Capture of assay template by multiplex PCR of long amplicons for genotyping SNPs and InDels with MALDI-TOF mass spectrometry

Mis-priming associated with uncharacterised single nucleotide polymorphisms (SNPs) may lead to failure of PCR for genotyping. This is particularly troublesome in high-throughput SNP genotyping applications relying on multiplex PCR (2–40-plex) generating many short amplicons (80–120 bp) of similar size, an approach best suited for whole genome scans. However, if the target SNPs are clustered within a few target genes one option to ameliorate this is to increase the amplicon length, effectively reducing the potential for primer/template interactions and mis-priming. We tested this approach in a diverse population of 372 Eucalyptus pilularis individuals (π = 8.11 × 10⁻³, H _e = 0.75) using a modified Sequenom iPLEX gold assay. Four candidate genes (MYB1, MYB2, CAD and CCR) were amplified in a single long range multiplex capture PCR generating 6 long amplicons ranging in size from 907 to 2,225 bp. This contrasts with the standard approach which would have required the amplification of 98 short amplicons in 4 multiplex reactions. These 6 long amplicons provided the assay template for 98 assays (87 SNP and 11 InDel) within the 4 candidate genes. Reaction results indicated that longer amplicons could provide a suitable template for genotyping assays, with 90.8% of assays functional and 84.3% of assays suitable for downstream analysis. Additional advantages of this approach were the capacity for troubleshooting using gel electrophoresis and savings of 94% in capture primer synthesis costs. This approach will have the greatest relevance for candidate gene approaches for association testing in uncharacterised populations of organisms with high sequence diversity.     

Efficient non-enzymatic cleavage of Staphylococcus aureus plasmid DNAs mediated by neodymium ions

Staphylococcus aureus plasmids are the main factor in the spreading of antibacterial resistance among bacterial strains that has emerged on a worldwide scale. Plasmids recovered from 12 clinical and food isolates of S. aureus were treated with 10 mM free lanthanide Nd³⁺ ions (non-enzymatic cleavage agent) in Hepes buffer (pH 7.5) at 70 °C. Topological forms of plasmids—closed circular (ccc), open circular (oc), and linear (lin)—produced by cleavage at different times were separated using pulsed-field agarose gel electrophoresis. The method is proposed to detect and differentiate several plasmids in the same bacterial strain according to their size.     

Electrochemical genosensor for specific detection of the food-borne pathogen, <Emphasis Type="Italic">Vibrio cholerae</Emphasis>

A disposable horseradish peroxidase (HRP)-based electrochemical genosensor was developed for chronoamperometric detection of single-stranded asymmetric lolB gene PCR amplicon (118 bp in length) of the food-borne pathogen, Vibrio cholerae. A two-step sandwich-type hybridization strategy using two specific probes was employed for specific detection of the target single-stranded DNA (ssDNA). The analytical performances of the detection platform have been evaluated using a synthetic ssDNA (ST3) which was identical to the target single-stranded amplicon and a total of 19 bacterial strains. Under optimal condition, ST3 was calibrated with a dynamic range of 0.4883–15.6250 nM. By coupling asymmetric PCR amplification, the probe-based electrochemical genosensor was highly specific to the target organism (100% specificity) and able to detect as little as 0.85 ng/μl of V. cholerae genomic DNA.     

Rapid detection of human papilloma virus using a novel leaky surface acoustic wave peptide nucleic acid biosensor

A novel leaky surface acoustic wave (LSAW) bis-peptide nucleic acid (bis-PNA) biosensor with double two-port resonators has been constructed successfully for the quantitative detection of human papilloma virus (HPV). The bis-PNA probe can directly detect HPV genomic DNA without polymerase chain reaction (PCR) amplification, and it can bind to the target DNA sequences more effectively and specifically than a DNA probe. When the concentrations varied from 1 pg/L to 1000 μg/L, with 100 μg/L being the optimal, a typical linearity was found between the quantity of target and the phase shifts. The detection limit was 1.21 pg/L and the clinical specificity was 97.22% of that of real-time PCR. The bis-PNA probe was able to distinguish sequences that differ only in one base. Both the intraassay and interassay coefficients of variance (CVs) were <10%, and the biosensor can be regenerated for ten times without appreciable loss of activity. Therefore, this technical platform of LSAW biosensor can be applied to clinical samples for direct HPV detection.     

