Detection of microcystin-producing Microcystis in Guanqiao Lake using a sandwich hybridization assay

Based on sequence analyses of the mcyJ gene from Microcystis strains, a probe pair TJF and TJR was designed and a sandwich hybridization assay (SHA) was established to quantitatively detect microcystin-producing Microcystis. Through BLAST and cyanobacterial culture tests, TJF and TJR were demonstrated to be specific for microcystin-producing Microcystis. A calibration curve for the SHA was established, and the lowest detected concentration was 100 cells·mL(-1). Laboratory cultures and field samples from Guanqiao Lake were analyzed with both the SHA and microscopy. The cell number of microcystin-producing Microcystis and that of total Microcystis were compared. The biotic and abiotic components of the samples were of little disturbance to the SHA. In this study, a SHA was established to detect Microcystis, providing an alternative to PCR-ELISA and real-time PCR technology.     

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.     

重组酶聚合酶扩增结合CRISPR-Cas12a快速检测十足目虹彩病毒1方法的建立

[背景] 十足目虹彩病毒1（Decapod Iridescent Virus 1,DIV1）可感染南美白对虾、中国对虾和日本对虾等,是危害对虾养殖业的主要病毒之一。当前高效、快速、简便地检测对虾是否感染DIV1是减少其发生和危害的重要途径。[目的] 将成簇的规律间隔短回文重复序列（Clustered Regularly Interspaced Short Palindromic Repeats,CRISPR）及其相关蛋白12a （CRISPR Associated Protein 12a,Cas12a）,即CRISPR-Cas12a系统,与重组酶聚合酶扩增（Recombinase Polymerase Amplification,RPA）技术相结合,建立快速检测DIV1的方法（RPA-Cas12a）,并探讨该方法在实际样本检验中的应用价值。[方法] 通过提取DIV1 DNA,设计其RPA引物、crRNA及报告探针,优化并建立RPA结合CRISPR-Cas12a的快速检测方法,进一步分析该方法检测DIV1的灵敏度与特异性,并比较建立的方法与qPCR法的一致性。[结果] 建立的RPA-Cas12a快速检测方法可在40 min内实现对虾样本DNA中DIV1的检测,检测限为10 copies/reaction。用该方法分别对对虾白斑综合征病毒（White Spot Syndrome Virus,WSSV）、传染性皮下及造血组织坏死病毒（Infectious Hypodermal and Hematopoietic Necrosis Virus,IHHNV）、虾肝肠胞虫（Enterocytozoon Hepatopenaei,EHP）及DIV1进行检测,结果仅DIV1发生特异性反应,而WSSV、IHHNV和EHP的检测结果均为阴性。采用RPA-Cas12a检测61份实际样本,结果均与qPCR检测法的阳性检出率一致。[结论] 建立的RPA-Cas12a方法检测十足目虹彩病毒1具有快速、简便、灵敏度高且特异性强的特点,为十足目虹彩病毒1的快速检测提供了新的工具。     

实时荧光重组酶聚合酶扩增技术(RPA)快速检测Ⅱ型鲤疱疹病毒

【背景】Ⅱ型鲤疱疹病毒(Cyprinid Herpesvirus 2,CyHV2)感染鲫引起的疱疹病毒性造血器官坏死病(Herpes Viral Haematopoietic Necrosis,HVHN)是鲫养殖业的主要病害,造成严重的经济损失。目前尚无治疗HVHN的有效药物。对CyHV2进行早期监测和有效防控是阻止该病暴发的有效手段。【目的】建立一种针对CyHV2的orf72基因的实时荧光重组酶聚合酶扩增技术(Recombinase Polymerase Amplification,RPA)检测方法,并评价其特异性和灵敏度。【方法】通过比较CyHV2五株毒株间orf72核苷酸序列,在保守区设计特异性引物和探针。设置5个反应温度,优化实时荧光RPA反应的条件。在最优的条件下验证实时荧光RPA检测方法在不同水产动物病毒间的特异性。以梯度稀释的CyHV2阳性DNA为模板比较实时荧光RPA与qPCR的灵敏度。【结果】实时荧光RPA能在37.8°C条件下20 min内快速准确地检测CyHV2病毒,而且种间特异性高,与其他病毒无交叉反应,反应灵敏度与qPCR相同。【结论】研究建立的实时荧光RPA...     

