Evaluation of Ssp I polymerase chain reaction assay in the detection of Wuchereria bancrofti infection in field-collected Culex quinquefasciatus and its application in the transmission studies of lymphatic filariasis

Abstract: Ssp I polymerase chain reaction (PCR) assay, developed for Wuchereria bancrofti, was evaluated for its sensitivity in detecting infection in the vector, Culex quinquefasciatus, in the field. The evaluation of the assay was carried out using pools of vector mosquitoes collected from areas under filariasis survey and control trial projects, in comparison with the standard dissection and microscopy technique. In the filariasis survey area the infection rate as determined by the dissection and microscopy technique was 0.89% whereas it was 1.7% by PCR assay. In the Bacillus sphaericus trial area the infection rates as assessed by the conventional technique were 6.6 and 4.5% in the treated and check areas, respectively, whereas those obtained by the PCR assay were 4.7 to 2.2%. Although the infection rates determined by the PCR assay are slightly higher or lower than the rates obtained by the conventional technique, the difference was not statistically significant (P=0.451 for filariasis survey area, and P=0.203 and 0.161 for B. sphaericus trial area). When the pool size of Cx. quinquefasciatus was increased to 50 the sensitivity of the PCR was affected. The changes in infection rates as influenced by the antifilarial chemotherapy were similar when determined by PCR assay and the standard method. The major advantage of the PCR assay over the conventional technique is that thousands of mosquitoes can be processed within a short duration and this attribute has potential application in rapid assessment of disease prevalence and monitoring of the transmission dynamics.     

Development of a selective and sensitive polymerase chain reaction assay for the detection of Mycoplasma pirum

Abstract A new assay using the polymerase chain reaction to amplify a 173-nucleotide DNA fragment within the 16S ribosomal RNA gene of Mycoplasma pirum has been developed. The assay selectively amplified DNA from all strains of M. pirum tested with a high level of sensitivity, even in a context of human DNA. DNA from other mollicute species, including those closely related to M. pirum , from bacteria phylogenetically close to mollicutes ( Clostridium innocuum, C. ramosum and Bacillus subtilis ), from Escherichia coli and from human peripheral blood mononuclear cells, did not produce the amplified DNA product specific for M. pirum .     

A novel polymerase chain reaction assay for the detection and speciation of thermophilic Campylobacter spp.

A novel PCR amplification method is described which is specific for the thermophilic, enteropathogenic species Campylobacter jejuni, Camp. coli and Camp. upsaliensis. Rapid, accurate speciation of amplified strains is possible on the basis of restriction fragment length polymorphisms of PCR products digested with three restriction enzymes, Alu I, Dde I and Dra I. The sensitivity of detection is 25 cfu in water, and 2 x 10³ cfu in full cream milk. An epidemiological application of the assay in detecting non-culturable campylobacters from a contaminated potable water supply is described.     

Real-time polymerase chain reaction assay for rapid and sensitive detection of anthrax spores in spiked soil and talcum powder

Real-time polymerase chain reaction (real-time PCR) is a laboratory technique based on PCR. This technique is able to detect sequence-specific PCR products as they accumulate in “real time” during the PCR amplification, and also to quantify the number of substrates present in the initial PCR mixture before amplification begins. In the present study, real-time PCR assay was employed for rapid and real-time detection of Bacillus anthracis spores spiked in 0.1 g of soil and talcum powder ranging from 5 to 10⁷ spores. DNA was isolated from spiked soil and talcum powder, using PBS containing 1 % Triton-X-100, followed by heat treatment. The isolated DNA was used as template for real-time PCR and PCR. Real-time PCR amplification was obtained in 60 min under the annealing condition at 60°C by employing primers targeting the pag gene of B. anthracis. In the present study, the detection limit of real-time PCR assay in soil was 10³ spores and10² spores in talcum powder, respectively, whereas PCR could detect 10⁴ spores in soil and 10³ spores in talcum powder, respectively.     

