Quantitation of viral DNA by real-time PCR applying duplex amplification, internal standardization, and two-color fluorescence detection

A real-time PCR method was developed to quantitate viral DNA that includes duplex amplification, internal standardization, and two-color fluorescence detection without the need to generate an external standardization curve. Applied to human parvovirus B19 DNA, the linear range was from 10(2) to at least 5 x 10(6) copies per ml of sample. The coefficient of variation was 0.29 using a run control of 2,876 copies per ml. The method reduces the risk of false-negative results, yields high precision, and is applicable for other DNA targets.     

Rapid Real-Time PCR Assay for Detection and Quantitation of Mycobacterium avium subsp. paratuberculosis DNA in Artificially Contaminated Milk

Using fluorescence resonance energy transfer technology and Lightcycler analysis, we developed a real-time PCR assay with primers and probes designed by using IS900 which allowed rapid detection of Mycobacterium avium subsp. paratuberculosis DNA in artificially contaminated milk. Initially, the PCR parameters (including primer and probe levels, assay volume, Mg²⁺ concentration, and annealing temperature) were optimized. Subsequently, the quantitative ability of the assay was tested and was found to be accurate over a broad linear range (3 × 10⁶ to 3 × 10¹ copies). The assay sensitivity when purified DNA was used was determined to be as low as five copies, with excellent reproducibility. A range of DNA isolation strategies was developed for isolating M. avium subsp. paratuberculosis DNA from spiked milk, the most effective of which involved the use of 50 mM Tris HCl, 10 mM EDTA, 2% Triton X-100, 4 M guanidinium isothiocyante, and 0.3 M sodium acetate combined with boiling, physical grinding, and nucleic acid spin columns. When this technique was used in conjunction with the real-time PCR assay, it was possible to consistently detect <100 organisms per ml of milk (equivalent to 2,000 organisms per 25 ml). Furthermore, the entire procedure (extraction and PCR) was performed in less than 3 h and was successfully adapted to quantify M. avium subsp. paratuberculosis in spiked milk from heavily and mildly contaminated samples.     

Identification of a Brevibacterium marker gene specific to poultry litter and development of a quantitative PCR assay

Aim: To identify a DNA sequence specific to a bacterium found in poultry litter that was indicative of faecal contamination by poultry sources. Methods and Results: Faecally contaminated poultry litter and soils were used as source material for the development of a quantitative polymerase chain reaction (qPCR) method targeting the 16S rRNA gene of a Brevibacterium sp. The identified sequence had 98% nucleotide identity to the 16S rRNA gene of Brevibacterium avium. The qPCR method was tested on 17 soiled litter samples; 40 chicken faecal samples; and 116 nontarget faecal samples from cattle, swine, ducks, geese, and human sewage collected across the United States. The 571‐bp product was detected in 76% of poultry‐associated samples, but not in 93% of faecal samples from other sources. Marker concentrations were 10⁷–10⁹ gene copies per gram in soiled litter, up to 10⁵ gene copies per gram in spread‐site soils, and 10⁷ gene copies per litre in field run‐off water. Results were corroborated by a blinded study conducted by a second laboratory. Conclusion: The poultry‐specific PCR product is a useful marker gene for assessing the impact of faecal contamination as a result of land‐applied poultry litter. Significance and Impact of the Study: This study describes the first quantitative, sensitive and specific microbial source tracking method for the detection of poultry litter contamination.     

Evaluation of a new assay for HBV DNA quantitation in patients with chronic hepatitis B

