Wild chimpanzee infant urine and saliva sampled noninvasively usable for DNA analyses

In many genetic studies on the great apes, fecal or hair samples have been used as sources of DNA. However, feces and hairs are difficult to collect from chimpanzee infants under 3 years of age. As alternative DNA sources, we investigated the efficiency of collecting urine samples from infants compared with fecal samples, as well as the validity of the DNA extracted from urine and saliva samples of well-habituated M group chimpanzees (Pan troglodytes schweinfurthii) in the Mahale Mountains National Park, Tanzania. We collected 40 urine and 3 fecal samples from 10 infants under 3 years. Compared with feces, the urine samples were relatively easy to collect. The saliva of infants, which remained on the twigs sucked by them, was collected using cotton swabs. The average amounts of DNA extracted from the 40 urine and 6 saliva samples were 3,920 and 458 pg/μl, respectively. The rate of positive PCR was low and the allelic dropout rate was high when using less than 25 pg of template DNA in the PCR mixtures. Based on the amounts of DNA, 50% of the urine samples and 100% of the saliva samples were judged usable for accurate microsatellite genotyping. For infant chimpanzees in particular, collecting urine and saliva as an alternative to fecal and hair samples can reduce the effort invested in collection in the field.     

Urine — a source for noninvasive genetic monitoring in wildlife

Noninvasive samples are of increasing importance to study wild populations. In this study, we investigate the applicability of urine samples as the sole source of DNA for routine noninvasive genetic monitoring of wildlife using wolves (Canis lupus) as an example. Within the scope of a long‐term wolf population survey, we collected during winter snow tracking in Bieszczady Mountains, Poland 41 urine samples considered as utilizable for genetic analyses. DNA concentration was determined by quantitative real‐time polymerase chain reaction (qPCR) and six microsatellite loci were genotyped in threefold repeated genotyping experiments to assess the reliability of genetic analyses of urine. DNA concentration of 33 urine samples was successfully quantified and of 14 samples, we obtained congruent results for all analysed loci and all repeated genotyping experiments. The gender of urine samples was identified with a Y‐chromosome‐linked marker. Considering the high discovery rate of urine in conjunction with its genotype reliability, our study confirms that urine is a valuable source in noninvasive genetic monitoring. Additionally, preselection of samples via qPCR proved to be a powerful tool contributing to a beneficial cost‐value ratio of genetic analyses by minimizing genotyping errors.     

Molecular inference of dominant picocyanobacterial populations by denaturing gradient gel electrophoresis of PCR amplified 16S rRNA gene fragments

Quantitative accuracy based on the fluorescent intensity of bands in a denaturing gradient gel electrophoresis (DGGE) profile of polymerase chain reaction (PCR)‐amplified 16S rRNA gene fragments was evaluated for the molecular inference of dominant populations using a cyanobacterial primer pair in a picocyanobacterial community. A serial dilution technique of the template prior to PCR of extracted nucleic acids allowed for elimination of minor strains (less than 10% of the whole cell number) using a cell mixture of three known cultured Synechococcus species with different ratios. When the most abundant strain among the three accounted for more than 80% of the cells, the single band derived from the most abundant one was detected exclusively after the template dilution. In the case of two or three strains evenly distributed in the sample, all strains remained as bands after template dilution. The technique used in the present study was also applied to lake water samples collected from depths of 1 and 5 m on 27 August 1999. The same dominant Synechococcus population was detected in both samples. Thus, the template‐dilution technique prior to PCR is useful to determine dominant picocyanobacterial populations in the DGGE profiling.     

Long-Term Frozen Storage of Urine Samples: A Trouble to Get PCR Results in Schistosoma spp. DNA Detection?

Background

Human schistosomiasis remains a serious worldwide public health problem. At present, a sensitive and specific assay for routine diagnosis of schistosome infection is not yet available. The potential for detecting schistosome-derived DNA by PCR-based methods in human clinical samples is currently being investigated as a diagnostic tool with potential application in routine schistosomiasis diagnosis. Collection of diagnostic samples such as stool or blood is usually difficult in some populations. However, urine is a biological sample that can be collected in a non-invasive method, easy to get from people of all ages and easy in management, but as a sample for PCR diagnosis is still not widely used. This could be due to the high variability in the reported efficiency of detection as a result of the high variation in urine samples’ storage or conditions for handling and DNA preservation and extraction methods.

