A TaqMan PCR Method for Routine Diagnosis of the Quarantine Fungus Guignardia citricarpa on Citrus Fruit

With respect to disease risk for the quarantine fungus Guignardia citricarpa on citrus fruit an accurate diagnosis for routine analysis is required. Also, when inspections have to be performed on imported citrus fruits, a fast detection method is urgently needed. A fast automated DNA extraction method based on magnetic beads combined with a real‐time PCR assay was optimized to improve and advance the routine diagnosis of citrus black spot disease. Real‐time PCR was used for detection of the pathogen G. citricarpa in planta. A specific primer/TaqMan probe combination that discriminates between G. citricarpa and the harmless citrus endophyte Guignardia mangiferae, was designed based on the internal transcribed spacer region of the multi‐copy rDNA gene. Co‐amplification of target DNA along with an internal competitor DNA fragment made the diagnostic assay more reliable to check for false negatives. The real‐time PCR was specific, since no cross reaction was observed with a series of citrus pathogens and related species. The diagnostic assay was performed on lesions dissected from imported diseased oranges. Comparison between the conventional PCR and the real‐time PCR methods showed that the TaqMan method was more sensitive.     

Multiplex real-time PCR (TaqMan) assay for the simultaneous detection and discrimination of potato powdery and common scab diseases and pathogens

Aims: To develop a multiplex real‐time PCR assay using TaqMan probes for the simultaneous detection and discrimination of potato powdery scab and common scab, two potato tuber diseases with similar symptoms, and the causal pathogens Spongospora subterranea and plant pathogenic Streptomyces spp. Methods and Results: Real‐time PCR primers and a probe for S. subterranea were designed based on the DNA sequence of the ribosomal RNA ITS2 region. Primers and a probe for pathogenic Streptomyces were designed based on the DNA sequence of the txtAB genes. The two sets of primer pairs and probes were used in a single real‐time PCR assay. The multiplex real‐time PCR assay was confirmed to be specific for S. subterranea and pathogenic Streptomyces. The assay detected DNA quantities of 100 fg for each of the two pathogens and linear responses and high correlation coefficients between the amount of DNA and C_t values for each pathogen were achieved. The presence of two sets of primer pairs and probes and of plant extracts did not alter the sensitivity and efficiency of multiplex PCR amplification. Using the PCR assay, we could discriminate between powdery scab and common scab tubers with similar symptoms. Common scab and powdery scab were detected in some tubers with no visible symptoms. Mixed infections of common scab and powdery scab on single tubers were also revealed. Conclusions: This multiplex real‐time PCR assay is a rapid, cost efficient, specific and sensitive tool for the simultaneous detection and discrimination of the two pathogens on infected potato tubers when visual symptoms are inconclusive or not present. Significance and Impact of the Study: Accurate and quick identification and discrimination of the cause of scab diseases on potatoes will provide critical information to potato growers and researchers for disease management. This is important because management strategies for common and powdery scab diseases are very different.     

Species‐specific detection of Candida tropicalis using evolutionary conserved intein DNA sequences

Inteins (internal proteins) are self‐splicing transportable genetic elements present in conserved regions of housekeeping genes. The study highlights the importance of intein as a potential diagnostic marker for species‐specific identification of Candida tropicalis, a rapidly emerging opportunistic human pathogen. Initial steps of primer validation, sequence alignment, phylogenetic tree analysis, gel electrophoresis and real‐time polymerase chain reaction (PCR) assays were performed to confirm the specificity of the designed primers. The primers were selective for C. tropicalis with 100% inclusivity and showed no cross‐species or cross‐genera matches. The established technique is a prototype for developing multifaceted PCR assays and for point‐of‐care testing in near future.

Significance and Impact of the Study

Development of molecular markers for specific detection of microbial pathogens using real‐time polymerase chain reaction (PCR) is an appealing and challenging technique. A real‐time PCR is an emerging technology frequently used to detect the aetiologic agents. In recent times, designing species‐specific primers for pathogen detection is gaining momentum. The method offers rapid, accurate and cost‐effective strategy to identify the target, thus providing sufficient time to instigate appropriate chemotherapy. The study highlights the use of intein DNA sequence as molecular markers for species‐specific identification of Candida tropicalis. The study also offers a prototype model for developing multifaceted PCR assays using intein DNA sequences, and provides a developmental starting point for point‐of‐care testing in near future.     

