A novel multiplex PCR assay for Salmonella subspecies identification

Aim:  To develop a novel multiplex polymerase chain reaction (PCR) assay with six primer pairs for Salmonella subspecies identification.
Methods and Results:  Five primer pairs were chosen to detect the genes ( fljB , mdcA , gatD , stn and STM4057) responsible for several phenotypic traits or encoding (sub) species-specific regions. A primer pair for invA was added to simultaneously detect Salmonella . The combination of these primer pairs was expected to give unique results to all subspecies, including Salmonella bongori. The multiplex PCR assay was optimized and evaluated with 53 Salmonella strains representing all S. enterica subspecies, S. bongori and five non- Salmonella strains. The multiplex PCR assay revealed that the genotypes were well correlated with the phenotypes in the Salmonella strains tested. The unique band patterns to their subspecies were generated from 94·3% (50/53) of the Salmonella strains, and no product from other strains by the multiplex PCR assay.
Conclusions:  The multiplex PCR assay we developed was found to be a rapid, specific and easy to perform method compared with traditional biochemical tests for Salmonella subspecies identification, especially for rapid screening of large numbers of samples.
Significance and Impact of the Study:  The assay will be useful for characterizing Salmonella isolates from reptiles, which belong to various subspecies, and therefore add to the scientific understanding of reptile-associated Salmonellosis.     

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.     

Development of a rapid,reliable and simple multiplex PCR assay for early detection of transgenic plant materials

Multiplex PCR is a variant of conventional PCR which includes two or more pairs of primers in a single reaction to amplify corresponding genes simultaneously. In this study, a reliable multiplex PCR analysis protocol was established for simple and fast detection of transgenes in plant materials. Two pairs of primers, corresponding to neomycin phosphotransferase gene and 1-aminocyclopropane-1-carboxylate synthase gene, were selected for target and resident gene respectively. The method bypasses routine DNA extraction, requires only very little amount of plant tissue and produces reliable results as shown by successful discrimination of transformed and nontransformed tobacco, tomato and kumquat materials. The method facilitates early identification of transgenic buds when they are still quite small.     

Isolation and multiplex genotyping of polymorphic microsatellite DNA markers in the snakehead murrel, Channa striata

Seven polymorphic microsatellite loci were isolated and characterized for the snakehead murrel, Channa striata (Channidae), a valuable tropical freshwater fish species. Among 25 specimens collected from Kedah state in Malaysia, the number of alleles per locus ranged from 2 to 7. Observed and expected heterozygosities ranged from 0.120 to 0.880 and 0.117 to 0.698, respectively. A single locus (CS1-C07) was significantly deviated from Hardy-Weinberg equilibrium after Bonferroni correction. These novel markers would be useful for population genetic studies of the C. striata.     

Quantitative PCR assessment of microsatellite and SNP genotyping with variable quality DNA extracts

In this study we developed eight quantitative PCR (qPCR) assays to evaluate the starting copy number of nuclear and mitochondrial DNA fragments ranging from 75 to 350 base-pairs in DNA extracts from Chinook salmon tissues with varying quality. Samples were genotyped with 13 microsatellite and 29 SNP assays and average genotyping success for good, intermediate, and poor quality samples was 96%, 24%, and 24% for microsatellite loci, and 98%, 97%, and 79% for SNPs, respectively. As measured by qPCR, good quality samples had a consistently high number of starting copies across all fragment sizes with little change between the smallest and largest size. In contrast, the intermediate and poor quality samples displayed decreases in starting copy number as fragment size increased, and was most pronounced with poor samples. Logistic regression of genotyping success by starting copy number indicated that in order to achieve at least 90% genotyping success, approximately 1,000 starting copies of nuclear DNA are necessary for microsatellite loci, and as few as 14 starting copies for SNP assays (but we recommend at least 50 copies to reduce genotyping error). While these guidelines apply specifically to Chinook salmon and the genetic markers included in this study, the principles are transferable to other species and markers due to the underlying process associated with template quantity and PCR amplification.     

