distantly related (33% variation) to three E. praecox sequences from Australian and European isolates. Short and long ITS-1 variants were isolated from both E. tenella (cloned line) and E. necatrix isolates with deletions (106 and 73 bp, respectively) in the short variants within the 3' region of the ITS-1 sequence. ITS-1 sequences of strains of both E. brunetti and E. acervulina species varied the least. Apart from E. maxima, all of the ITS-1 sequences of the six remaining individual species clustered to the exclusion of other species in all phylogenetic trees. Published ITS-1 tests for E. necatrix, E. acervulina, E. brunetti and E. tenella, combined with three new tests for E. mitis, E. praecox and Australian E. maxima amplified all respective Australian isolates specifically in a nested format using conserved ITS-1 PCR products as template to improve the sensitivity. All PCR tests were confirmed against a collection of 24 Australian chicken Eimeria isolates and contaminating species were detected in some instances. In conclusion, once the genetic variation between species and strains is determined, the ITS-1 is a good target for the development of species-specific assays, but the ITS-1 sequences alone do not seem suitable for the confirmation of phylogenetic inferences for these species. This study reports the first attempt at the analysis of the phylogeny and sequence comparison of the Eimeria species involved in chicken coccidiosis in Australia.

Myosins of Babesia bovis: molecular characterisation, erythrocyte invasion, and phylogeny.

Using degenerate primers, three putative myosin sequences were amplified from Australian isolates of Babesa bovis and confirmed as myosins (termed Bbmyo-A, Bbmyo-B, and Bbmyo-C) from in vitro cultures of the W strain of B. bovis. Comprehensive analysis of 15 apicomplexan myosins suggests that members of Class XIV be defined as those with greater than 35% myosin head sequence identity and that these be further subclassed into groups bearing above 50-60% identity. Bbmyo-A protein bears a strong similarity with other apicomplexan myosin-A type proteins (subclass XIVa), the Bbmyo-B myosin head protein sequence exhibits low identity (35-39%) with all members of Class XIV, and 5'-sequence of Bbmyo-C shows strong identity (60%) with P. falciparum myosin-C protein. Domain analysis revealed five divergent IQ domains within the neck of Pfmyo-C, and a myosin-N terminal domain as well as a classical IQ sequence unusually located within the head converter domain of Bbmyo-B. A cross-reacting antibody directed against P. falciparum myosin-A (Pfmyo-A) revealed a zone of approximately 85 kDa in immunoblots prepared with B. bovis total protein, and immunofluorescence inferred stage-specific myosin-A expression since only 25% of infected erythrocytes with mostly paired B. bovis were immuno-positive. Multiplication of B. bovis in in vitro culture was inhibited by myosin- and actin-binding drugs at concentrations lower than those that inhibit P. falciparum. This study identifies and classifies three myosin genes and an actin gene in B. bovis, and provides the first evidence for the participation of an actomyosin-based motor in erythrocyte invasion in this species of apicomplexan parasite.

A msp1alpha polymerase chain reaction assay for specific detection and differentiation of Anaplasma marginale isolates.

Anaplasma marginale is the causative agent of bovine anaplasmosis, a disease which can be protected by vaccination with the less pathogenic Anaplasma species, A. centrale. Currently, there is no polymerase chain reaction (PCR) assay available which differentiates between different species of Anaplasma or which can differentiate isolates of A. marginale within outbreaks and between different countries. A molecular test specific for A. marginale would be ideal for the identification of Anaplasma species in wild ruminants, as possible reservoirs of anaplasmosis, and to differentiate between A. marginale from A. centrale. A PCR assay was designed to amplify the major surface protein 1alpha gene of the rickettsial bovine pathogen, A. marginale both as an inter- and intra-specific test. The test did not amplify A. centrale or A. ovis, and discriminated A. marginale by amplifying repeat regions within the msp1alpha gene which vary in number between many isolates. The nested A. marginale amplicons varied in size from 630 to 1190bp representing one to eight internal repeats. All 22 Australian isolates tested amplified a 630bp product (one repeat) in contrast to all 19 non-Australian isolates tested. Eight sequences from Australian isolates from different geographical regions confirmed the conserved nature of the Australian A. marginale msp1alpha genes. The Australian 'repeat unit' MSP1a deduced amino acid sequence has been designated as Australian type 1. The msp1alpha PCR method developed here enabled the amplification and comparison of A. marginale isolates originating from North and South America, Africa, Israel and Australia. The method is sensitive and specific for A. marginale. Although additional msp1alpha products were amplified from at least two Australian isolates, the results suggest limited introduction of A. marginale into Australia.

Application of PCR assays to determine the genotype of Babesia bovis parasites isolated from cattle with clinical babesiosis soon after vaccination against tick fever.