Characterization of a novel DNA polymerase activity assay enabling sensitive, quantitative and universal detection of viable microbes

During the past 50 years, in vitro measurement of DNA polymerase activity has become an essential molecular biology tool. Traditional methods used to measure DNA polymerase activity in vitro are undesirable due to the usage of radionucleotides. Fluorescence-based DNA polymerase assays have been developed; however, they also suffer from various limitations. Herein we present a rapid, highly sensitive and quantitative assay capable of measuring DNA polymerase extension activity from purified enzymes or directly from microbial lysates. When tested with purified DNA polymerase, the assay detected as little as 2 × 10(-11)U of enzyme (～ 50 molecules), while demonstrating excellent linearity (R(2)=0.992). The assay was also able to detect endogenous DNA polymerase extension activity down to less than 10 colony forming units (cfu) of input Gram-positive or Gram-negative bacteria when coupled to bead mill lysis while maintaining an R(2)=0.999. Furthermore, preliminary evidence presented here suggests that DNA polymerase extension activity is an indicator of microbial viability, as demonstrated by the reproducibly strong concordance between assay signal and bacterial colony formation. Together, the innovative methodology described here represents a significant advancement toward sensitive detection of potentially any microorganism containing active DNA polymerase within a given sample matrix.     

Development of a combined selective enrichment method and polymerase chain reaction (PCR) assay for sensitive detection of Salmonella in food samples

PCR assays were formatted using primer pairs homologous to phoE and invA genes. The amplification conditions were optimized with pure cultures and reactions were carried out to define selectivity, specificity and sensitivity of both primer pairs. The performance of the invA primer pair was better than that of the phoE pair, making the specific detection of Salmonella serovars and strains isolated from different food samples possible. Using the invA primer pair, the combined selective enrichment method with the polymerase chain reaction assay was established and used to detect Salmonella from artificially multi-contaminated food samples. The complete procedure detected as few as three cells of Salmonella (3 c.f.u.) from milk and meat samples.     

A novel assay for allelic discrimination that combines the fluorogenic 5' nuclease polymerase chain reaction (TaqMan) and mismatch amplification mutation assay

Recently much attention has been focused on single nucleotide polymorphisms (SNPs) within fundamentally important genes, such as those involved in metabolism, cell growth regulation, and other disease-associated genes. Methodologies for discriminating different alleles need to be specific (robust detection of an altered sequence in the presence of wild-type DNA) and preferably, amenable to high throughput screening. We have combined the fluorogenic 5' nuclease polymerase chain reaction (TaqMan) and the mismatch amplification mutation assay (MAMA) to form a novel assay, TaqMAMA, that can quickly and specifically detect single base changes in genomic DNA. TaqMan chemistry utilizes fluorescence detection during PCR to precisely measure the starting template concentration, while the MAMA assay exploits mismatched bases between the PCR primers and the wild-type template to selectively amplify specific mutant or polymorphic sequences. By combining these assays, the amplification of the mutant DNA can be readily detected by fluorescence in a single PCR reaction in 2 hours. Using the human TK6 cell line and specific HPRT-mutant clones as a model system, we have optimized the TaqMAMA technique to discriminate between mutant and wild-type DNA. Here we demonstrate that appropriately designed MAMA primer pairs preferentially amplify mutant genomic DNA even in the presence of a 1,000-fold excess of wild-type DNA. The ability to selectively amplify DNAs with single nucleotide changes, or the specific amplification of a low copy number mutant DNA in a 1,000-fold excess of wild-type DNA, is certain to be a valuable technique for applications such as allelic discrimination, detection of single nucleotide polymorphisms or gene isoforms, and for assessing hotspot mutations in tumor-associated genes from biopsies contaminated with normal tissue.     

A novel DNA extraction and duplex polymerase chain reaction assay for the rapid detection of Prototheca zopfii genotype 2 in milk

Aims: To develop a PCR‐based assay to detect Prototheca zopfii (P. zopfii) and its mastitis‐related subtype (genotype 2) directly from milk samples. Methods and Results: The DNA extraction method herein is based on the lysing properties of chemical agents, mechanical grinding and DNA‐binding properties of silica particles; this method was developed to rapidly extract DNA directly from P. zopfii in bovine milk. Two pairs of primers specific for P. zopfii and genotype 2 were used in the duplex PCR, and a sensitivity test showed that the detection level was 5 × 10² colony‐forming units (CFU) ml^?1 for P. zopfii and 5 × 10³ CFU ml^?1 for genotype 2. Furthermore, a practical survey of 23 milk samples showed that the assay produced results that were in accordance with those obtained by the conventional microbiology method. Conclusions: The DNA extraction method is effective in isolating sufficient quantities of DNA from P. zopfii in milk for PCR analysis. The PCR assay is economical, sensitive and more rapid than the conventional culture method. Significance and Impact of the Study: The assay could be used as an alternative method for the rapid the detection of bovine mastitis resulting from P. zopfii genotype 2.     