Detection of Helicobacter pylori in stool samples of young children using real‐time polymerase chain reaction

Background

The aims of this study were to develop and validate a multiplex real‐time polymerase chain reaction (q‐PCR) assay of Helicobacter pylori in stool samples of healthy children. Additionally, we determined the prevalence of clarithromycin resistance and cagA gene in H. pylori‐positive samples.

Materials and methods

Archived stool samples from 188 children aged 6‐9 years and 272 samples of 92 infants aged 2‐18 months were tested for H. pylori antigens using enzyme immunoassay (EIA). A multiplex q‐PCR assay was designed to detect H. pylori 16S rRNA and urease and the human RNase P gene as an internal control. Kappa coefficient was calculated to assess the agreement between q‐PCR and EIA.

Results

Laboratory validation of the q‐PCR assay using quantitated H. pylori ATCC 43504 extracted DNA showed S‐shaped amplification curves for all genes; the limit of detection was 1 CFU/reaction. No cross‐reactivity with other bacterial pathogens was noted. Applying the multiplex q‐PCR to DNA extracted from fecal samples showed clear amplification curves for urease gene, but not for 16S rRNA. The prevalence of H. pylori infection was 50% (95% CI 43%‐57%) by q‐PCR (urease cycle threshold <44) vs 59% (95% CI 52%‐66%) by EIA. Kappa coefficient was .80 (P < .001) and .44 (P < .001) for children aged 6‐9 years and 2‐18 months, respectively. Sixteen samples were positive for cagA and three were positive for clarithromycin resistance mutation (A2143G) as confirmed by sequencing.

Conclusions

The developed q‐PCR can be used as a cotechnique to enhance the accuracy of H. pylori detection in epidemiological studies and in clinical settings.     

A multiplex nested PCR assay for simultaneous detection of Corchorus golden mosaic virus and a phytoplasma in white jute (Corchorus capsularis L.)

A multiplex nested PCR assay was developed by optimizing reaction components and reaction cycling parameters for simultaneous detection of Corchorus golden mosaic virus (CoGMV) and a phytoplasma (Group 16Sr V‐C) causing little leaf and bunchy top in white jute (Corchorus capsularis). Three sets of specific primers viz. a CoGMV specific (DNA‐A region) primer, a 16S rDNA universal primer pair P1/P7 and nested primer pair R16F2n/R2 for phytoplasmas were used. The concentrations of the PCR components such as primers, MgCl₂, Taq DNA polymerase, dNTPs and PCR conditions including annealing temperature and amplification cycles were examined and optimized. Expected fragments of 1 kb (CoGMV), 674 bp (phytoplasma) and 370 bp (nested R16F2n/R2) were successfully amplified by this multiplex nested PCR system ensuring simultaneous, sensitive and specific detection of the phytoplasma and the virus. The multiplex nested PCR provides a sensitive, rapid and low‐cost method for simultaneous detection of jute little leaf phytoplasma and CoGMV. Based on BLASTn analyses, the phytoplasma was found to belong to the Group 16Sr V‐C.

Significance and Impact of the Study

Incidence of phytoplasma diseases is increasing worldwide and particularly in the tropical and subtropical world. Co‐infection of phytoplasma and virus(s) is also common. Therefore, use of single primer PCR in detecting these pathogens would require more time and effort, whereas multiplex PCR involving several pairs of primers saves time and reduces cost. In this study, we have developed a multiplex nested PCR assay that provides more sensitive and specific detection of Corchorus golden mosaic virus (CoGMV) and a phytoplasma in white jute simultaneously. It is the first report of simultaneous detection of CoGMV and a phytoplasma in Corchorus capsularis by multiplex nested PCR.     