Loop‐mediated isothermal amplification method for rapid detection of Vibrio alginolyticus,the causative agent of vibriosis in mariculture fish

Aims: The purpose of this study was to develop a loop‐mediated isothermal amplification (LAMP) method for the rapid, sensitive and simple detection of Vibrio alginolyticus in mariculture fish. Methods and Results: LAMP primers were designed by targeting the gyrB gene. With Bst DNA polymerase, the target DNA can be clearly amplified for 60 min at 64°C in a simple water bath. The detection sensitivity of the LAMP assay for the detection of V. alginolyticus is about 3·7 × 10² CFU ml^?1 (3·7 CFU per reaction). LAMP products could be judged with agar gel or naked eye after the addition of SYBR Green I. There were no cross‐reactions with other bacterial strains indicating a high specificity of the LAMP. The LAMP method was applied to detect V. alginolyticus‐infected fish tissues effectively. Conclusions: The LAMP established in this study is a simple, sensitive, specific, inexpensive and rapid protocol for the detection of V. alginolyticus. Significance and Impact of the Study: This LAMP method provides an important diagnostic tool for the detection of V. alginolyticus infection both in the laboratory and field.     

Rapid method for detecting SNPs on agarose gels and its application in candidate gene mapping

TILLING (Targeting Induced Local Lesions IN Genomes) exploits the fact that CEL I endonuclease cleaves heteroduplexes at positions of single nucleotide or small indel mismatches. To detect single nucleotide polymorphisms (SNPs) across a population, DNA pools are created and a target locus under query is PCR-amplified and subjected to heteroduplex formation, followed by CEL I cleavage. Currently, the common method used to detect cleaved products is by polyacrylamide gel electrophoresis using a high-throughput genotyping platform. Exact SNPs are then determined by sequencing. We sought to simplify the detection of CEL I-cleaved products on conventional agarose gels to make the technique more accessible to collaborating partners in developing countries where access to instrumentation could be limiting. Here, we used a panel of stress-related genes to evaluate SNP detection across 48 rice genotypes by contrasting them individually against IR64 and Nipponbare. SNP detection calls corresponded perfectly with those obtained from the Li-Cor genotypers. We were able to detect SNPs in pools of eight DNA templates, suggesting that the agarose gel system could be used to screen for SNPs with comparable throughput as that of the Li-Cor genotypers and showed that the throughput can be increased by analyzing larger amplicons (∼3 kb). The agarose method offers a significant advantage by alleviating the need for labeled primers. We further demonstrated that the agarose method can be effectively used in gene mapping, an application particularly useful for parental lines with low levels of polymorphism. The lower cost and simplicity of the technique make it possible for broader applications of SNP-based markers for germplasm characterization and mapping studies.     

Digoxigenin-labelled peptide nucleic acid to detect lactobacilli PCR amplicons immobilized on membranes from denaturing gradient gel electrophoresis

AIMS: To develop a digoxigenin (DIG)-labeled peptide nucleic acid (PNA) probe for the detection of Lactobacillus-related genera amongst eubacterial amplicons obtained from vaginal samples using denaturing gradient gel electrophoresis (DGGE) blots. METHODS AND RESULTS: Part of the 16S rRNA gene sequence was used as a target for the PNA probe. After confirming probe specificity using chromosomal DNA from species and isolates that have been detected in the urogenital tract, it was successfully used to detect lactobacilli amplicons generated using eubacterial-specific 16S rRNA gene-targeted primers from vaginal tract samples immobilized on membranes from DGGE. CONCLUSIONS: The Lactobacillus-specific PNA probe could distinguish between DNA fragments from lactobacilli in a DGGE gel from other bacterial species, including those that migrated to a similar position. SIGNIFICANCE AND IMPACT OF THE STUDY: The use of the DIG-labelled PNA probe on blots of eubacterial PCR products from DGGE gels can be used to specifically detect lactobacilli in complex vaginal samples.     