Monitoring for Heterosigma akashiwo using a sandwich hybridization assay

Field testing of a ribosomal RNA (rRNA)-targeted sandwich hybridization assay (SHA) for Heterosigma akashiwo (Raphidophyceae) in Puget Sound, WA, USA, has showed that the lower limit of detection is well below the level at which cells pose a danger to fish. Moreover, the assay has proven to be both rapid and easy-to-use. Isolates of H. akashiwo from Australia, Japan, New Zealand, South Korea, Spain and USA were correctly identified using the SHA, indicating that this diagnostic tool could be deployed globally. Samples containing H. akashiwo can be preserved for subsequent SHA analysis using several methods: fixation with acidic Lugol’s iodine followed by room temperature storage, collection onto Durapore filters followed by storage at −70 °C or, alternatively, the filters are mixed with a lysis solution buffer and the sample lysate stored at −70 °C. Additionally, we sought to determine whether the SHA could successfully detect H. akashiwo in the presence of clay that might some day be used to mitigate the impacts of natural H. akashiwo blooms. Results from preliminary laboratory trials indicate that clay at the maximum proposed dosage rate does not interfere with the assay. Thus, it may be possible to use the SHA as a simple means of following the fate of H. akashiwo cells during larger-scale clay mitigation trials.     

Detection of several harmful algal species by sandwich hybridization integrated with a nuclease protection assay

The frequent occurrence of harmful algal blooms (HABs) is a pressing topic in marine research. An integrated sandwich hybridization and nuclease protection assay was established to qualitatively and quantitatively detect 12 harmful algal species. This method demonstrated good reliability, specificity and accuracy for analyzing samples from individual and mixed cultures, as well as field collection, and cell volumes were positively correlated to the slopes of calibration curves. The lowest quantitative detection limits were those concentrations observed during blooms; thus, this technique provides an efficient alternative to microscopy for rapid identification and quantitation of harmful algal species and could be routinely used to monitor phytoplankton in field surveys.     

Rapid detection of infectious bovine Rhinotracheitis virus using recombinase polymerase amplification assays

Background

Infectious bovine rhinotracheitis virus (IBRV) is a major pathogen in cattle and has led to significant economic losses to the dairy industry worldwide, and therefore a more optimal method for the rapid diagnosis of IBRV infection is highly needed. In this study, we described the development of a lateral flow dipstrip (LFD) of isothermal recombinase polymerase amplification (RPA) method for rapid detection of IBRV.

Methods

Distinct regions were selected as a candidate target for designing the LFD-RPA primers and probes. The analytical sensitivity of the RPA assay was determined using ten-fold serially diluted IBRV DNA. The specificity of the assay was assessed with other viral pathogens of cattle with similar clinic and other herpesviruses. The clinical performance was evaluated by testing 106 acute-phase high fever clinical specimens.

Results

RPA primers and probe were designed to target the specific conserved UL52 region fragment of IBRV. The detection could be completed at a constant temperature of 38 °C for 25 min, and the amplification products were easily visualized on a simple LFD. The detection limit of this assay was 5 copies per reaction of IBRV DNA and there was no cross-reactivity with other viruses causing bovine gastrointestinal and respiratory infections or other herpesviruses. The assay performance on acute-phase high fever clinical samples collected from cattle with no vaccine against IBRV, which were suspected to be infected with IBRV, was validated by detecting 24 fecal, 36 blood, 38 nasal swab and 8 tissue specimens, and compared with SYBR Green I based real-time PCR. The coincidence between IBRV LFD-RPA and real-time PCR was 100%.

Conclusion

IBRV LFD-RPA was fast and much easier to serve as an alternative to the common measures used for IBRV diagnosis, as there is reduction in the use of instruments for identification of the infected animals. In addition, this assay may be the potential candidate to be used as point-of-care diagnostics in the field.

     

Development and evaluation of a broadly reactive reverse transcription recombinase polymerase amplification assay for rapid detection of murine norovirus

Background

Murine norovirus (MNV) is recognized as the most prevalent viral pathogen in captive mouse colonies. The rapid detection assay for MNV would be a useful tool for monitoring and preventing MNV infection. A recombinase polymerase amplification (RPA) assay was established in this study to provide a solution for rapid and sensitive detection of MNV.

Results

The detection limit of the RT-RPA assay for the detection of MNV was 1?×?10² copies of RNA molecules per reaction. The assay was specific since there was no cross-reaction with other common murine viruses. In addition, the broad reactivity of the RT-RPA assay was validated using the synthesized template carrying seven point mutations among several MNV strains. The MNV RT-RPA assay could detect as few as 1?×?10² copies of the mutant per reaction, suggesting the assay could be broadly reactive against a large diversity of MNV strains. Forty eight clinical samples including 16 gastric tissue specimens, 16 cecal tissue specimens and 16 fecal specimens were tested for the validation of the new developed RT-RPA assay. The detection results of RT-RPA and RT-qPCR for clinical samples were very similar, except that a gastric tissue sample which was positive by RT-qPCR, with a RNA titer of 27 copies, was negative by RT-RPA.

