Successful PCR Amplification Research Articles

Isolation of ten microsatellite markers using a pyrosequencing procedure and cross-priming in the Salaria genus

Ten new microsatellite markers were isolated from the freshwater blenny, Salaria fluviatilis. These loci were characterised for three distinct populations (Var River and Lake Bourget in France, and Lake Kinneret in Israel). S. fluviatilis populations in the North-West of the Mediterranean Sea are all polymorphic and under Hardy–Weinberg equilibrium. These microsatellite markers are suggested for studying the genetic structure in this area. Seven of the ten microsatellite markers are applicable for all the freshwater blenny populations of the entire Mediterranean basin. Cross-species characterisation was also performed on the peacock blenny, Salaria pavo. Seven of the ten microsatellite loci exhibited successful PCR amplification on this latter species. Polymorphism is observed on four of these seven loci.

Development of microdissection and chromosome specific genomic library in Lilium tigrinum

Techniques for microdissection and microcloning were established using chromosome 1 of triploid Lilium tigrinum. Chromosome 1 was dissected from a membrane slide using a microbeam system. Digestion with proteinase K was done before PCR amplification for more than 24 hours. The dissected chromosomes were then amplified by degenerate oligonucleotide primed PCR (DOP-PCR) and linker adaptor-mediated PCR (LA-PCR). Successful PCR amplification relied on critical concentrations of both MgCl2 and Taq polymerase. The optimum concentration of MgCl2 and Taq polymerase was 2.5 mM and 0.5 U, respectively. Amplification of the dissected chromosome using DOP-PCR had more sensitivity dependent upon PCR factors, but LA-PCR was more dependent on the linker ligation. Amplified DNA products ranged from 100 to 2500 bp both for DOP- and LA-PCR. Evaluated clones only ranged from 100 to 1700 bp for DOP-PCR and 100 to 900 bp for LA-PCR. Based on the sequence results, most of the sequences from the DOP-PCR and LA-PCR showed no significant similarity with known data in NCBI database. However, about 2% of the sequence data was partially matched with plant microsatellites with low similarity. The results derived from the microdissection of a large genome organism such as Lilium showed informative and useful for the development of microsatellite repeat markers. Sequence data from the chromosome specific DNA library was considered for the development of microsatellite markers.

Expression of core antigen of HCV genotype 3a and its evaluation as screening agent for HCV infection in Pakistan

BackgroundPakistan is facing a threat from hepatitis C infection which is increasing at an alarming rate throughout the country. More specific and sensitive screening assays are needed to timely and correctly diagnose this infection.MethodsAfter RNA extraction from specimen (HCV-3a), cDNA was synthesized that was used to amplify full length core gene of HCV 3a. After verification through PCR, DNA sequencing and BLAST, a properly oriented positive recombinant plasmid for core gene was digested with proper restriction enzymes to release the target gene which was then inserted downstream of GST encoding DNA in the same open reading frame at proper restriction sites in multiple cloning site of pGEX4t2 expression vector. Recombinant expression vector for each gene was transformed in E. coli BL21 (DE3) and induced with IPTG for recombinant fusion protein production that was then purified through affinity chromatography. Western blot and Enzyme Linked Immunosorbant Assay (ELISA) were used to detect immuno-reactivity of the recombinant protein.ResultsThe HCV core antigen produced in prokaryotic expression system was reactive and used to develop a screening assay. After validating the positivity (100%) and negativity (100%) of in-house anti-HCV screening assay through a standardized panel of 200 HCV positive and 200 HCV negative sera, a group of 120 serum specimens of suspected HCV infection were subjected to comparative analysis of our method with commercially available assay. The comparison confirmed that our method is more specific than the commercially available assays for HCV strains circulating in this specific geographical region of the world and could thus be used for HCV screening in Pakistan.ConclusionIn this study, we devised a screening assay after successful PCR amplification, isolation, sequencing, expression and purification of core antigen of HCV genotype 3a. Our developed screening assay is more sensitive, specific and reproducible than the commercially available screening assays in Pakistan.