Development of a multiplex and real time PCR assay for the specific detection of Arcobacter butzleri and Arcobacter cryaerophilus

A new multiplex PCR and two specific TaqMan assays were developed to target the emerging pathogens A. butzleri and A. cryaerophilus. The assays also included an internal control to verify the presence of bacterial target DNA and amplification integrity. The multiplex assay used a published primer set (CRY1 and CRY2) for detecting A. cryaerophilus DNA (Houf, K., Tutenel, A., De Zutter, L., Van Hoof, J. and Vandamme, P., 2000. Development of a multiplex PCR assay for the simultaneous detection and identification of Arcobacter butzleri, Arcobacter cryaerophilus and Arcobacter skirrowii. FEMS microbiology letters, 193 (1): 89-94.) and a novel A. butzleri primer set designed to target the rpoB/C gene sequences. To improve sample throughput and assay sensitivity a TaqMan assay for each Arcobacter spp. was developed which again utilised the heterogeneity contained in the rpoB/C and 23s rRNA gene sequences. The two TaqMan assays provided >2 log improvement in detection sensitivity for both Arcobacter spp. compared with the multiplex PCR assay and were able to detect <10 CFU per PCR reaction. To evaluate the effectiveness of the Arcobacter TaqMan assays with field isolates the assays were used to screen DNA samples prepared from faecal, hide and environmental samples obtained from two meat processing plants. In these studies, the TaqMan assays revealed that 2/150 (1.3%) samples were A. butzleri-positive, 11/150 (7.3%) were A. cryaerophilus-positive and the identity of generated amplicons was confirmed by DNA sequencing. Our results show that these TaqMan assays provide improvements in sensitivity and species-representation over other published Arcobacter PCR assays and they are compatible with detecting Arcobacters in sub-optimal matrices.     

Establishment of an efficient multiplex real‐time PCR assay for human papillomavirus genotyping in cervical cytology specimens: comparison with hybrid capture II

J.‐H. Lee, N.‐W. Lee, S.‐W. Hong, Y.‐S. Nam, J.‐W. Choi and Y.‐S. Kim Establishment of an efficient multiplex real‐time PCR assay for human papillomavirus genotyping in cervical cytology specimens: comparison with hybrid capture II Objective: To establish an efficient multiplex real‐time PCR assay for 15 human papillomavirus (HPV) genotypes, we designed multiplexing parameters and compared our PCR system with the hybrid capture (HC) II test using cervical cytology samples. Methods: For preventing cross‐reactive amplifications, variable HPV genes (E1, E2, E6, E7 and L1) were targeted. The melting temperatures of all primers and probes, and the size of the PCR product were optimized for the multiplex PCR. Our PCR system was compared with the HC II assays in the detection and genotyping of HPV infection using 173 cytology smears. Discordant cases between the two assays were verified by direct HPV DNA sequencing. Results: Of 173 women, 93 (53.8%) were HPV‐positive by the HC II assay and/or the multiplex real‐time PCR assay. The HPV genotypes were determined in 92 (98.9%) of 93 cases by the multiplex real‐time PCR and/or DNA sequencing. The agreement rate between multiplex PCR and HC II methods was 91.9% (kappa = 0.84). Although the sample size of this study needs to be increased to have epidemiological significance, multiple infections and HPV 16 were the predominant type. HPV 58, 52 and 18 accounted for 25% of HPV infections. HPV 52, 58 and 31 constituted 30% of CIN 2/3. Conclusion: The multiplex real‐time PCR system shows a good and reliable clinical performance. This in house PCR assay is fast and cost‐effective for HPV genotyping and the detection of HPV co‐infection in the post‐HPV vaccination era.     

Enterotoxigenic Escherichia coli in sewage‐impacted waters and aquatic weeds: quantitative PCR for culture‐independent enumeration

Aim: To develop quantitative PCR for culture‐independent enumeration of enterotoxigenic Escherichia coli (ETEC) in sewage‐impacted waters and aquatic weeds. Methods and Results: Two fluorescent probes (TaqMan and FRET) based on two different real‐time PCR chemistries were designed in highly conserved region of LT1 gene encoding heat labile enterotoxin. Both the assays could detect 2 CFU ml^?1 from serially diluted (two‐fold and ten‐fold) culture of reference strain (E. coli MTCC 723). FRET performed better in terms of C_T value and PCR efficiency than TaqMan. The presence of 10⁶ CFU ml^?1 of nonpathogenic E. coli reduced the detection limit two‐fold with both the probes. However, the performance for two chemistries in various environmental samples was significantly (student’s t‐test, P < 0·05) different. Conclusion: It could be inferred from this study that real‐time PCR chemistries (TaqMan and FRET) could detect very few copies of target DNA in pure cultures, but may give varied response in the presence of nonspecific DNA and natural inhibitors present in environmental sample matrices. Significance and Impact of the Study: The assays can be used for pre‐emptive monitoring of aquatic weeds (a potential nonpoint source), surface and potable waters to prevent waterborne outbreaks caused by ETEC.     