Background: The Amplicor™ HBV Monitor Test for quantitative determination of serum hepatitis B virus (HBV) DNA has recently been introduced. This assay is based on PCR and a non-radioactive hybridization and detection system on microwell plates.Objective: The performance of the Amplicor™ HBV Monitor Test was evaluated in a routine diagnostic laboratory. The Amplicor™ HBV Monoitor assay was compared to the Digene Hybrid Capture™ System HBV DNA assay for the quantitation of HBV in patient sera.Study design: Sensitivity and reproducibility were determined with 10-fold dilution series of two Eurohep HBV reference plasma specimens. Furthermore, 196 sera from 14 children with chronic HBV infection and interferon therapy were tested with both assays.Results: The detection limit was found to be 10³ copies/ml with the Amplicor™ PCR assay compared to 10⁶ to 10⁷ copies/ml with the Digene™ hybridization assay. Both assays were quasi-linear over the measurable ranges. The new PCR assay proved to be very reliable. With the Amplicor™ PCR assay, 26.2% of the HBV DNA-positive clinical samples were found between 10³ and 10⁷ copies/ml and all of them tested below the detection limit with the hybridization assay.Conclusion: The Amplicor™ HBV Monitor Test shows excellent sensitivity and provides a valuable tool for the detection of HBV DNA in serum. It can be used for recognizing those patients who might benefit from antiviral therapy, for evaluation of the efficacy of anti-HBV therapy, and for validation of blood products.     

External quality assessment of cytomegalovirus DNA detection on dried blood spots

Background  

Testing for viral DNA in neonatal blood dried on paper (DBS) has proved a valid means of diagnosing congenital CMV infection with both clinical and epidemiological relevance. To assess the quality of the detection of CMV-DNA on DBS in laboratories performing this test a proficiency panel consisting of nine samples with two blood spots on each filter paper was produced and distributed. Six samples were derived from whole blood, negative for CMV DNA and antibody, and spiked with cell-grown CMV Towne in various concentrations (7.3 × 10² - 9.6 × 10⁵ copies/ml), one was a CMV positive clinical specimen (3.9 × 10⁶ copies/ml), and two samples were CMV-negative whole blood.     

Uptake of amplifiable fragments of retrotransposon DNA from the human alimentary tract

Few attempts have been made to study the transfer of DNA from ingested food across the intestinal barrier. A low uptake of ingested DNA has been observed in mice, cattle and poultry. There have been no reports on humans so far. Maintenance of species barriers, protection against retrotransposons, optimisation of oral DNA vaccines and the fate of genetically modified foodstuffs are issues where this topic is of importance. We therefore used the high-copy-number rabbit retrotransposon RERV-H, and rabbit mitochondrial DNA, to study the transfer of DNA from ingested rabbit meat into the bloodstream of two human volunteers. A quantitative PCR was used to measure RERV-H levels in food and in the blood. Amplification with the primers selected results in the generation of a 250-bp fragment of RERV-H. Transfer across the intestinal epithelium could be demonstrated in both subjects. Levels of the fragment in the bloodstream peaked at 1–3 h after ingestion of the experimental meal. One hour after a meal of rabbit meat containing 10¹⁴ copies of RERV-H DNA, a maximum concentration of 200 copies of RERV-H DNA per ml of peripheral blood was observed, which corresponds to the uptake of approximately 10⁶ RERV-H DNA copies in 1 h. RERV-H DNA was detected in both cellular and plasma compartments. Both rabbit retrotransposon and mitochondrial DNA was taken up from the human alimentary tract. The size of the fragments detected is similar to that of SINE retrotransposons (approximately 300 bp). The fate and functionality of alimentary DNA in humans will require further study.Communicated by W. Goebel     

Development and evaluation of a new detection tool—visual DNA microarray for simultaneous and specific detection of human immunodeficiency virus type-1 and hepatitis C virus

Human immunodeficiency virus type-1 (HIV-1) and hepatitis C virus (HCV) are transfusion-transmitted human pathogens that have a major impact on blood safety and public health. Based on multiplex asymmetrical PCR and coupled with gold labelled silver stain (GLSS), we developed the visual DNA microarray for sensitive and specific detection of these two viruses. Capturing probes of 5′-end-amino-modified oligonucleotides were immobilized on glass surface to bind the complement biotinylated target DNA. The Au–streptavidin probe was introduced to the microarray for specific binding to biotin. Black images of microarray spots which result from the precipitation of silver onto Au–streptavidin probes, were visualized by naked eyes. In order to improve the efficiency of microarray hybridization, triplex asymmetrical PCR of HIV-1, HCV and Human enterovirus 71 (EV-71, used as positive control) were performed to prepare abundant biotinylated single-stranded target DNA. The sensitivity of visual DNA microarray (10³ copies/ml) was higher than conventional PCR (10⁴ copies/ml) and was identical to FQ-PCR (10³ copies/ml). Total 152 blood samples containing the two viruses were tested using the DNA microarray and fluorescence quantitative real-time PCR (FQ-PCR). The results were identical (P > 0.05). So this system has high sensitivity and may have potential in clinical applications.     