Conclusions

A broadly reactive RT-RPA assay was successfully established for MNV detection.

     

A rapid real-time recombinase polymerase amplification assay for diagnosis of acute hepatopancreatic necrosis disease in shrimp

Acute hepatopancreatic necrosis disease(AHPND)is an emerging disease in the shrimp farming industry with a high mortality rate that causes serious economic loss...     

Development of a recombinase polymerase amplification combined with a lateral flow dipstick assay for rapid detection of the <Emphasis Type="Italic">Mycoplasma bovis</Emphasis>

Background

Mycoplasma bovis (M. bovis) is a major etiological agent of bovine mycoplasmosis around the world. Point-of-care testing in the field is lacking owing to the requirement for a simple, robust field applicable test that does not require professional laboratory equipment. The recombinase polymerase amplification (RPA) technique has become a promising isothermal DNA amplify assay for use in rapid and low-resource diagnostics.

Results

Here, a method for specific detection of M. bovis DNA was established, which was RPA combined with lateral flow dipstick (LFD). First, the analytical specificity and sensitivity of the RPA primer and LF-probe sets were evaluated. The assay successfully detected M. bovis DNA in 30?min at 39 °C, with detection limit of 20 copies per reaction, which it was compared the real-time quantitative PCR (qPCR) assay. This method was specific because it did not detect a selection of other bacterial pathogens in cattle. Both qPCR and RPA-LFD assays were used to detect M. bovis 442 field samples from 42 different dairy farms in Shandong Province of China, also the established RPA-LFD assay obtained 99.00% sensitivity, 95.61% specificity, and 0.902 kappa coefficient compared with the qPCR.

Conclusions

To the author’s knowledge, this is the first report using an RPA-FLD assay to visualise and detect M. bovis. Comparative analysis with qPCR indicates the potential of this assay for rapid diagnosis of bovine mycoplasmosis in resource limited settings.

     

Sensitive and semiquantitative detection of soil-transmitted helminth infection in stool using a recombinase polymerase amplification-based assay

BackgroundSoil-transmitted helminths (STHs) are parasitic nematodes that inhabit the human intestine. They affect more than 1.5 billion people worldwide, causing physical and cognitive impairment in children. The global strategy to control STH infection includes periodic mass drug administration (MDA) based on the results of diagnostic testing among populations at risk, but the current microscopy method for detecting infection has diminished sensitivity as the intensity of infection decreases. Thus, improved diagnostic tools are needed to support decision-making for STH control programs.MethodologyWe developed a nucleic acid amplification test based on recombinase polymerase amplification (RPA) technology to detect STH in stool. We designed primers and probes for each of the four STH species, optimized the assay, and then verified its performance using clinical stool samples.Principal findingsEach RPA assay was as sensitive as a real-time polymerase chain reaction (PCR) assay in detecting copies of cloned target DNA sequences. The RPA assay amplified the target in DNA extracted from human stool samples that were positive for STH based on the Kato-Katz method, with no cross-reactivity of the non-target genomic DNA. When tested with clinical stool samples from patients with infections of light, moderate, and heavy intensity, the RPA assays demonstrated performance comparable to that of real-time PCR, with better results than Kato-Katz. This new rapid, sensitive and field-deployable method for detecting STH infections can help STH control programs achieve their goals.ConclusionsSemi-quantitation of target by RPA assay is possible and is comparable to real-time PCR. With proper instrumentation, RPA assays can provide robust, semi-quantification of STH DNA targets as an alternative field-deployable indicator to counts of helminth eggs for assessing infection intensity.     

A rapid detection of tomato yellow leaf curl virus using recombinase polymerase amplification-lateral flow dipstick assay

Tomato yellow leaf curl disease which is caused by Tomato yellow leaf curl virus (TYLCV) is economically important and a widely spread tomato disease in China. Rapid and accurate detection methods are important in the control TYLCV. Here, a rapid method was developed to identify TYLCV on the basis of recombinase polymerase amplification (RPA) that can be visualized in 5 min using lateral flow dipsticks. The sensitivity and the specificity of this method were evaluated. This method can detect 0·5 pg DNA after 30 min at 37°C without any expensive instrumentation. In addition, it showed higher sensitivity than a PCR method when purified DNA was used. Moreover, the TYLCV was specifically detected, whereas other viruses infecting tomato produced negative results. The crude tomato extracts used in this assay has potential application in minimally equipped plant clinic laboratories. This method will facilitate the early and rapid detection of TYLCV for the timely application of control measures.     