Erratum: Still No Answers for Chronic Fatigue Syndrome

Erratum: Still No Answers for Chronic Fatigue Syndrome

Successful carnivore identification with faecal DNA across a fragmented Amazonian landscape

The use of scat surveys to obtain DNA has been well documented in temperate areas, where DNA preservation may be more effective than in tropical forests. Samples obtained in the tropics are often exposed to high humidity, warm temperatures, frequent rain and intense sunlight, all of which can rapidly degrade DNA. Despite these potential problems, we demonstrate successful mtDNA amplification and sequencing for faeces of carnivores collected in tropical conditions and quantify how sample condition and environmental variables influence the success of PCR amplification and species identification. Additionally, the feasibility of genotyping nuclear microsatellites from jaguar (Panthera onca) faeces was investigated. From October 2007 to December 2008, 93 faecal samples were collected in the southern Brazilian Amazon. A total of eight carnivore species was successfully identified from 71% of all samples obtained. Information theoretic analysis revealed that the number of PCR attempts before a successful sequence was an important negative predictor across all three responses (success of species identification, success of species identification from the first sequence and PCR amplification success), whereas the relative importance of the other three predictors (sample condition, season and distance from forest edge) varied between the three responses. Nuclear microsatellite amplification from jaguar faeces had lower success rates (15-44%) compared with those of the mtDNA marker. Our results show that DNA obtained from faecal samples works efficiently for carnivore species identification in the Amazon forest and also shows potential for nuclear DNA analysis, thus providing a valuable tool for genetic, ecological and conservation studies.

Comparison of methods in the recovery and amplificability of DNA from fresh and processed sardine and anchovy muscle tissues

An important condition for a successful PCR amplification is an efficient DNA-extraction procedure out of a complex biological matrix such as canned fish. In this study we compared six extraction methods, including commercial kit, in terms of DNA yield, purity and time requirement. Such methods were applied to distinguish small pelagic fish species (Sardina pilchardus and Engraulisencrasicolus) among commercial canned products. The quantity and quality of DNA extracted were evaluated using the ratio A260/A280. Data were submitted to principal component analysis (PCA) in order to assess the differences between PCR results of fresh and processed anchovy and sardine muscles. Two main PC characterised the PCR of sardine and anchovy (70% and 69% of all variance): principal component 1 (PC1) (4% and 60%) and principal component 2 PC2 (66.0% and 9%) for sardine and anchovy, respectively. According to the PC1, the PCI/SDS and Chelex extractions (in decreasing order) were positively correlated with results of PCR for both species.Statistical results confirmed that the quality of DNA, with the highest amplicon length obtained from the fresh and the different canned fish, was best preserved using the SDS/PCI precipitation method.

Application of DNA barcodes in Hedyotis L. (Spermacoceae, Rubiaceae)

Abstract The potential application of DNA barcodes of plastid (matK, trnH–psbA, petD, and rbcL) and nuclear (internal transcribed spacer (ITS) of rDNA) DNA regions was investigated for 25 Hedyotis taxa. The ITS showed the best species discrimination by resolving 23 of the species as exclusive lineages with no shared alleles between any of the 24 distinct species (H. assimilis and H. mellii are not supported as distinct species based on our molecular and morphological data). Conversely, rbcL performed the worst and only resolved 10 of the species as exclusive lineages, and 10 species with shared alleles. Using ITS has the advantage of high PCR amplification success and it provides good intra‐ and interspecific variation distribution patterns. The most powerful plastid markers were petD and trnH–psbA, but we could amplify and sequence trnH–psbA for only 83% of the accessions sampled. Combination of ITS and petD performed extremely well, with all 24 of the distinct species resolved as exclusive lineages and no shared alleles between any of the distinct species. We therefore recommend ITS, or a combination of ITS and petD, as the standard DNA barcode in Hedyotis, but acknowledge that there are no shared alleles between distinct species for matK and rbcL combined.