Absolute quantitation of a heteroplasmic mitochondrial DNA deletion using a multiplex three-primer real-time PCR assay

Quantitation of wild-type and deleted mitochondrial DNA (mtDNA) coexisting within the same cell (a.k.a., heteroplasmy) is important in mitochondrial disease and aging. We report the development of a multiplex three-primer PCR assay that is capable of absolute quantitation of wild-type and deleted mtDNA simultaneously. Molecular beacons were designed to hybridize with either type of mtDNA molecule, allowing real-time detection during PCR amplification. The assay is specific and can detect down to six copies of mtDNA, making it suitable for single-cell analyses. The relative standard deviation in the threshold cycle number is approximately 0.6%. Heteroplasmy was quantitated in individual cytoplasmic hybrid cells (cybrids), containing a large mtDNA deletion, and bulk cell samples. Individual cybrid cells contained 100-2600 copies of wild-type mtDNA and 950-4700 copies of deleted mtDNA, and the percentage of heteroplasmy ranged from 43+/-16 to 95+/-16%. The average amount of total mtDNA was 3800+/-1600 copies/cybrid cell, and the average percentage of heteroplasmy correlated well with the bulk cell sample. The single-cell analysis also revealed that heteroplasmy in individual cells is highly heterogeneous. This assay will be useful for monitoring clonal expansions of mtDNA deletions and investigating the role of heteroplasmy in cell-to-cell heterogeneity in cellular models of mitochondrial disease and aging.     

牛巴氏杆菌病多重PCR检测技术的建立与应用

【背景】牛巴氏杆菌病是由血清型(A、B、E)多杀性巴氏杆菌(Pasteurella multocida,Pm)引起的一种严重危害养牛业的重要传染病,病原学聚合酶链反应(polymerase chain reaction,PCR)方法是诊断并防控该病的有效手段。【目的】建立检测血清型(A、B、E)多杀性巴氏杆菌的多重PCR方法,为临床诊断牛巴氏杆菌病和病原分型提供技术支撑。【方法】参考多杀性巴氏杆菌hyaD-hyaC基因、bcbD基因和ecbJ基因特异区域,设计3对特异性引物,以温度梯度PCR法确定适宜退火温度(T_m);采用棋盘试验优化引物浓度并初步建立多重PCR方法;采用重组质粒标准品及阳性菌株菌液确定其敏感性(最小检测量);以8种常见牛感染病原体[溶血性曼氏杆菌(Mannheimia hemolytica)C1655、大肠埃希氏菌(Escherichia coli)C237、产单核细胞李氏杆菌(Listeria monocytogenes)C1597、金黄色葡萄球菌(Staphylococcus aureus)C3053、都柏林沙门氏菌(Salmonella dublin)C79351、副结核分枝杆菌(Mycobacterium paratuberculosis)C1625、牛传染性鼻气管炎病毒(bovine infectious rhinotracheitis virus)CAV1546和牛支原体分离株(Mycoplasma bovis)C65-1]核酸样本确定其特异性;制备3批诊断试剂,对敏感性和特异性样品进行批间和批内试验,确定其重复性;运用建立的方法使用3种不同型号的PCR仪检测敏感性和特异性样品,确定其适用性;通过检测临床样本及人工模拟感染样本评价临床应用效果。【结果】在T_m为55℃时,3对引物浓度分别为0.25、0.30和0.20μmol/L条件下建立多重PCR方法较优,可以同时检测多杀性巴氏杆菌血清A型(821bp)、血清B型(203bp)和血清E型(363bp);该方法敏感性高,对重组质粒标准品pMD-A、pMD-B和pMD-E检测限分别为43.080、3.710和4.350copies/μL,对阳性菌液最低检出限均为10²CFU细菌;其特异性强,仅对血清型(A、B、E)多杀性巴氏杆菌有特异性扩增条带,同时对其他病原体均无扩增条带;该方法重复性良好,批间与批内试验均一致;临床样本及人工模拟感染样本检测结果显示与病原分离鉴定符合率为100%。【结论】成功建立了一种可鉴定不同血清型的牛多杀性巴氏杆菌多重PCR检测方法。     