Sequence specific visual detection of LAMP reactions by addition of cationic polymers

Background  

Development of a practical gene point-of-care testing device (g-POCT device) requires innovative detection methods for demonstrating the results of the gene amplification reaction without the use of expensive equipment. We have studied a new method for the sequence-specific visual detection of minute amounts of nucleic acids using precipitation reaction by addition of cationic polymers to amplicons of Loop mediated isothermal Amplification (LAMP).     

Selective sensing Ca2+ with a spiropyran‐based fluorometric probe

Spiropyran (SP) and its derivatives operate between their ring opening and closing forms as a versatile molecular platform for the fluorescence detection of cations and anions, using a colour change for signalling. A functionalized SP fluorescence probe, L , was prepared and characterized. Probe L can detect Ca²⁺ with a fluorescence ‘turn‐on’ response in ethanol solution. It selectively binds Ca²⁺ to form a 1:1 ligand/metal complex, which produced a new emission band centred at 604 nm. The sensing result was clearly observed by the solution colour change from colourless to pink under visible light, and from blue to red under ultraviolet light. The detection limit was calculated to be 4.53 × 10^?8 M for Ca²⁺. The probe provides another possibility that SP‐based derivatives could be used for the development and detection of metal ions in environmental and physiological systems.     

Tetramethyl-6-carboxyrhodamine quenching-based aptasensing platform for aflatoxin B1: Analytical performance comparison of two aptamers

In this study, a simple TAMRA (tetramethyl-6-carboxyrhodamine) quenching-based aptasensing platform was designed for the detection of aflatoxin B1 (AFB1). Here, we compared the analytical performance of two aptamer sequences: seqA and seqB. The AFB1 detection was based on the interactions of FAM (carboxyfluorescein)-labeled aptamer with TAMRA-labeled DNA complementary strand in the presence and absence of target analyte. Under optimized experimental conditions, TAMRA-labeled strand quenched the fluorescence response of FAM-labeled aptamer due to the noncovalent interaction between the two DNA strands. The binding of AFB1 induced the complex formation and weakened the interaction between FAM-labeled aptamer and TAMRA-labeled complementary strand, resulting in the fluorescence recovery. By using this principle concept, an assay was constructed for the detection of AFB1. The method exhibited good sensitivity, good selectivity with a limit of detection of 0.2 ng ml⁻¹, and a wide linear range from 0.25 to 32 ng ml⁻¹. For real sample application, the aptasensors were tested in beer and wine samples, with good recovery rates obtained for AFB1 detection.     

Rapid and sensitive detection of Taura syndrome virus using nucleic acid-based amplification

Requiring only simple heating devices, isothermal nucleic acid-based amplification (NASBA) is a potential detection platform to be developed for on-site diagnosis of aquaculture pathogens. In this report, an NASBA assay has been developed for the Taura syndrome virus (TSV), one of the most devastating RNA virus pathogens for several penaeid shrimp species. The NASBA amplicons were detected by agarose gel electrophoresis and confirmed by Northern-blotting and dot-blotting analysis, using a biotinylated TSV-specific primer. The sensitivity of the TSV NASBA coupled with dot-blotting detection was approximately 5-fold less sensitive than that of the commercially available RT-nested, PCR-based IQ2000 TSV Detection and Prevention System that was also confirmed to be more sensitive than the RT-PCR-based TSV detection protocol recommended by the OIE (Office International des Epizooties). The specificity of the TSV NASBA reaction was substantiated by the results that RNA of non-target viruses did not generate any signals. Furthermore, a simple colorimetric microtiter plate assay employing TSV-specific capture and detection primers was developed as a simple alternative approach for the detection of NASBA amplicons. Taken together, the combination of the isothermal NASBA and colorimetric solid phase-based assays should allow sensitive, straightforward, and speedy on-site detection of TSV.     