Barcoding Diatoms: Exploring Alternatives to COI-5P

Diatoms are a diverse lineage with species that can be difficult to identify or cryptic, but DNA barcoding, a molecular technique, can assist identification and facilitate studies of speciation and biogeography. The most common region used for DNA barcoding, COI-5P, can distinguish diatom species, but has not displayed universality (i.e., successful PCR amplification from diverse taxa). Therefore, we have assessed the following alternative markers: ∼1400bp of rbcL; 748bp at the 3' end of rbcL (rbcL-3P); LSU D2/D3 and UPA. Sellaphora isolates were used to determine each marker's ability to discriminate among closely related species and culture collection material was utilized to explore further marker universality. All of the alternative markers investigated have greater universality than COI-5P. Both full and partial (3P) rbcL regions had the power to discriminate between all species, but rbcL-3P can be sequenced more easily. LSU D2/D3 could distinguish between all but the most closely related species (96%), whereas UPA only distinguished 20% of species. Our observations suggest that rbcL-3P should be used as the primary marker for diatom barcoding, while LSU D2/D3 should be sequenced as a secondary marker to facilitate environmental surveys.

Obtaining high-quality DNA from elusive small mammals using low-tech hair snares

Noninvasive sampling approaches are becoming increasingly important for enabling genetic studies of wildlife populations. While a number of methods have been described to noninvasively sample hair from carnivores and medium-sized mammals, they have largely remained untested in elusive small mammals. Here we describe a novel and inexpensive noninvasive hair snare targeted at an elusive small mammal, the American pika (Ochotona princeps). We explore the quality of the sample by assessing PCR amplification success of mitochondrial and nuclear DNA fragments across four commercially available DNA isolation kits and two different quantities of hair in a factorial design. Additionally, we determined the sex of the individual samples using PCR–RFLP of ZFX/ZFY loci. We found that our snare is effective in obtaining hair that yield DNA of sufficient quality and quantity to successfully amplify a range of mitochondrial and nuclear fragment sizes. Specifically, we found the greatest success in amplifying mitochondrial DNA, nuclear microsatellites and ZFX/ZFY loci using at least 25 hairs as starting material and the DNA IQ™ system. The hair snares thus provide a cost-effective and minimally intrusive approach to sample elusive or rare small mammals. We anticipate that this approach will be useful to obtain samples for molecular studies of the ecology, evolution and conservation of small, elusive mammals.

Factors affecting the STR amplification success in poorly preserved bone samples

BackgroundFactors affecting the success of short tandem repeat (STR) amplification of poorly preserved samples are generally known, but as of yet, they have seldom been systematically assessed. Using two different maximum likelihood-based methods, the relative importance of DNA quantity, degradation and inhibition in STR genotyping was studied with DNA extracts from a set of old bone samples. First, the effects of different factors related to PCR amplification were estimated with a generalized linear mixed model. Second, error rates of allelic drop-out and drop-in were estimated on the basis of the frequency and nature of mismatches between replicates.ResultsIn autosomal STR analyses, the most important factor was the DNA quantity, followed by the degradation, whereas in Y-chromosomal STR analysis, the most important factor was the degradation. Inhibition was a minor concern in STR analyses of poorly preserved bones.ConclusionsThe success of PCR amplification depends largely on the template DNA quality (amount and degradation), but these problems can be partly compensated for by different primer design and amplification chemistry. Consequently, the relative roles of the compromising factors differ according to the kit used.