Rapid detection and diagnosis of Septoria tritici epidemics in wheat using a polymerase chain reaction/PicoGreen assay

In order to detect and quantify Septoria tritici infection levels in wheat leaves, a polymerase chain reaction (PCR) assay was developed using the β-tubulin gene as target. Specific PCR primers were designed by aligning and comparing β-tubulin sequences from other fungi. The final primer set was selected after being tested against several fungi, and against S. tritici -infected and uninfected wheat leaves from different localities. A single DNA fragment (496 bp) was amplified from S. tritici, whereas no products were generated from DNA of the host plant or other micro-organisms associated with wheat leaves. Using agarose gel analysis, approximately 2 pg S. tritici genomic DNA could be detected in each assay. However, for rapid quantification of PCR-amplified products, a fluorometric microtitre plate-formatted PicoGreen assay was used; this could detect as little as 10 pg S. tritici DNA in the presence of 200 ng wheat leaf DNA. The PCR/PicoGreen assay was applied successfully to study the colonization, infection and subsequent disease development of S. tritici on wheat, both under controlled conditions in the glasshouse and in the field.     

Antithrombin Cambridge, 384 Ala to Pro: a new variant identified using the polymerase chain reaction

An antithrombin III variant was identified in the plasma of a female patient with a history of recurrent thromboses. The variant was shown to have normal antigenic levels but reduced heparin and progressive inhibitory activity consistent with an abnormality affecting function at the reactive centre. Polymerase chain reaction amplification of exon 6 of the gene with direct sequencing showed a point mutation resulting in the substitution of a proline for alanine at position 384. This substitution will predictably alter the conformation of the peptide loop containing the reactive centre of the molecule.     

Rapid and sensitive method for detection of Salmonella strains using a combination of polymerase chain reaction and reverse dot-blot hybridization

Abstract Cell-free extracts of Thiobacillus acidophilus catalysed the stoichiometric conversion of tetrathionate to thiosulphate, sulphur and two protons. The pH optimum of the enzyme activity was 3.0 and its temperature optimum 40°C. The enzyme was unstable at 30 and 40°C, at which its activity decreased to zero within 100 and 20 h, respectively. Enzyme activity was not affected by incubation for 1 week on ice or by freezing and thawing of the extract. The K _m for tetrathionate was 0.3 mM. Enzyme activity was stimulated by ammonium sulphate up to a concentration of 1M. The results indicate that trithionate hydrolase cannot account for the observed conversion of tetrathionate.     

The identification of two Trypanosoma cruzi I genotypes from domestic and sylvatic transmission cycles in Colombia based on a single polymerase chain reaction amplification of the spliced-leader intergenic region

A single polymerase chain reaction (PCR) reaction targeting the spliced-leader intergenic region of Trypanosoma cruzi I was standardised by amplifying a 231 bp fragment in domestic (TcI_DOM) strains or clones and 450 and 550 bp fragments in sylvatic strains or clones. This reaction was validated using 44 blind coded samples and 184 non-coded T. cruzi I clones isolated from sylvatic triatomines and the correspondence between the amplified fragments and their domestic or sylvatic origin was determined. Six of the nine strains isolated from acute cases suspected of oral infection had the sylvatic T. cruzi I profile. These results confirmed that the sylvatic T. cruzi I genotype is linked to cases of oral Chagas disease in Colombia. We therefore propose the use of this novel PCR reaction in strains or clones previously characterised as T. cruzi I to distinguish TcI_DOMfrom sylvatic genotypes in studies of transmission dynamics, including the verification of population selection within hosts or detection of the frequency of mixed infections by both T. cruzi I genotypes in Colombia.     