Detection of Bacillus anthracis from spores and cells by loop-mediated isothermal amplification without sample preparation

Loop-mediated isothermal amplification (LAMP) is a technique capable of rapidly amplifying specific nucleic acid sequences without specialized thermal cycling equipment. In addition, several detection methods that include dye fluorescence, gel electrophoresis, turbidity and colorimetric change, can be used to measure or otherwise detect target amplification. To date, publications have described the requirement for some form of sample nucleic acid extraction (boiling, lysis, DNA purification, etc.) prior to initiating a LAMP reaction. We demonstrate here, the first LAMP positive results obtained from vegetative cells and spores of Bacillus anthracis without nucleic acid extraction. Our data show that the simple addition of cells or spores to the reaction mixture, followed by heating at 63°C is all that is required to reproducibly amplify and detect target plasmid and chromosomal DNA via colorimetric change. The use of three primer sets targeting both plasmids and the chromosome of B. anthracis allows for the rapid discrimination of non-pathogenic bacteria from pathogenic bacteria within 30 min of sampling. Our results indicate that direct testing of B. anthracis spores and cells via LAMP assay will greatly simplify and shorten the detection process by eliminating nucleic acid purification. These results may allow more rapid detection of DNA from pathogenic organisms present in field and environmental samples.     

Compared with conventional PCR assay,qPCR assay greatly improves the detection efficiency of predation

Studies of predation can contribute greatly to understanding predator–prey relationships and can also provide integral knowledge concerning food webs and multi‐trophic level interactions. Both conventional polymerase chain reaction (cPCR) and quantitative PCR (qPCR) have been employed to detect predation in the field because of their sensitivity and reproducibility. However, to date, few studies have been used to comprehensively demonstrate which method is more sensitive and reproducible in studies of predation. We used a Drosophila melanogaster‐specific DNA fragment (99 bp) to construct a tenfold gradient dilution of standards. Additionally, we obtained DNA samples from Pardosa pseudoannulata individuals that fed on D. melanogaster at various time since feeding. Finally, we compared the sensitivity and reproducibility between cPCR and qPCR assays for detecting DNA samples from feeding trials and standards. The results showed that the cPCR and qPCR assays could detect as few as 1.62 × 10³ and 1.62 × 10¹ copies of the target DNA fragment, respectively. The cPCR assay could detect as few as 48 hr post‐feeding of the target DNA fragment. But the qPCR assay showed that all spiders were positive after consuming prey at various time intervals (0, 24, 48, 72, and 96 hr). A smaller proportion of the technical replicates were positive using cPCR, and some bands on the agarose gel were absent or gray, while some were white and bright for the same DNA samples after amplification by cPCR. By contrast, a larger proportion of the technical replicates were positive using qPCR and the coefficients of variation of the Ct value for the three technical replicates of each DNA sample were less than 5%. These data showed that qPCR was more sensitive and highly reproducible in detecting such degraded DNA from predator's gut. The present study provides an example of the use of cPCR and qPCR to detect the target DNA fragment of prey remains in predator's gut.     

Ultra-rapid real-time PCR for the detection of Paenibacillus larvae, the causative agent of American Foulbrood (AFB)

A novel micro-PCR-based detection method, termed ultra-rapid real-time PCR, was applied to the development of a rapid detection for Paenibacillus larvae (P. larvae) which is the causative agent of American Foulbrood (AFB). This method was designed to detect the 16S rRNA gene ofP. larvae with a micro-scale chip-based real-time PCR system, GenSpector^® TMC-1000, which has uncommonly fast heating and cooling rates (10 °C per second) and small reaction volume (6 μl). In the application of ultra-rapid real-time PCR detection to an AFB-infected larva, the minimum detection time was 7 min and 54 s total reaction time (30 cycles), including the melting temperature analysis. To the best of our knowledge, this novel detection method is one of the most rapid real-time PCR-based detection tools.     