Methodology/Principal Findings

We evaluate different commercial DNA extraction methods from a series of long-term frozen storage human urine samples from patients with parasitological confirmed schistosomiasis in order to assess the PCR effectiveness for Schistosoma spp. detection. Patientś urine samples were frozen for 18 months up to 7 years until use. Results were compared with those obtained in PCR assays using fresh healthy human urine artificially contaminated with Schistosoma mansoni DNA and urine samples from mice experimentally infected with S. mansoni cercariae stored frozen for at least 12 months before use. PCR results in fresh human artificial urine samples using different DNA based extraction methods were much more effective than those obtained when long-term frozen human urine samples were used as the source of DNA template.

Conclusions/Significance

Long-term frozen human urine samples are probably not a good source for DNA extraction for use as a template in PCR detection of Schistosoma spp., regardless of the DNA method of extraction used.     

Noninvasive Saliva Collection for DNA Analyses From Free‐Ranging Tibetan Macaques (Macaca thibetana)

Cryptic and endangered fauna, including many primate taxa, pose challenges for noninvasive collection of biomaterials. As a result, application of noninvasive genotyping to primates has been limited to the use of samples such as feces and hair for the extraction of PCR‐amplifiable DNA. We present a method for noninvasive collection of saliva from habituated, free‐ranging monkeys. The method utilizes a low‐cost apparatus that controls for contamination and is usable with individual, free‐ranging primates. Saliva samples were collected from 18 individuals in a population of Tibetan macaques (Macaca thibetana) in the Valley of Wild Monkeys in Huangshan, People's Republic of China. DNA was extracted from these samples and PCR‐amplified for both mitochondrial and nuclear genes, Cytochrome B and MHC‐DR Beta 1, respectively. These results indicate this is an effective technique for the noninvasive collection of saliva across age and sex class, and dominance rank in a free‐ranging, terrestrial primate species. This device could have wide application for obtaining high‐quality saliva samples from free‐ranging primate populations for use in epidemiological studies, hormonal analyses of HPA axis function, pathogen screening, noninvasive genotyping, and behavioral genetics. Am. J. Primatol. 74:1064‐1070, 2012. © 2012 Wiley Periodicals, Inc.     

How useful is DNA extracted from the legs of archived insects for microsatellite-based population genetic analyses?

DNA obtained from museum specimens provides a historical perspective on levels of genetic diversity. Archived samples are irreplaceable so it is desirable that only parts of the specimens are used, which constrains the amount of DNA obtained from small taxa. However, at present there are no quantitative data on yields of DNA from such samples. In this paper we determine the amount of DNA that may be extracted from the legs of museum-archived specimens of the damselfly Coenagrion mercuriale (Charpentier) and the suitability of this DNA for PCR-amplification of nuclear genetic loci (microsatellites). We find that (i) the yield of DNA correlates with the genotyping success rate and (ii) the amount of DNA obtained from the legs decreases with time since sample collection until 1954, before which no DNA could be detected (although DNA may be present in very low quantities). This cut-off point for successful DNA extraction corresponds with the date until reliable genotypes could be obtained by routine PCR. Thus, air-dried insect legs more than 50 years old appear to have limited usefulness for studies that seek to amplify many nuclear loci without the use of other techniques that may be used to increase the possible low-quantities of template DNA present.     

Rapid Detection of Banana Streak Virus by Loop‐mediated Isothermal Amplification Assay in South China

Banana streak virus (BSV) is a significant constraint to banana production and genetic improvement. It is necessary to develop and use BSV detection strategies that are both reliable and sensitive for the management of the virus. A loop‐mediated isothermal amplification (LAMP) assay was developed and evaluated for the detection of BSV. Four primers matching a total of six sequences of the conserved ORF III polyprotein genes were synthesized for developing a specific and sensitive LAMP for DNA extracts from field‐infected banana plants. LAMP assay could detect as low as 1 pg/μl template DNA. Test results of all field samples collected from different regions of South China showed that LAMP is more sensitive than PCR. This relatively simple and sensitive technique showed excellent potential with field‐collected samples and for routine screening of tissue culture materials in South China.     