Evaluation of the analytical sensitivity of a polymerase chain reaction assay for the detection of chicken infectious anemia virus in avian vaccines

Chicken infectious anemia virus (CAV) is a ubiquitous pathogen of chickens causing significant disease in commercial flocks worldwide. During CAV outbreaks, the Center for Veterinary Biologics requires manufacturers of veterinary biologicals to test materials derived from infected flocks for extraneous CAV by polymerase chain reaction (PCR). The analytical sensitivity of a PCR assay for detection of CAV was determined and the applicability of a CAV DNA standard as a positive control for assay validity was evaluated. The analytical sensitivity of the CAV PCR assay was assessed to be 100 copies per reaction for the DNA standard and 1 × 10^1.9 TCID₅₀/reaction for infectious virus. Establishing the analytical sensitivity of this CAV PCR assay and the inclusion of internal and external positive controls for validity provide a basis for determining whether suspect materials are safe for use in the production of veterinary biologics.     

Development of a multiplex polymerase chain reaction for the simultaneous detection of microsporidians, nucleopolyhedrovirus, and densovirus infecting silkworms

We have developed a novel PCR-based assay for individual and simultaneous detection of three major pathogens (microsporidians, nucleopolyhedrovirus (NPV) and densovirus (DNV)) infecting the silkworm, Bombyx mori. Multiplex PCR, using three primer pairs, two of which were designed from the conserved regions of 16S small subunit ribosomal RNA gene of microsporidians, and polyhedrin gene of NPVs respectively, and a third primer pair designed from the internal sequences of B. mori DNVs (BmDNV), showed discrete and pathogen specific PCR products. The assay showed high specificity and sensitivity for the pathogenic DNA. Under optimized PCR conditions, the assay yielded a 794 bp DNA fragment from Nosema bombycis, 471 bp fragment from B. mori NPV (BmNPV) and 391 bp fragment from BmDNV. Further, this detection method was successfully applied to other silkworm species such as Antheraea mylitta and Samia cynthia ricini, in detecting same or similar pathogens infecting them. This method is a valuable supplement to the conventional microscopic diagnostic methods and can be used for the early detection of pathogens infecting silkworms. Furthermore it can assist research and extension centers for the safe supply of disease-free silkworms to farmers.     

Characterization of the ribosomal RNA locus of Perkinsus atlanticus and development of a polymerase chain reaction-based diagnostic assay

The rRNA locus of Perkinsus atlanticus from the clam Ruditapes decussatus cultivated on the Atlantic coast of Spain was cloned and sequenced. Sequences of the internal transcribed spacer (ITS) from the rRNA locus were compared to sequences reported earlier for a P. atlanticus isolate from Portugal and to those from other Perkinsus species. The ITS I sequence of the Spanish P. atlanticus isolate was identical to the Portuguese P. atlanticus sequence and had 76.6% identity to the ITS1 of Perkinsus marinus. The ITS2 sequence had 99.7% identity to the Portuguese P. atlanticus ITS2, 92.5% identity to the P. marinus ITS2, and 99.5% identity to the Perkinsus olseni ITS2. We report for first the time the small subunit (SSU) and nontranscribed spacer (NTS) of P. atlanticus. The P. atlanticus SSU sequence was 99.6% identical to that of an unidentified Perkinsus species from the Australian clam Anadara trapezia and 98.0% identical to that of P. marinus. Further, our results support the proposal that P. atlanticus, P. olseni, and the Perkinsus sp. from A. trapezia constitute a subgroup of Perkinsus species distributed in the Pacific and eastern Atlantic, different from P. marinus that is distributed along the western edge of the Atlantic. Based on the NTS sequence of P. atlanticus from Spain and the differences with P. marinus NTS (62.2% identity), we developed a polymerase chain reaction (PCR)-based diagnostic assay with a lowest limit of detection of 0.01 amol of cloned NTS DNA as assessed on ethidium bromide-stained agarose gels. Specificity of the PCR-based assay was tested with samples from the clams R. decussatus, Ruditapes philippinarum, and Venerupis pullastra collected in P. atlanticus-enzootic areas of Spain. The specificity and sensitivity demonstrated for this NTS-based PCR assay validate its use as a tool for assessment of P. atlanticus in molluscs.