Characterization of antigens for Q fever serodiagnostics

The aim of this study was to identify candidate proteins for serodiagnostics of Q fever by monoclonal antibodies (MAbs), and to clone, express, and purify the selected proteins for use as antigens in ELISA. The reactivity of three MAbs to Coxiella burnetii (C. b.) Nine Mile strain and one MAb to Priscilla strain was tested using SDS-PAGE, 2-D gel electrophoresis, immunoblot analysis, and mass spectrometry. Three immunoreactive Q fever-specific proteins discriminated by MAbs, namely the CBU_0937 protein, outer membrane Com1 (CBU_1910) protein, and elongation factor Tu (CBU_0236) were identified. Successful PCR-amplification, cloning, expression, and purification of the recombinant proteins Com1 and CBU_0937 allowed their use for the screening of sera from patients with Q fever endocarditis (18) or acute Q fever (16) in ELISA. The recombinant protein CBU_0937 with unknown biological function proved to be a more applicable diagnostic tool for Q fever ELISA as compared to the Com1 protein.

Novel perspectives to purify genomic DNA from high humic acid content and contaminated soils

Numerous soil nucleic acid isolation protocols published during the last decades reflect difficulties to remove all traces of DNA-coprecipitated contaminants such as humic acids and pollutants. The aim of this work was to optimize a rapid and innovative DNA isolation and purification procedure from high humic acid content and contaminated soil. Two types of vitamins, pyridoxal hydrochloride and thiamine hydrochloride, were used as PCR inhibitor removals. The combination of vitamins with a “salting-out” with potassium chloride (KCl) during the optimization experiments enabled the recovery of PCR-ready DNA extracts from polluted soils with high organic matter contents. To investigate the extent of this purification method, genomic nucleic acids were also extracted from soil samples artificially supplemented with 10% (w/w) of pure humic acids. Successful PCR amplifications confirmed the high purity of the DNA recovered from all samples. The use of cetyl trimethylammonium bromide (CTAB) with vitamins instead of KCl prevented DNA losses and also allowed the recovery of high quality genomic DNA from the different soils, depending on lysis buffer pH adjustment. The application of this protocol followed by bacterial diversity analysis by PCR–TGGE demonstrated that this method could be applied to a bacterial molecular diversity analysis from a wide variety of soils. The major advantage of the described procedure is the inherent short processing time with no preliminary soil washing requirement or additional purification step.

Successful Isolation and PCR Amplification of DNA from National Institute of Standards and Technology Herbal Dietary Supplement Standard Reference Material Powders and Extracts

Twenty-four herbal dietary supplement powder and extract reference standards provided by the National Institute of Standards and Technology (NIST) were investigated using three different commercially available DNA extraction kits to evaluate DNA availability for downstream nucleotide-based applications. The material included samples of Camellia, Citrus, Ephedra, Ginkgo, Hypericum, Serenoa, And Vaccinium. Protocols from Qiagen, MoBio, and Phytopure were used to isolate and purify DNA from the NIST standards. The resulting DNA concentration was quantified using SYBR Green fluorometry. Each of the 24 samples yielded DNA, though the concentration of DNA from each approach was notably different. The Phytopure method consistently yielded more DNA. The average yield ratio was 22 : 3 : 1 (ng/microL; Phytopure : Qiagen : MoBio). Amplification of the internal transcribed spacer II region using PCR was ultimately successful in 22 of the 24 samples. Direct sequencing chromatograms of the amplified material suggested that most of the samples were comprised of mixtures. However, the sequencing chromatograms of 12 of the 24 samples were sufficient to confirm the identity of the target material. The successful extraction, amplification, and sequencing of DNA from these herbal dietary supplement extracts and powders supports a continued effort to explore nucleotide sequence-based tools for the authentication and identification of plants in dietary supplements.