Evaluation of a protocol for molecular broad-range diagnosis of culture-negative bacterial infections in clinical routine diagnosis

Aim: Introduction of a protocol for broad‐range diagnosis of bacterial infections, which remain negative in culture. Methods and Results: The new TaqMan real‐time PCR assay amplifies part of the 16S rRNA gene. Species are identified by subsequent sequencing and phylogenetic blast analysis. The analytical sensitivity showed to be 50 fg DNA per PCR. The lowest detectable bacterial cell concentration in blood was 1000 CFU per 200 μl EDTA‐blood. The utility in clinical routine diagnosis was evaluated by testing 136 clinical specimens. Bacterial pathogens were detected in 33 samples (24·3%) either by culture or molecular diagnosis. In 10 culture negative cases, pathogens such as Mycoplasma timone/orale, Ureaplasma parvum/urealyticum, Treponema pallidum, different streptococci and staphylococci were identified by molecular diagnosis only. Conclusions: The introduced broad‐range real‐time PCR protocol showed to be useful in the clinical routine in cases where bacterial infection was highly anticipated but culture remained negative. However, the obtained data have to be always interpreted with caution and in conjunction with the clinical data, crossing‐point values and with the Blast result of both the sample and the controls. Significance and Impact of the Study: This work introduces a new and well‐evaluated broad‐range real‐time PCR protocol for diagnosis of bacterial infections.     

A new fast real‐time PCR method for the identification of three sibling Apodemus species (A. sylvaticus,A. flavicollis,and A. alpicola) in Italy

The identification of field mice Apodemus flavicollis, Apodemus sylvaticus, and Apodemus alpicola represents a challenge for field scientists due to their highly overlapping morphological traits and habitats. Here, we propose a new fast real‐time PCR method to discriminate the three species by species‐specific TaqMan assays. Primers and probes were designed based on the alignment of 54 cyt‐b partial sequences from 25 different European countries retrieved from GenBank. TaqMan assays were then tested on 133 samples from three different areas of Italy. Real‐time PCR analysis showed 92 samples classified as A. flavicollis, 13 as A. sylvaticus, and 28 as A. alpicola. We did not observe any double amplification and DNA sequencing confirmed species assignment obtained by the TaqMan assays. The method is implementable on different matrices (ear tissues, tail, and blood). It can be used on dead specimens or on alive animals with minimally invasive sampling, and given the high sensitivity, the assay may be also suitable for degraded or low‐DNA samples. The method proved to work well to discriminate between the species analyzed. Furthermore, it gives clear results (amplified or not) and it does not require any postamplification handling of PCR product, reducing the time needed for the analyses and the risk of carryover contamination. It therefore represents a valuable tool for field ecologists, conservationists, and epidemiologists.     

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.     

Identification of surface protective antigen (spa) types in Erysipelothrix reference strains and diagnostic samples by spa multiplex real‐time and conventional PCR assays

Aim: To develop spa multiplex real‐time and conventional PCR assays to detect and differentiate between spaA, spaB and spaC genes within Erysipelothrix spp. Methods and Results: For evaluation of the assays, 28 Erysipelothrix spp. reference strains, 25 tissues from pigs inoculated with reference strains of serotypes 1, 2, 5, 10 or 18, and 15 diagnostic samples were used. SpaA was found to be present in Erysipelothrix rhusiopathiae serotypes 1a, 1b, 2, 5, 9, 12, 15, 16, 17, 23 and N; spaB was detected in E. rhusiopathiae serotypes 4, 6, 8, 11, 19 and 21 and spaC was detected in E. sp. strain 2 serotype 18. Spa‐related genes were not detected in E. tonsillarum strains (serotypes 3, 7, 10, 14, 20, 22, 24, 25, 26) or E. sp. strain 1 (serotype 13). With the spa multiplex real‐time PCR assay, it was also possible to further differentiate spaB into spaB1 (serotypes 4, 6, 8, 19 and 21) and spaB2 (serotype 11). Overall, spaA was detected in seven experimental tissue samples and six diagnostic tissue samples, and spaC in two experimental tissue samples. The detection limits were determined to be five colony‐forming units (CFU) per reaction for the spa multiplex real‐time PCR assay and 4000 CFU per reaction for the conventional PCR assay. Conclusions: Both spa PCR assays were specific and reproducible in the identification of spa types in Erysipelothrix spp. Significance and Impact of the Study: The described spa PCR assays may be useful tools for investigating spa prevalence among strains isolated from field tissues and to determine the role of the Spa proteins in vaccine protection and pathogenesis.     