Quantification of Fusarium culmorum in Wheat and Barley Tissues Using Real-Time PCR in Comparison with DON Content

A real‐time polymerase chain reaction (PCR) assay was developed for the specific detection of Fusarium culmorum in infected seeds. Primers and TaqMan minor groove binder probe were derived from the sequences of a F. culmorum specific PCR product. The specificity of the assay was confirmed by test in seven Fusarium species and 21 non‐Fusarium fungal species. With serial dilutions of purified genomic DNA from F. culmorum isolate B as the template, the detection limit of the assay was found to be 0.9 pg of fungal genomic DNA per reaction. A significant correlation ( = 0.982) and collinearity was found between DNA concentration and Ct (cycle threshold) values of real‐time PCR assay with serial diluted DNAs extracted from three seed samples with different deoxynivalenol (DON) content. Eight barley and nine wheat varieties infected by F. culmorum isolate B were evaluated in 1 (barley samples) and in 4 years (wheat samples). The results of real‐time PCR analysis and enzyme‐linked immunosorbent assay testing for DON content were compared and a significant correlation was found for barley samples (r² = 0.935). Concerning wheat we found rather complicated relationship between Ct values and DON contents influenced by environmental conditions of field trials. The real‐time PCR assay was found to be highly specific and sensitive. It could be used in phytopathological studies and praxis.     

Sensitive detection of FGFR3 mutations in bladder cancer and urine sediments by peptide nucleic acid-mediated real-time PCR clamping

Somatic mutations of the fibroblast growth factor receptor 3 (FGFR3) gene were detected by peptide nucleic acid (PNA)-mediated real-time PCR clamping. Mutation was detected in negative control containing only wild-type DNA due to a misincorporation of dNTPs to PNA binding sites when the amount of template DNA was decreased to 1 ng. Thus, the amount of template DNA was critical determinant of the assay sensitivity in PNA-mediated PCR clamping. Assay conditions were optimized to detect FGFR3 mutations in exons 7, 10, and 15, at a concentration of more than 1% mutated DNA using 50 ng of genomic DNA as the template. Mutations were detected in 12 of 13 (92.3%) tumor tissues and 11 of 13 (84.6%) urine samples from patients with superficial bladder cancer, while no mutations were detected in tissues and/or urine samples from patients with muscle-invasive bladder cancer or chronic cystitis.     

Molecular Typing of Cyst‐Forming Nematodes Globodera pallida and G. rostochiensis,Using Real‐Time PCR and Evaluation of Five Methods for Template Preparation

Globodera pallida and G. rostochiensis are two cyst‐forming nematodes known to infest potato crops, causing severe economic losses worldwide. In this study, a real‐time TaqMan PCR assay was developed and optimized for the simultaneous detection of G. pallida and G. rostochiensis. The assay's analytical and diagnostic sensitivity and specificity were evaluated using reference isolates. Four different DNA extraction methods and one rapid crude template‐preparation procedure were compared in terms of extraction purity, efficiency for PCR applications, utility and cost. Extraction methods A and B included two commercially available kits that utilize silica columns and magnetic beads, respectively. Method C was based on DNA isolation using Chelex resin, and method D was a standard chemistry in‐house protocol. Procedure E included the direct use of crude mixture composed of disrupted cysts in Tris–EDTA buffer. The multiplex TaqMan PCR assay successfully discriminated the two nematode species from all reference cyst samples and its recorded diagnostic sensitivity (Dse) and specificity (Dsp) was 100%. On the contrary, in conventional (Co) PCR tests, the overall Dsp and Dse were lower and estimated at 94 and 87% for G. pallida, and 97 and 88% for G. rostochiensis, respectively. Spectrophotometric results showed that DNA extraction methods A, B and C yielded the purest DNA and gave the lowest mean C_t values as well as the most consistent results in Co PCR. Alternative crude preparation method E resulted in statistically similar and C_t values consistent with those obtained with methods A to C when tested by TaqMan PCR. The developed assay, using crude template‐preparation E, allows the simple, accurate and cost‐effective testing of a large number of cyst samples and can be applied in surveys and certification schemes.     