OBJECTIVE: To demonstrate the value of PCR assays to determine the genotypes of Babesia bovis in cattle with clinical signs of babesiosis within 3 weeks after vaccination against tick fever. DESIGN: Samples from 5 cases of babesiosis in cattle soon after vaccination against tick fever were analysed in two PCR assays. PROCEDURE: Parasite DNA was purified from blood taken from cattle with signs of babesiosis within 3 weeks of vaccination against tick fever. DNA was also prepared from the tissues of animals that died of babesiosis. Two PCR assays that amplify repeat sequences of DNA within the B bovis genes, Bv80 and BvVA1, were used to differentiate the genotypes of field isolates and vaccine strains of B bovis. RESULTS: One of the five cases of babesiosis was found to be caused by a vaccine strain, but PCR analyses showed that the predominant isolate in the other four cases was not the vaccine strain. CONCLUSIONS: PCR assays on the DNA of B bovis obtained from the blood or tissues of cattle clinically affected with tick fever within 3 weeks after vaccination are useful to distinguish between vaccine strains and field isolates as the source of infection.

Identification of new transposable genetic elements in Burkholderia pseudomallei using subtractive hybridisation.

A subtraction library of Burkholderia pseudomallei was constructed by subtractive hybridisation of B. pseudomallei genomic DNA with Burkholderia thailandensis genomic DNA. Two clones were found to have significant sequence similarity to insertion sequences which have previously not been found in B. pseudomallei (designated ISA and ISB); and two clones showed sequence similarity to different regions of Burkholderia cepacia IS407 that has recently been detected in B. pseudomallei. The former, though possibly non-functional, represents new transposable genetic elements of B. pseudomallei. All three sequences were found to be present in multi-copy in the genomes of a number of B. pseudomallei strains and in B. thailandensis, which are the first transposable elements identified in this species.

Detection of Eimeria acervulina using the polymerase chain reaction.

A polymerase chain reaction (PCR)-based assay was developed for the detection of Eimeria acervulina. Primers were designed to amplify a fragment of the EASZ240/160 sporozoite antigen gene. The PCR assay detected as few as 10 E. acervulina oocysts in a mixed population containing a total of 10(6) oocysts. No nonspecific reaction was observed with any other species of avian Eimeria known to occur in Australia. PCR products from genomic DNA were 237 bp larger than predicted from previously reported cDNA sequences. Sequencing of the product revealed the presence of a probable intron. This work demonstrates the potential of PCR-based assays for identification and detection of avian Eimeria. Potential uses include identification of minor species present in mixed infections and quality control in the production of live vaccines.

Genotypic diversity in field isolates of Babesia bovis from cattle with babesiosis after vaccination.

OBJECTIVE: To determine whether particular genotypes of Babesia bovis were common to field isolates obtained from cattle properties in Queensland where the B bovis vaccine had apparently failed. DESIGN: A comparative study of polymerase chain reaction genotypes in different populations of B bovis. PROCEDURE: Two polymerase chain reaction assays were applied to analyse DNA extracts of B bovis vaccine (K, T and Dixie strains) and 27 field isolates from 24 properties where disease outbreaks had occurred despite the use of the vaccine. To evaluate the stability of the genotypes identified, 11 of the field isolates were inoculated into experimental cattle that had either been previously vaccinated with T strain or not vaccinated. RESULTS: No particular genotype of B bovis was responsible for the problems observed in previously vaccinated herds. None of the isolates had genotypes identical to the vaccine strains used. No geographic trends among the genotypes were observed. Isolates that originated from the same property also had different genotypes. Blood passage of the 11 field isolates in either previously vaccinated or nonvaccinated cattle did not alter the original genotype. CONCLUSION: No particular genotypes identified by the Bv80 and BvVA1 polymerase chain reaction assays could be associated with vaccine failures.

PCR methods for the discrimination of Babesia bovis isolates.

Three different polymerase chain reaction assays for the typing of isolates of Babesia bovis have been developed and compared with a hybridisation based method. Primers were designed within conserved regions flanking the variable length tandem repeats of the Bv80 and BvVA1 genes. For the long array of repeats in BvVA1, up to 7.5 kb, a modified long template PCR method was developed. The assays were compared using ten independent isolates of Babesia bovis. Using the BvVA1 and Bv80 PCR assays, 13 and 10 genotypes could be discriminated, respectively, with some isolates containing several genotypes. Combining the two PCR assays, 17 genotypes were identified within the ten Babesia bovis isolates. Whilst simpler and requiring less DNA, the BvVA1 PCR analysis exhibited significant bias towards some genotypes of the BvVA1 repeats. Further discrimination of BvVA1 PCR products was achieved using AccI digests producing population specific ladders. Genomic DNA fingerprints were also generated by PCR of DNA using an arbitrary primer (randomly amplified polymorphic DNA, RAPD) revealing polymorphic genotypes that were isolate specific. No amplification of host DNA resulted from any of the three PCR procedures. Babesia bigemina DNA was not amplified by the Bv80 or BvVA1 primers. Applications demonstrating changes in composition of populations of Babesia bovis parasites during attenuation and prolonged culture maintenance are described.