Detection of two Prorocentrum species using sandwich hybridization integrated with nuclease protection assay

A novel assay method using nuclease protection assay integrated with sandwich hybridization (NPA-SH) for qualitative and quantitative detection of microalgae has been developed. Two species-specific nuclease-protection-assay (NPA) probes targeted 28S ribosomal RNA of Prorocentrum minimum and Prorocentrum micans, respectively, were designed in this study. The assay consists of S1 nuclease protection, sandwich hybridization and signal detection. The specificity of the probes was verified with cultured algae in the laboratory and field sample from Jiaozhou Bay, and the quantity by NPA-SH analysis showed good agreement with that of cell-counting with a light microscope. The optical absorbance of probe binding on the target showed good linear fit with cell amount. A standard curve for P. minimum was established to correlate the optical absorbance to cell density on a basis in the linear range between 15 and 475 cells ml⁻¹ seawater, and the equation deducted was ‘y = 0.0053 × x + 0.0658’ (R² = 0.992, n = 4). The assay was sensitive to detect 15 cells ml⁻¹ seawater. And for P. micans, with linear range between 0.6 and 20 cells ml⁻¹ seawater, the equation deducted was ‘y = 0.1174 × x + 0.1106’ (R² = 0.996, n = 4); the assay was sensitive to detect less than 1 cell ml⁻¹ seawater. The inter-assay coefficients of variation (CVs) were 12.4 and 10.9%, respectively. The good specificity, sensitivity and reproducibility of the NPA-SH implied that this new technique could be extremely useful for qualitative and quantitative assay of P. minimum and P. micans at low abundance.     

Development of sensitive,high-throughput one-tube RT-PCR-enzyme hybridisation assay to detect selected bacterial fish pathogens

Bacterial monitoring and surveillance is critical for the early detection of pathogens to avoid the spread of disease. To facilitate this, an efficient, high-performance and high-throughput method to detect the presence of femotgram amounts of ribosomal RNA from 4 bacterial fish pathogens: Aeromonas salmonicida; Tenacibaculum maritimum (formerly Flexibacter maritimus); Lactococcus garvieae; and Yersinia ruckeri was developed. The system uses NucleoLink strips for liquid- and solid-phase PCR in 1 tube, to perform RT-PCR-enzyme hybridisation assays (RT-PCR-EHA) detecting 4 fg or less of rRNA from pure cultures and between 1 and 9 CFU per 200 microl sample volume from selective-enrichment culture media. The liquid-phase amplicons were visualised by gel electrophoresis and the solid-phase amplicons detected using internal probes and visualised using colorimetric detection and p-nitrophenylphosphate.     

A mobility shift detection method for DNA methylation analysis using phosphate affinity polyacrylamide gel electrophoresis

We describe a procedure for DNA methylation analysis using the bisulfite-mediated cytosine-to-uracil conversion of a target DNA followed by methylation-specific polymerase chain reaction (MSP) and phosphate affinity polyacrylamide gel electrophoresis (PAGE). The MSP was performed using a 1:1 mixture of 5′-phosphorylated methylation-specific and 5′-OH non-methylation-specific primers. The PAGE using an immobilized phosphate-binding tag molecule (i.e., a polyacrylamide-bound dizinc(II) complex, Zn²⁺-Phos-tag), which selectively captures the 5′-phosphorylated DNA fragment, enabled the mobility shift detection of the methylation-specific product as a slower migration band. Using this novel procedure, we demonstrated the detection of a methylated cytosine base in a pUC19 plasmid.