Detection of Plant Pathogen Spores of Economic Significance on Pollen Trap Slides

Real‐time polymerase chain reaction (PCR) assays were used to evaluate a small number of samples from a volumetric spore trap normally used for counting pollen grains. Samples from a total of 6 days during July and August 2011 were screened. Pathogen DNA was detected from three of four groups of economically significant plant pathogens for which real‐time PCR assays were available. These were Tilletia spp. on 1 day, Puccinia spp. on 2 days and Fusarium spp. on all 6 days. No amplification of real‐time PCR assays was detected for Phytophthora infestans or P. ramorum. The results indicate that plant pathogens can be detected in air sampling networks, which are remote from arable cropping and deployed for other purposes. This has implications for rapidly identifying periods of pathogen dispersal and improving the accuracy of information on pathogen spore load in the atmosphere.     

Development and evaluation of a multiplex real-time PCR assay for the detection and differentiation of Moraxella bovis, Moraxella bovoculi and Moraxella ovis in pure culture isolates and lacrimal swabs collected from conventionally raised cattle

Aim: To develop a multiplex real‐time PCR assay for the detection and differentiation of Moraxella bovis (M. bovis), M. bovoculi and M. ovis. Methods and Results: The multiplex real‐time PCR assay was validated on three reference strains, 57 pure culture isolates and 45 lacrimal swab samples. All reference strains were identified correctly with no cross‐reactions between species. Sequencing of 53 of the 57 culture isolates confirmed the results obtained with the multiplex real‐time PCR, and the assay had 96·5% (55/57) concordance with a Moraxella spp. multiplex conventional PCR assay on the isolates. Among the lacrimal swab samples, the concordance between the multiplex real‐time PCR and culture was 86·7% (39/45) for M. bovoculi and 75·6% (34/45) for M. bovis. Conclusions: The multiplex real‐time PCR assay is specific and sensitive and can be used directly on lacrimal swab samples. Significance and Impact of Study: The lack of a rapid, specific and sensitive detection method is a barrier for determining the roles of M. bovis, M. bovoculi and M. ovis in infectious bovine keratoconjunctivitis cases, and the developed PCR assay will contribute to improved understanding of the epidemiology and pathogenesis of these three Moraxella species.     

Seeds as Vehicles for Pathogen Importation

Since the 1900s, consumer demand for new plant products gave opportunity for many plant pathogens to disseminate to new areas on imported seeds. New markets for plant commodities encouraged plant breeders to begin collecting seed stocks from abroad. The birth of new seed companies extend their markets to new area. These events began the global dissemination of many seedborne pathogens. Many seedborne pathogens gained entry and escaped detection by specific traits that favored their dissemination. Three recent case scenarios are presented that illustrate how plant pathogens that passively employ the seed coats of their host achieved global dissemination and permanence in each patho-system. Evidence is presented to show that asparagus (Asparagus officinalis) seed produced in the US acted as a vehicle for disseminating one vegetatively compatible group (VCG) of a pathogenic fungus on asparagus called Fusarium proliferatum throughout new plantings in Australia. Similarly, public demand for Mediterranean cuisine in the US and abroad during the last 20 years led to an increase in the importation of basil (Ocimum basilicum) seed along with an inconspicuous fungus called Fusarium oxysporum. The fungus caused a destructive disease called Fusarium wilt of basil that appeared in over 25 separate locals spanning three continents. The third example demonstrated how new developments in lupine (Lupinus spp.) cultivars and increased public demand led to the global dispersal of a seedborne pathogen called Colletotrichum gloeosporioides. Each case highlights how these pathogens use seeds, humans, and particular traits to disperse globally in short period of time.     