Quantitative Detection of the Free-Living Amoeba Hartmannella vermiformis in Surface Water by Using Real-Time PCR

A real-time PCR-based method targeting the 18S rRNA gene was developed for the quantitative detection of Hartmannella vermiformis, a free-living amoeba which is a potential host for Legionella pneumophila in warm water systems and cooling towers. The detection specificity was validated using genomic DNA of the closely related amoeba Hartmannella abertawensis as a negative control and sequence analysis of amplified products from environmental samples. Real-time PCR detection of serially diluted DNA extracted from H. vermiformis was linear for microscopic cell counts between 1.14 × 10⁻¹ and 1.14 × 10⁴ cells per PCR. The genome of H. vermiformis harbors multiple copies of the 18S rRNA gene, and an average number (with standard error) of 1,330 ± 127 copies per cell was derived from real-time PCR calibration curves for cell suspensions and plasmid DNA. No significant differences were observed between the 18S rRNA gene copy numbers for trophozoites and cysts of strain ATCC 50237 or between the copy numbers for this strain and strain KWR-1. The developed method was applied to water samples (200 ml) collected from a variety of lakes and rivers serving as sources for drinking water production in The Netherlands. Detectable populations were found in 21 of the 28 samples, with concentrations ranging from 5 to 75 cells/liter. A high degree of similarity (≥98%) was observed between sequences of clones originating from the different surface waters and between these clones and the reference strains. Hence, H. vermiformis, which is highly similar to strains serving as hosts for L. pneumophila, is a common component of the microbial community in fresh surface water.     

Maillard Reaction Products Formed from l-Rhamnose and Ethylamine

A standard plasmid was constructed as a novel reference molecule for use in real-time quantitative PCR assays to verify the identity of beef, pork, chicken, mutton, and horseflesh. The plasmid contained a target domain of the cytochrome b (cyt b) gene and an artificial DNA sequence. Primers CO-F and CO-R, and probe CO-P were specifically designed to detect the artificial sequence. The calculated R² values of the standard curves (10³–10⁷ copies per reaction) for the five species ranged between 0.998 and 0.999 in the quantification analysis. The constructed plasmid provides a universal method for measuring the copy number of cyt b DNA in minced meat. This method would be a useful procedure for verifying food labels.     

Abundance of narG, nirS, nirK, and nosZ Genes of Denitrifying Bacteria during Primary Successions of a Glacier Foreland

Quantitative PCR of denitrification genes encoding the nitrate, nitrite, and nitrous oxide reductases was used to study denitrifiers across a glacier foreland. Environmental samples collected at different distances from a receding glacier contained amounts of 16S rRNA target molecules ranging from 4.9 × 10⁵ to 8.9 × 10⁵ copies per nanogram of DNA but smaller amounts of narG, nirK, and nosZ target molecules. Thus, numbers of narG, nirK, nirS, and nosZ copies per nanogram of DNA ranged from 2.1 × 10³ to 2.6 × 10⁴, 7.4 × 10² to 1.4 × 10³, 2.5 × 10² to 6.4 × 10³, and 1.2 × 10³ to 5.5 × 10³, respectively. The densities of 16S rRNA genes per gram of soil increased with progressing soil development. The densities as well as relative abundances of different denitrification genes provide evidence that different denitrifier communities develop under primary succession: higher percentages of narG and nirS versus 16S rRNA genes were observed in the early stage of primary succession, while the percentages of nirK and nosZ genes showed no significant increase or decrease with soil age. Statistical analyses revealed that the amount of organic substances was the most important factor in the abundance of eubacteria as well as of nirK and nosZ communities, and copy numbers of these two genes were the most important drivers changing the denitrifying community along the chronosequence. This study yields an initial insight into the ecology of bacteria carrying genes for the denitrification pathway in a newly developing alpine environment.     