A novel multiplex PCR assay for the detection of Salmonella enterica serovar Enteritidis in human faeces

AIMS: To develop a multiplex PCR assay for the detection of Salmonella enterica serovar Enteritidis in human faeces. METHODS AND RESULTS: A total of 54 Salmonella strains representing 19 serovars and non-Salmonella strains representing 11 different genera were used. Five primer pairs were employed in the assay. Three of them targeted to the genes hilA, spvA and invA that encode virulence-associated factors. A fourth primer pair amplified a fragment of a unique sequence within S. enterica serovar Enteritidis genomes. An internal amplification control (a fragment of a conservative sequence within the 16S rRNA genes) was targeted by a fifth primer pair. The assay produced two or three amplicons from the invA, hilA and 16S rRNA genes for 19 Salmonella serovars. All Salmonella and non-Salmonella strains yielded a band of an internal amplification control. For S. enterica serovar Typhimurium, four products (the fourth from the spvA gene), and for S. enterica serovar Enteritidis five amplicons (the fifth from the sdf gene) were observed. S. enterica serovar Enteritidis was cultured from three of 71 rectal swabs from diarrhoeal patients. Five specific amplicons were generated with the multiplex PCR assay only from culture-positive faecal samples. CONCLUSION: The multiplex PCR assay specifically detects S. enterica serovar Enteritidis. SIGNIFICANCE AND IMPACT OF THE STUDY: This is a novel multiplex PCR assay, which contains an internal amplification control and enables concurrent survey for Salmonella virulence genes.     

A novel multiplex PCR assay for the identification of Indian crocodiles

Illegal hunting has been a major threat for the survival of wildlife fauna, including the three crocodile species that India harbours: Crocodylus palustris, Crocodylus porosus and Gavialis gangeticus. Although law prevents trade on these species, illicit hunting for trade continues to threaten the survival of these endangered species; conservation strategies therefore require a rapid molecular identification technique for Indian crocodiles. A multiplex polymerase chain reaction (PCR) assay with species-specific primers, considered as one of the most effective molecular techniques, is described herein. The primers were designed to yield species-specific sized amplicons. The assay discriminates the three Indian crocodile species unambiguously within a short time period using only simple agarose gel electrophoresis. We recommend this multiplex PCR assay to be used in the identification of Indian crocodile species.     

Effects of membrane reference state on shape memory of a red blood cell

By using a three-dimensional continuum model, we simulate the shape memory of a red blood cell after the remove of external forces. The purpose of this study is to illustrate the effect of membrane reference state on cell behavior during the recovery process. The reference state of an elastic element is the geometry with zero stress. Since the cell membrane is composed of cytoskeleton and lipid bilayer, both the reference states of cytoskeleton (RSC) and lipid bilayer (RSL) are considered. Results show that a non-spherical RSC can result in shape memory. The energy barrier due to non-spherical RSC is determined by the ratio of the equator length to the meridian length of the RSC. Thus different RSCs can have similar energy barrier and leading to identical recovery response. A series of simulations of more intermediate RSCs show that the recovery time scale is inversely proportional to the energy barrier. Comparing to spherical RSL, a spheroid RSL contributes to the energy barrier and recovery time. Furthermore, we observe a folding recovery due to the biconcave RSL which is different from the tank treading recovery. These results may motivate novel numerical and experimental studies to determine the exact RSC and RSL.     