Babesia bovis: genome size, number of chromosomes and telomeric probe hybridisation.

Pulsed field gel electrophoresis of intact chromosomes of Babesia bovis revealed four chromosomes in the haploid genome. A telomere probe, derived from Plasmodium berghei, hybridised to eight SfiI restriction fragments of genomic B. bovis DNA digests indicating the presence of four chromosomes. A small subunit (18S) ribosomal RNA gene probe hybridised to the third chromosome only. The genome size of B. bovis is estimated to be 9.4 million base pairs. The sizes of chromosomes 1, 2, 3 and 4 are estimated to be 1.4, 2.0, 2.8 and 3.2 million base pairs, respectively.

Detection of Pseudomonas pseudomallei by PCR and hybridization.

A molecular method for the detection of Pseudomonas pseudomallei was developed on the basis of the differences in the 23S rRNA sequences of related species of the genus Pseudomonas. An 18-base oligonucleotide probe, designed following partial sequencing of 23s ribosomal DNA (rDNA), was used for the identification and detection of P. pseudomallei either by hybridization or by direct PCR. Optimal detection was obtained by hybridization of the probe with PCR-amplified rDNA rather than with total genomic DNA or colony blots. One nanogram of template DNA amplified in a PCR mixture containing 14% glycerol could be detected in slot blots hybridized with the digoxigenin-labelled probe and the lumigen PPD detection system. Amplified rDNA sequences from 41 P. pseudomallei strains of various origins hybridized with the probe. The probe also hybridized with three Pseudomonas mallei reference strains under conditions of high stringency but failed to hybridize with amplified rDNA sequences from other closely related Pseudomonas spp. PCR with a conserved primer and the 18-base oligonucleotide probe (direct PCR) specifically amplified P. pseudomallei and P. mallei. By using these methods, approximately 10(4) P. pseudomallei cells per ml could be detected in artificially inoculated blood samples and in blood dried on filter paper following Chelex extraction. The detection limit in blood was increased to 10(2) cells per ml by concentration of bacteria from 0.5 ml of blood or by a 24-h blood culture enrichment prior to PCR. Approximately 10(3) cells per ml were detected in seeded sputum samples. The detection times by direct PCR and indirect PCR and then probe hybridization were approximately 5 h and 24 h, respectively. These results indicate that amplification of conserved rDNA sequences by PCR directly or by hybridization with a probe to PCR fragments offers promise for the detection of P. pseudomallei and P. mallei.

Molecular typing of Pseudomonas pseudomallei: restriction fragment length polymorphisms of rRNA genes.

The aim of this study was to develop a typing scheme for Pseudomonas pseudomallei by comparison of patterns of restriction fragment length polymorphisms in rRNA genes (ribotyping). BamHI restriction digests of 100 isolates from various animal (34), human (58), and environmental (6) sources, including six reference strains, were hybridized to Escherichia coli 16S and 23S rRNAs. A chemiluminescent labelling and detection system was used to visualize bands. On the basis of patterns, the strains were classified into 22 different groups, with the largest containing 29 isolates. While most of the ribotypes were not exclusive to a particular source, some ribotypes were restricted to a particular geographic area or to either a human or a particular animal species. Application of the typing scheme to isolates of four independent outbreaks among animals showed that certain ribotypes predominated. The study demonstrated ribotyping to be a useful tool in epidemiological investigations of melioidosis.

Restriction fragment length polymorphism analysis of Listeria monocytogenes and its application to epidemiological investigations.

The restriction fragment length polymorphisms (RFLPs) of 64 random and potentially related strains of Listeria monocytogenes were analysed and compared using a probe comprised of two L. monocytogenes chromosome fragments cloned into a lambda vector. Twelve RFLP types were defined using 14 isolates of clinical origin, 42 food isolates and eight food associated environmental strains. Of the RFLP types, some were common to a particular serovar and source, whereas others were widespread amongst all serovars and sources. One of the two most common RFLP patterns was associated with serovar 1/2 isolates from food or the environment, whereas another dominant pattern was associated most commonly with serovar four isolates from all sources. The potential relationships between epidemiologically related strains were examined, with the analysis of types from a suspected listeriosis outbreak, from clinical maternal-foetal cases, and from an ice-cream factory environmental study. Serotyping alone was not a sufficient marker for the comparison of these strains whereas further discrimination of strains was possible with RFLP analysis.