Kinetic Complexity, Homogeneity, and Copy Number of Chloroplast DNA from the Marine Alga Olisthodiscus luteus

The kinetic complexity of chloroplast DNA isolated from the chromophytic alga Olisthodiscus luteus has been determined. Using optical reassociation techniques, it was shown that the plastid DNA of this alga reacted as a single component with a second order rate constant of 4.1 molar⁻¹ and second⁻¹ (Cot_½ 0.24 molar second) under conditions equivalent to 180 millimolar Na⁺ and 60°C. Given the 92 × 10⁵ dalton complexity calculated for this chloroplast genome, an Olisthodiscus cell contains 650 plastome copies. Although this complement remains constant throughout the growth cycle of the organism, the ploidy level of an individual chloroplast shows significant plasticity and is dependent upon the number of chloroplasts present per cell. Experiments with the DNA fluorochrome Hoechst dye 33258 (bisbenzimide) demonstrate that plastids isolated from all phases of cell growth each possess a ring-shaped nucleoid containing detectable DNA. Olisthodiscus chloroplast DNA showed no sequence mismatch when thermal denaturation profiles of reassociated chloroplast DNA were examined, thus all plastome copies are essentially identical. Finally, reassociation studies demonstrated that no foldback (short inverted repeat) sequences were present in the plastid genome although significant hairpin loop structures were observed in control nuclear DNA samples.     

Mitochondrial DNA copy number in bovine oocytes and somatic cells

Restriction endonuclease analysis and direct nucleotide sequencing of bovine mitochondrial DNA have revealed a high apparent rate of sequence divergence between maternally related individuals. One possible mechanism that would account for the high rate involves nonuniform amplification and/or segregation of mitochondrial DNA during development of the oocyte. We report here experiments which quantitate the amount of mitochondrial DNA in the bovine oocyte as compared to bovine somatic cells. Total DNA was isolated from purified oocytes, separated by agarose gel electrophoresis, and immobilized on nitrocellulose filters. Hybridization with the complete mitochondrial DNA genome or cloned mitochondrial DNA restriction fragments revealed a 100-fold increase in oocyte mitochondrial DNA as compared to somatic cells. Developing oocytes contained about 4.5 pg or 2.6 × 10⁵ copies per cell, whereas primary bovine tissue culture cells contained 0.045 pg or 2.6 × 10³ copies per cell. These experiments demonstrate directly the amplification of mitochondrial DNA in mammalian oocytes and are consistent with models which could generate mitochondrial DNA polymorphisms by unequal amplification of mitochondrial genomes within an animal.     

Simian Immunodeficiency Virus Replicates to High Levels in Sooty Mangabeys without Inducing Disease

A serologic survey of primates living in a French zoo allowed identification of three cases of infection with simian immunodeficiency virus in sooty mangabeys (Cercocebus atys) (SIVsm). Viral isolates, which were designated SIVsmFr66, SIVsmFr74, and SIVsmFr85, were obtained after short-term culture of mangabey lymphoid cells. Phylogenetic analysis of gag and env sequences amplified directly from mangabey tissues showed that the three SIVsmFr were genetically close and that they constituted a new subtype within the diverse SIVsm–SIVmac–human immunodeficiency virus type 2 (HIV-2) group. We could reconstruct the transmission events that likely occurred in 1986 between the three animals and evaluate the divergence of SIVsmFr sequences since transmission. The estimated rate of mutation fixation was 6 × 10⁻³ substitutions per site per year, which was as high as the rate found for SIVmac infection in macaques. These data indicated that SIVsmFr replicated at a high rate in mangabeys, despite the nonpathogenic character of infection in this host. The viral load evaluated by competitive PCR reached 20,000 viral DNA copies per 10⁶ lymph node cells. In addition, productively infected cells were readily detected in mangabey lymphoid tissues by in situ hybridization. The amounts of viral RNA in plasma ranged from 10⁵ to 10⁷ copies per ml. The cell-associated and plasma viral loads were as high as those seen in susceptible hosts (humans or macaques) during the asymptomatic stage of HIV or SIVmac infections. Thus, the lack of pathogenicity of SIVsm for its natural host cannot be explained by limited viral replication or by tight containment of viral production.     