Unnecessary roughness? Testing the hypothesis that predators destined for molecular gut‐content analysis must be hand‐collected to avoid cross‐contamination

Molecular gut‐content analysis enables detection of arthropod predation with minimal disruption of ecosystem processes. Mass‐collection methods, such as sweep‐netting, vacuum sampling and foliage beating, could lead to regurgitation or rupturing of predators along with uneaten prey, thereby contaminating specimens and compromising resultant gut‐content data. Proponents of this ‘cross‐contamination hypothesis’ advocate hand‐collection as the best way to avoid cross‐contamination. However, hand‐collection is inefficient when large samples are needed, as with most ecological research. We tested the cross‐contamination hypothesis by setting out onto potato plants immature Coleomegilla maculata and Podisus maculiventris that had been fed larvae of either Leptinotarsa decemlineata or Leptinotarsa juncta, or unfed individuals of these predator species along with L. decemlineata larvae. The animals were then immediately re‐collected, either by knocking them vigorously off the plants onto a beat cloth and capturing them en masse with an aspirator (‘rough’ treatment) or by hand‐searching and collection with a brush (‘best practice’). Collected predators were transferred in the field to individual vials of chilled ethanol and subsequently assayed by PCR for fragments of cytochrome oxidase I of L. decemlineata and L. juncta. Ten to 39 per cent of re‐collected fed predators tested positive by PCR for DNA of both Leptinotarsa species, and 14–38% of re‐collected unfed predators contained L. decemlineata DNA. Overall levels of cross‐contamination in the rough (31%) and best‐practice (11%) samples were statistically different and supported the cross‐contamination hypothesis. A pilot study on eliminating external DNA contamination with bleach prior to DNA extraction and amplification gave promising results.     

A test of the efficacy of whole‐genome amplification on DNA obtained from low‐yield samples

Conservation and population genetic studies are sometimes hampered by insufficient quantities of high quality DNA. One potential way to overcome this problem is through the use of whole genome amplification (WGA) kits. We performed rolling circle WGA on DNA obtained from matched hair and tissue samples of North American red squirrels (Tamiasciurus hudsonicus). Following polymerase chain reaction (PCR) at four microsatellite loci, we compared genotyping success for DNA from different source tissues, both pre‐ and post‐WGA. Genotypes obtained with tissue were robust, whether or not DNA had been subjected to WGA. DNA extracted from hair produced results that were largely concordant with matched tissue samples, although amplification success was reduced and some allelic dropout was observed. WGA of hair samples resulted in a low genotyping success rate and an unacceptably high rate of allelic dropout and genotyping error. The problem was not rectified by conducting PCR of WGA hair samples in triplicate. Therefore, we conclude that WGA is only an effective method of enhancing template DNA quantity when the initial sample is from high‐yield material.     

Rapid and simple DNA extraction method for the detection of enterotoxigenic Staphylococcus aureus directly from food samples: comparison of PCR and LAMP methods

Aims: The study describes the development of simple and rapid DNA extraction method in combination with loop‐mediated isothermal amplification (LAMP) to detect enterotoxigenic Staphylococcus aureus in food samples. Methods and Results: In this study, isolation of genomic DNA of enterotoxigenic Staph. aureus from spiked milk, milk burfi, khoa, sugarcane juice and boiled rice was carried out by boiling the isolated sample pellets for 10 min with 1% Triton X‐100. The isolated DNA was evaluated by polymerase chain reaction (PCR) and LAMP method. The LAMP was found to be 100 times more sensitive than PCR. The LAMP assay was very specific for Staph. aureus, and the presence of other contaminating bacterial DNAs and food matrix did not interfere or inhibit the LAMP assay. Conclusions: The template DNA extraction method developed in this study for food samples is simple, rapid and cost‐effective. LAMP was found to be less sensitive to matrix effect of food, compared to PCR. Significance and Impact of the Study: The method is suitable for direct detection of Staph. aureus without any enrichment in contaminated food samples and hence finds its application in food safety analysis, in permutation with LAMP.     