Assessing the bias linked to DNA recovery from biofiltration woodchips for microbial community investigation by fingerprinting

In this study, we explored methodological aspects of nucleic acid recovery from microbial communities involved in a gas biofilter filled with pine bark woodchips. DNA was recovered indirectly in two steps, comparing different methods: cell dispersion (crushing, shaking, and sonication) and DNA extraction (three commercial kits and a laboratory protocol). The objectives were (a) to optimize cell desorption from the packing material and (b) to compare the 12 combinations of desorption and extraction methods, according to three relevant criteria: DNA yield, DNA purity, and community structure representation by denaturing gradient gel electrophoresis (DGGE). Cell dispersion was not influenced by the operational parameters tested for shaking and blending, while it increased with time for sonication. DNA extraction by the laboratory protocol provided the highest DNA yields, whereas the best DNA purity was obtained by a commercial kit designed for DNA extraction from soil. After successful PCR amplification, the 12 methods did not generate the same bias in microbial community representation. Eight combinations led to high diversity estimation, independently of the experimental procedure. Among them, six provided highly similar DGGE profiles. Two protocols generated a significantly dissimilar community profile, with less diversity. This study highlighted the crucial importance of DNA recovery bias evaluation.

An integrated microfluidic device for DNA purification and PCR amplification of STR fragments

This work presents the integration of DNA extraction from complex samples and PCR amplification of STR fragments in a valveless, glass microdevice, using commercially available kits and instrumentation. DNA extraction was performed using a microchannel packed with a silica solid phase and a standard syringe pump as a single pressure source driving the extraction process, followed by integrated, online microchip amplification of STR fragments in a total volume of 1.2 μL. Reported characteristics important to this work include the capacity of the device for purification of DNA from a complex biological sample (whole blood) and the timing of DNA elution from the silica solid phase for successful downstream PCR amplification by placement the microdevice into a conventional thermocycler. Potential application of this microdevice to forensic genetic analysis was demonstrated through the preliminary extraction of DNA from semen, followed by an integrated, multiplexed, on-chip amplification that yielded detectable STR amplicons. By utilizing conventional laboratory equipment, the device presented exploits the benefits of microfluidic systems without complex control systems.

A mini-primer set covering the mtDNA hypervariable regions for the genetic typing of old skeletal remains

A mini-primer set to amplify the mtDNA control region was developed and tested on fourteen long compact bone samples (femur and humerus samples) recovered from a World War II mass grave. This approach gave successful PCR amplifications for all but one of the bone samples. The following sequencing analysis identified seven different mtDNA haplotypes, three of which shared by more than one bone sample. These haplotypes were then compared to living relatives of missing persons disappeared in that area at the end of the WWII (1945).

DNA from processed and unprocessed wood: Factors influencing the isolation success

Molecular genetic markers have numerous potential applications in environmental forensics if DNA can be isolated from ‘difficult’ non-human biological material such as hairs, feathers, or wood. The identification of the origin of wood is particularly important in order to identify illegally harvested and traded timber and wood products. We describe success rates of DNA isolation from wood based on a simple, previously published extraction protocol. The protocol was used to isolate DNA from a total of 406 wood samples, mainly of the important tropical tree family Dipterocarpaceae. The reliability of the extraction method was confirmed by comparing fragment sizes and sequences after isolation of DNA from leaves and wood of the same trees. We observed the success of amplification of chloroplast DNA (cpDNA) fragments of different lengths by means of PCR, investigated key factors influencing PCR, and conducted inhibitor tests for a subset of the samples. The average rate of successful PCR amplification was 75.7%. Main factors influencing the success of PCR amplification were the size of the amplified fragment and the processing status of the wood. Short fragments and unprocessed wood resulted in higher success rates. The success rate was also dependent on the age (storage duration) of the wood probe and on the investigated species. Amplification success was higher if DNA was isolated from outer sapwood (without cambium) in comparison to DNA isolated from the transition zone between sapwood and heartwood and the inner heartwood. However, inhibitor tests also indicated more PCR inhibitory substances in the outer sapwood in comparison to transition wood and heartwood. The addition of polyvinylpyrolidone (PVP) to the lysis buffer proved to be highly efficient to improve the amplification success if inhibitory substances were present.