Microchip analytic system for multiplex analysis by real-time polymerase chain reaction with reagents immobilized in microreactors

A microchip analytic system that uses a silicon chip with immobilized in microreactor test-system for multiplex analysis of DNA by real-time polymerase chain reaction (real time PCR) was developed and optimized. We suggested the method of immobilization of PCR-components of a test-system, chose the stabilizer, and conducted the optimization of the composition of reaction mixture to achieve permanent stability of a microchip. We conducted optimization of preparation of samples using magnetic sorbent and indicated that, with 2.6 × 10⁴ copies/ml, 60 min are necessary to obtain positive identification including time for preparation of model samples. The abilities of the created system were demonstrated on the example of microchip analysis of samples with different content of DNA, low absolute limits of detection (20 DNA copies in microreactor), and high reproducibility of the analysis.     

Abundance and Diversity of Sulfur-Oxidizing Bacteria along a Salinity Gradient in Four Qinghai-Tibetan Lakes,China

Sulfur-oxidizing bacteria (SOB) play important roles in the sulfur cycle and are widespread in a number of environments, but their occurrence and relationship to geochemical conditions in (hyper)saline lakes are still poorly understood. In this study, the abundance and diversity of SOB populations were investigated in four Qinghai-Tibetan lakes (Erhai Lake, Gahai Lake 1, Gahai Lake 2 and Xiaochaidan Lake) by using quantitative polymerase chain reaction (qPCR) and soxB gene- (encoding sulfate thiohydrolase) based phylogenectic analyses. qPCR analyses showed that in the studied lakes, the total bacterial 16S rRNA and soxB gene abundances in the sediments were distinctly higher than in the overlying waters. The 16S rRNA gene abundance in the waters ranged 5.27 × 10⁶–6.09 × 10⁸ copies per mL and 7.39 × 10¹⁰–2.9 × 10¹¹ copies per gram sediment. The soxB gene abundance in the waters ranged from 1.88 × 10⁴ to 5.21 × 10⁵ per mL and 4.73 × 10⁶–2.65 × 10⁷ copies per gram sediment. The soxB gene in the waters of the two hypersaline lakes (Gahai Lake 2 and Xiaochaidan Lake) was more abundant (2.97 × 10⁵ and 5.21 × 10⁵ copies per mL) than that in the two low-salinity lakes (1.88 × 10⁴ and 3.36 × 10⁴ copies per mL). Phylogenetic analysis showed that Alpha- and Betaproteobacteria were dominant SOB in the investigated lakes, and the composition of proteobacterial subgroups varied with salinity: in freshwater Erhai Lake and low-salinity Gahai Lake 1, the SOB populations were dominated by the Betaproteobacteria, whereas in hypersaline Lake Gahai 2 and Xiaochaidan Lake, the SOB populations were dominated by Alphaproteobacteria. Overall, salinity played a key role in controlling the diversity and distribution of SOB populations in the investigated Qinghai-Tibetan lakes.     

Deciphering the multiplication behaviour of Rice tungro bacilliform virus by absolute quantitation through real-time PCR

Rice tungro virus disease is one of the most destructive diseases that cause extensive damage to the rice crop. To elucidate the multiplication behaviour of Rice tungro bacilliform virus (RTBV), real-time Polymerase chain reaction (PCR) experiments were performed on rice and insect vector green leafhopper (GLH). SYBR green chemistry-based real-time PCR assay for the quantification of RTBV was developed. A standard curve using plasmid DNA was constructed to determine the absolute quantity of RTBV genome copies in different plant tissues and GLH vector. Here, 6.309?×?10⁴, 7.943?×?10⁵, 3.162?×?10⁶ and 3.162?×?10³ RTBV genome copies per ng of total DNA were estimated in root, shoot, leaf and panicles, respectively, on virus-infected rice cultivar TN1. In addition, 5.011?×?10³ copies of virus in an individual GLH were quantified. Also, RTBV was quantified at different time interval after inoculation. The real-time assay was performed with five different RTBV isolates that showed differential accumulation pattern of virus isolates in a same host. These results provide new insight into the biology of the economically important interaction between rice, GLH and RTBV.