PCR amplification of microalgal DNA for sequencing and species identification: studies on fixatives and algal growth stages

Cultured strains and individually isolated dinoflagellate cells from field samples were preserved in different fixatives to find a method of cell preservation that could provide DNA template in PCR reactions and preserve cell morphology for microscopic studies. Lugol’s solution and various ethanol concentrations all showed shortcomings, whereas an initial formalin preservation step followed by storage in 100% methanol fulfilled both demands. Cells could be stored up to 1 year and still provide functional DNA template for positive PCR reactions. The amplified fragment was approximately 700 bp of the D1/D2 region of the LSU rDNA, which is to our knowledge significantly longer than the low-molecular-weight DNA typically reported from formalin preserved samples. By cloning and sequencing the PCR product and subsequently aligning the sequences with previously sequenced fragments of the same or similar species, we confirmed that no base pair alteration had taken place during the time that the cells were fixed and frozen. In another experiment it was demonstrated that the growth phase of cultured Alexandrium minutum did not have any influence on the result of PCR reactions. This was true for extracted DNA from cultures and for direct PCR with a small number of disrupted cells. Phenol/chlorophorm/isoamylalcohol extraction proved to be an unpredictable method for DNA extraction, whereas direct PCR on isolated cells was more reliable. Extracted DNA purified with a commercial DNA cleaning kit always rendered a positive PCR. The environmental condition for cells to be used as DNA template in PCR is discussed.     

Litter and aerosol sampling of chicken houses for rapid detection of Salmonella typhimurium contamination using gene amplification

Rapid screening of poultry houses for contamination is critical for Salmonella control. Use of air filter sampling has great potential for efficient and reliable monitoring of Salmonella spp., as it could represent an entire poultry house and solve sample-size problems. Two sampling methods (litter and air filter) were compared for detection in four chicken pens inoculated with a S. typhimurium antibiotic resistant strain. Salmonella levels in both litter and air filter samples were determined by PCR amplification and by conventional enrichment. Although amplified DNA was not directly detected, amplified DNA could be detected using a dual probe hybridization sensor. The ratio of the positive samples to total samples determined by gene amplification was much lower than that obtained by conventional enrichments (29/128 versus 102/128 samples). However, the ratio obtained by gene amplification with air filter samples was greater than that with litter samples (26/64 versus 3/64). These results demonstrate that the air filter sampling method is an alternative method of Salmonella detection in poultry house using PCR gene amplification protocol. Journal of Industrial Microbiology & Biotechnology (2000) 24, 379–382. Received 12 August 1999/ Accepted in revised form 17 February 2000     

Molecular characterisation of Sargassum polycystum and S. siliquosum (Phaeophyta) by polymerase chain reaction (PCR) using random amplified polymorphic DNA (RAPD) primers

Genomic DNA was extracted from 13 samples of Sargassum polycystum and S. siliquosum collected from various localities around Peninsular Malaysia and Singapore by using four different extraction methods. The yields and the suitability of the DNA to be used as template for the polymerase chain reaction (PCR) was compared. DNA samples were subjected to PCR analysis by using random primers. Only DNA samples that were extracted using the CTAB method were successfully amplified by random amplified polymorphic DNA (RAPD)-PCR. Five of 31 random primers (OPA02, OPA03, OPA04, OPA13 and OPM10) tested amplified sequences of DNA from the DNA samples. Reproducible, amplified products were obtained using these primers and showed some potential to be useful in discriminating individual samples within the genus, in determining relationships between species within a genus and in developing individual fingerprints for individual samples.     

Polymerase chain reaction for detection of legionellae DNA in urine samples from patients with community-acquired pneumonia

Polymerase chain reaction (PCR) was used for detectingLegionella DNA in water, sputum, tracheal aspirate and bronchoalveolar lavage fluid. There is paucity of data on the use of PCR for detection ofLegionella in serum and urine samples. In 82 patients admitted with community-acquired pneumonia, urinary PCR was used in addition to urinary antigen assay forLegionella pneumophila serogroup 1 and serological tests (indirect immunofluorescence and ELISA) in paired sera. PCR was positive in urine samples from 21 patients (26 %): in six of seven patients with acute legionellosis by CDC criteria, and 15 patients with negative urine antigen showing no fourfold rise in antibody titers in immunofluorescence test.     