Detection of lethal yellowing phytoplasma in coconut plantlets obtained through in vitro germination of zygotic embryos from the seeds of infected palms

Lethal yellowing (LY) is a disease caused by 16SrIV phytoplasmas that has devastated coconut plantations in the Americas. An alternative means of phytoplasma spread is through seeds. Therefore, we used a novel approach based on plumules from the embryos of LY‐diseased coconut palms. We cultured the plumules in vitro to determine the presence of phytoplasma DNA in the plantlets. In the first assay, 185 embryos were obtained. The results showed positive detection in 20 samples (11%) with the nested PCR and in 59 samples (32%) with the TaqMan real‐time PCR. A second assay was designed to trace plumules to their respective embryos and haustorial tissues to determine whether they had derived from an embryo with positive LY detection; a total of 124 embryos were obtained. The results showed no positive detection with the nested PCR and positive detection in 42 of the haustorial tissue samples (32%) with the TaqMan real‐time PCR. The 124 plumules isolated from the embryos were cultivated under in vitro conditions and divided into two groups. Group A was followed for shoot formation and Group B was followed to the plantlet stage. After 3 months of cultivation, 33 cultures (50%) within Group A became necrotic; the rest were analysed to evaluate LY phytoplasma DNA with the TaqMan real‐time PCR assay and 14 (42%) tested positive. After 18 months of cultivation, 20 cultures (34%) within Group B became necrotic. The rest were analysed for the detection of the LY phytoplasma DNA, and 15 and 11 (39% and 29%) of the samples tested positive with the TaqMan real‐time PCR and nested PCR assays, respectively. Blast analysis of the sequenced products revealed that the sequences showed 99% homology with LY‐phytoplasma subgroup 16SrIV‐A. The results presented here demonstrate, for the first time, the occurrence of the transmission of LY phytoplasmas from coconut embryos to plantlets.     

Real‐time PCR Suggests that Aphanomyces euteiches is Associated with Reduced Amounts of Phytophthora medicaginis in Alfalfa that is Co‐inoculated with Both Pathogens

Aphanomyces euteiches and Phytophthora medicaginis are two pathogens of seedling and mature alfalfa (Medicago sativa L.) that are frequently found in the same field sites. In order to investigate possible interactions of these two pathogens, two greenhouse experiments were conducted on seedling alfalfa from check populations representing the phenotypic classes of dual susceptibility and dual resistance to both pathogens. Seedlings were challenged with multiple inoculum concentrations of A. euteiches and P. medicaginis. Separate real‐time PCR assays specific for A. euteiches and P. medicaginis were used to quantify the amount of each pathogen in root tissue. For both pathogens, significantly more pathogen DNA was detected in the susceptible check population Saranac than in the resistant check population WAPH‐1 in all treatment combinations. In general, co‐inoculation with both A. euteiches and P. medicaginis resulted in significantly reduced amounts of P. medicaginis DNA detected when compared with amounts detected from inoculations with P. medicaginis alone. This relationship was observed for the analysis of bulked plant samples and also for individual plants. Co‐infestation by both pathogens did not reduce the quantity of A. euteiches detected. Possible mechanisms responsible for the inhibition of accumulation of P. medicaginis by A. euteiches are discussed.     

Development of reverse transcription loop‐mediated isothermal amplification assay for sensitive and rapid detection of Hosta virus X

The one‐step real‐time turbidity loop‐mediated isothermal amplification assay (RealAmp) was developed to detect Hosta virus X (HVX), the most devastating threat to hosta industry. The reaction was performed in a single tube at 63°C for 15 min, and real‐time turbidimetry was used to monitor the amplification results. Specificity and sensitivity analyses demonstrated that this RealAmp method was sensitive as real‐time TaqMan RT‐PCR and about 100‐fold higher than conventional RT‐PCR with no cross‐reaction with other viral pathogens. Field samples detection showed that HVX could be identified effectively with this method. Overall, this RealAmp assay for HVX detection was simple, specific, sensitive, convenient and time‐saving and could assist in the quarantine measures for prevention and control of the disease caused by HVX.