Rapid and sensitive detection of Vibrio alginolyticus pathogenic strains by real-time recombinase polymerase amplification

Vibrio alginolyticus is a halophilic Gram-negative bacterium dis-tributed widely in oceans and estuaries.In the mariculture industry,it is one of the most virul...     

Improved multiple displacement amplification with phi29 DNA polymerase for genotyping of single human cells

The ability to genotype multiple loci of single cells would be of significant benefit to investigations of cellular processes such as oncogenesis, meiosis, fertilization, and embryogenesis. We report a simple two-step, single-tube protocol for whole-genome amplification (WGA) from single human cells using components of the GenomiPhi V2 DNA Amplification kit. For the first time, we demonstrate reliable generation of 4-7 microg amplified DNA from a single human cell within 4 h with a minimum amount of artifactual DNA synthesis. DNA amplified from single cells was genotyped for 13 heterozygous short tandem repeats (STRs) and 7 heterozygous single nucleotide polymorphisms (SNPs), and the genotyping results were compared with purified genomic DNA. Accuracy of genotyping (percent of single-cell amplifications genotyped accurately for any particular STR or SNP) varied from 37% to 100% (with an average of 80%) for STRs and from 89% to 100% (averaging 94%) for SNPs. We suggest that the method described in this report is suitable for WGA from single cells, the product of which can be subsequently used for many applications, such as preimplantation genetic analysis (PGD).     

Colorimetric detection of the toxic dinoflagellate Alexandrium minutum using sandwich hybridization in a microtiter plate assay

Rapid and reliable detection of harmful algae in coastal areas and shellfish farms is an important requirement for monitoring programs. Molecular technologies are rapidly improving the detection of phytoplankton and their toxins. Assays are based on the discrimination of genetic differences in the species. A commercially available PCR ELISA Dig Detection Kit in a microtiter plate was adapted for the rapid assessment of specificity of the two probes used in a sandwich hybridization assay. The toxic dinoflagellate Alexandrium minutum was used as the target organism and a capture and signal probe were designed for a species-specific identification of this species. This assay also provided the necessary specificity tests prior to the probes being adapted to an automated biosensor using a sandwich hybridization format. All probes regardless of the detection method must be extensively tested prior to use in the field. Total rRNA was isolated from three different strains of A. minutum and the mean concentration of RNA per cell of was determined to be 0.028 ng ± 0.003. Thus, a standard calibration curve for different RNA concentrations was determined so that cell numbers could be inferred from the assay. The assay and the standard curve were evaluated by using spiked field samples. The results demonstrated that the molecular assay was able to detect A. minutum cells at different cell counts in the presence of a complex background.     

Detection of Streptococcus pneumoniae DNA by using polymerase chain reaction and microwell hybridization with Europium-labelled probes

The present paper describes a novel modification of polymerase chain reaction (PCR) for the detection of Streptococcus pneumoniae DNA in clinical specimens. PCR was based on the detection of a 209-base pair segment of the S. pneumoniae pneumolysin gene. For the demonstration of the amplification product, microwell hybridization with a Europium-labelled oligonucleotide probe complementary to a biotinylated strand of the PCR product was performed, and the presence of the PCR product was monitored by time-resolved fluorescence (TRF) of the Europium chelate. The sensitivity of the assay for purified S. pneumoniae DNA was 50 fg DNA corresponding to 20 genome equivalents of S. pneumoniae DNA. The efficiency of the hybridization step was monitored by using known amounts of synthetic target oligonucleotides as standards. Sensitivity of 3×10⁸ molecules per individual reaction well was achieved with a 30-min attachment time and a 3-h hybridization time.

Detection of PCR-amplified products by the microwell hybridization technique and TRF was compared to agarose gel electrophoresis in 50 middle ear fluid samples obtained from children with acute otitis media. The agarose gel and TRF detection methods identified all culture-positive samples, but both were also positive for 55% of the culture-negative samples. The results suggest that the detection of amplified PCR products by microwell hybridization using Europium-labelled oligonucleotides is a reliable method for the demonstration of the pneumolysin gene fragment. Furthermore, the method is suitable for automation and, thus, for testing high numbers of samples. The clinical significance of the PCR findings remains to be studied.