PCR-amplification of GC-rich regions: 'slowdown PCR'

The polymerase chain reaction (PCR) technique has become an indispensable method in molecular research. However, PCR-amplification of GC-rich templates is often hampered by the formation of secondary structures like hairpins and higher melting temperatures. We present a novel method termed 'Slowdown PCR', which allows the successful PCR-amplification of extremely GC-rich (>83%) DNA targets. The protocol relies on the addition of 7-deaza-2'-deoxyguanosine, a dGTP analog to the PCR mixture and a novel standardized cycling protocol with varying temperatures. The latter consists of a generally lowered ramp rate of 2.5 degrees C s(-1) and a low cooling rate of 1.5 degrees C s(-1) for reaching an annealing temperature and is run for 48 cycles. We established this protocol as a versatile method not only for amplification of extremely GC-rich regions, but also for routine DNA diagnostics and pharmacogenetics for templates with different annealing temperatures. The protocol takes 5 h to complete.

Highly Sensitive and Specific PCR Assay for Reliable Detection of Cyclospora cayetanensis Oocysts

Multiple outbreaks of food-borne gastroenteritis caused by the coccidian parasite Cyclospora cayetanensis have been reported annually in North America since 1995. Detection of C. cayetanensis contamination typically relies on laborious and subjective microscopic examination of produce washes. Molecular detection methods based on nested PCR, restriction fragment length polymorphism, or multiplex PCR have been developed for C. cayetanensis; however, they have not been adequately validated for use on food products. Further challenges include reliably extracting DNA from coccidian oocysts since their tough outer wall is resistant to lysis and overcoming PCR inhibitors in sample matrices. We describe preliminary validation of a reliable DNA extraction method for C. cayetanensis oocysts and a sensitive and specific novel PCR assay. The sensitivity and repeatability of the developed methods were evaluated by multiple DNA extractions and PCR amplifications using 1,000-, 100-, 10-, or 1-ooycst aliquots of C. cayetanensis oocysts in water or basil wash sediment. Successful PCR amplification was achieved on 15 and 5 replicates extracted from aliquots containing 1,000 oocysts in water and basil wash, respectively. All 45 replicates of the 100-oocyst aliquots in water and 5 in basil wash were amplified successfully, as were 43/45 and 41/45 of the 10- and 1-oocyst aliquots in water and 9/15 and 2/15 in basil wash, respectively. The developed primers showed no cross-reactivity when tested against bacteria, nematodes, and protozoans, including Eimeria, Giardia, and Cryptosporidium. Our results indicate that these methods are specific, can reliably detect a single oocyst, and overcome many of the limitations of microscopic diagnosis.

ANALYSIS OF ANCIENT DNA FROM FOSSIL CORALLINES (CORALLINALES, RHODOPHYTA)(1).

The field of molecular paleontology has recently made significant contributions to anthropology and biology. Hundreds of ancient DNA studies have been published, but none has targeted fossil coralline algae. Using regions of the SSU gene, we analyzed rDNA from fossil coralline algae of varying ages and states of preservation from Spain, Papua New Guinea (PNG), and the Great Barrier Reef (GBR). Specimens from PNG, GBR, and some localities from Spain did not contain endogenous ancient DNA. Reproducible sequence data were obtained from specimens ∼550 years old from near Cadiz, Spain, and from rocky-shore deposits in Carboneras, Almeria Province of Spain (∼78,000 years before present [YBP]). Based on BLAST searches and a phylogenetic analysis of sequences, an undescribed coralline alga belonging to the Melobesioideae was discovered in the Carboneras material as well as the following coralline genera: Jania, Lithophyllum, Lithothamnion, Mesophyllum, and Phymatolithon. DNA from fleshy brown and red macroalgae was also discovered in the specimens from Carboneras. The coralline algae identified using molecular techniques were in agreement with those based on morphological methods. The identified taxa are common in the present-day southeastern Spain littoral zone. Amino acid racemization, concentration ratios, and specific concentrations failed to show a correlation between biomolecular preservation and PCR amplification success. Results suggest that molecular investigations on fossil algae, although limited by technical difficulties, are feasible. Validity of our results was established using authentication criteria and a self-critical approach to compliance.