Sensitive detection of mycoplasmalike organisms in field-collected and in vitro propagated plants of Brassica, Hydrangea and Chrysanthemum by polymerase chain reaction

A polymerase chain reaction (PCR) protocol, previously designed for amplification of a DNA fragment from aster yellows mycoplasmalike organism (MLO), was employed to investigate the detection of MLO DNA in field-collected and in vitro micropropagated plants. PCR with template DNA extracted from symptomatic, naturally-infected samples of Brassica, Chrysanthemum and Hydrangea, each yielded a DNA band corresponding to 1.0 Kbp. However, no DNA product was observed when either infected Ranunculus (with phyllody disease) or Gladiolus with (symptoms of ‘germs fins’) was used as source of template nucleic acid for PCR; further experiments indicated absence of target DNA in the case of Ranunculus and the presence of substances in Gladiolus which inhibited the PCR. The MLO-specific DNA was detected by PCR using less than 95 pg of total nucleic acid (equivalent to total nucleic acid from 1.9, ug tissue) in the case of field-collected Hydrangea and less than 11.4 pg of nucleic acid (equivalent to total nucleic acid from 19 ng of tissue) in the case of field-collected Brassica. The findings illustrate highly sensitive detection of MLOs in both field-grown and in vitro micropropagated infected plants.     

A comparison of methods used to extract bacterial DNA from raw milk and raw milk cheese

Aims: In this study, we compare seven different methods which have been designed or modified to extract total DNA from raw milk and raw milk cheese with a view to its subsequent use for the PCR of bacterial DNA. Materials and Results: Seven extraction methods were employed to extract total DNA from these foods, and their relative success with respect to the yield and purity of the DNA isolated, and its quality as a template for downstream PCR, was compared. Although all of the methods were successful with respect to the extraction of DNA naturally present in cheese, they varied in their relative ability to extract DNA from milk. However, when milk was spiked with a representative Gram‐positive (Listeria monocytogenes EGDe) or Gram‐negative (Salmonella enterica serovar Typhimurium LT2) bacterium, it was established that all methods successfully extracted DNA which was suitable for subsequent detection by PCR. Conclusions: Of the seven approaches, the PowerFood? Microbial DNA Isolation kit (MoBio Laboratories Inc.) was found to most consistently extract highly concentrated and pure DNA with a view to its subsequent use for PCR‐based amplification and also facilitated accurate detection by real‐time quantitative PCR. Significance and Impact of the Study: Accurately assessing the bacterial composition of milk and cheese is of great importance to the dairy industry. Increasingly, DNA‐based technologies are being employed to provide an accurate assessment of this microbiota. However, these approaches are dependent on our ability to extract DNA of sufficient yield and purity. This study compares a number of different options and highlights the relative success of these approaches. We also highlight the success of one method to extract DNA from different microbial populations as well as DNA which is suitable for real‐time PCR of microbes of interest, a challenge often encountered by the food industry.     

A real‐time PCR method to quantify spores carrying the Bacillus thuringiensis var. israelensis cry4Aa and cry4Ba genes in soil

Aim: To develop a rapid real‐time PCR method for the specific detection and quantification of Bacillus thuringiensis var. israelensis (Bti) spores present in the environment. Methods and Results: Seven soil samples as well as one sediment sample obtained from various regions of Switzerland and characterized by different granulometry, pH values, organic matter and carbonate content were artificially inoculated with known amounts of Bti spores. After DNA extraction, DNA templates were amplified using TaqMan real‐time PCR targeting the cry4Aa and cry4Ba plasmid genes encoding two insecticidal toxins (δ‐endotoxins), and quantitative standard curves were created for each sample. Physicochemical characteristics of the samples tested did not influence DNA extraction efficiency. Real‐time PCR inhibition because of the presence of co‐extracted humic substances from the soil was observed only for undiluted DNA extracts from samples with very high organic matter content (68%). The developed real‐time PCR system proved to be sensitive, detecting down to 1 × 10³ Bti spores per g soil. One‐way analysis of variance confirmed the accuracy of the method. Conclusions: Direct extraction of DNA from environmental samples without culturing, followed by a specific real‐time PCR allowed for a fast and reliable identification and quantification of Bti spores in soil and sediment. Significance and Impact of the Study: The developed real‐time PCR system can be used as a tool for ecological surveys of areas where treatments with Bti are carried out.