Rapid detection and differentiation of Erysipelothrix spp. by a novel multiplex real‐time PCR assay

Aim: The aim of this study was to develop a multiplex real‐time PCR assay for the identification and discrimination of Erysipelothrix rhusiopathiae, tonsillarum and Erysipelothrix sp. strain 2 for direct detection of Erysipelothrix spp. from animal specimens. Methods and Results: A primer set and three species‐specific probes with different end labelling were designed from the noncoding region downstream of the 5S rRNA coding region. The sensitivity, specificity and repeatability of the assay were validated by analysing 27 Erysipelothrix spp. reference serotype strains and ten septicemia‐associated non‐Erysipelothrix spp. bacterial isolates. Cross‐reactivity with Erysipelothrix sp. strain 1 was not observed with any of the primer probe combinations. The detection limit was determined to be <10 colony forming units and as low as one genome equivalent per PCR . Further evaluation of the Erysipelothrix spp. multiplex PCR was performed by comparing an enrichment isolation culture method and a conventional differential PCR on 15 samples from pigs experimentally inoculated with Erysipelothrix spp. and 22 samples from pigs with suspected natural infection. Conclusion: The multiplex real‐time PCR assay was found to be simple, rapid, reliable, specific and highly sensitive. Significance and Impact of the Study: The developed real‐time multiplex PCR assay does not require cumbersome and lengthy cultivation steps prior to DNA extraction, obtained comparable results to enrichment isolation, and will be useful in diagnostic laboratories for rapid detection of Erysipelothrix spp.     

Universal primers for fluorescent labelling of PCR fragments--an efficient and cost-effective approach to genotyping by fluorescence

Directly labelling locus‐specific primers for microsatellite analysis is expensive and a common limitation to small‐budget molecular ecology projects. More cost‐effective end‐labelling of PCR products can be achieved through a three primer PCR approach, involving a fluorescently labelled universal primer in combination with modified locus‐specific primers with 5′ universal primer sequence tails. This technique has been widely used but has been limited largely due to a lack of available universal primers suitable for co‐amplifying large numbers of size overlapping loci and without requiring locus‐specific PCR conditions to be modified. In this study, we report a suite of four high‐performance universal primers that can be employed in a three primer PCR approach for efficient and cost‐effective fluorescent end‐labelling of PCR fragments. Amplification efficiency is maximized owing to high universal primer Tm values (approximately 60+ °C) that enhance primer versatility and enable higher annealing temperatures to be employed compared with commonly used universal primers such as M13. We demonstrate that these universal primers can be combined with multiple fluorophores to co‐amplify multiple loci efficiently via multiplex PCR. This method provides a level of multiplexing and PCR efficiency similar to microsatellite fluorescent detection assays using directly labelled primers while dramatically reducing project costs. Primer performance is tested using several alternative PCR strategies that involve both single and multiple fluorophores in single and multiplex PCR across a wide range of taxa.     

Application of multiplex-ready PCR for fluorescence-based SSR genotyping in barley and wheat

Microsatellites (SSRs) are widely used in cereal research, and their use in marker assisted breeding has increased the speed and efficiency of germplasm improvement. Central to the application of SSRs for many purposes are methodologies enabling the low-cost acquisition of large quantities of genetic information for gene and genotype identification. In this study, multiplex-ready PCR was evaluated in barley and bread wheat as an approach for rapid and more automated SSR genotyping on a fluorescence-based DNA fragment analyzer. Multiplex-ready PCR is a method that allows SSR genotyping to be performed using a standardized protocol. The method enables flexible fluorescence labeling of SSRs, generates a relatively constant amount of PCR product for each marker, and has a high amenability to multiplex PCR (the simultaneous amplification of several SSRs in the same reaction). A high (92%) compatibility of published SSRs with multiplex-ready PCR is demonstrated, and the usefulness of the method for large scale genotyping is shown by its application for whole genome marker assisted breeding in barley. A database of more than 2,800 barley and wheat SSRs, and a suite of bio-informatic tools were developed to support the deployment of multiplex-ready PCR for various genetic applications, and are accessible at . Multiplex-ready PCR is broadly applicable to cereal genomics research and marker assisted breeding, and should be transferable to similar analyses of any animal or plant species.     

Validation of a DNA methylation reference panel for the estimation of nucleated cells types in cord blood

Cord blood is widely used as surrogate tissue in epigenome-wide association studies of prenatal conditions. Cell type composition variation across samples can be an important confounder of epigenome-wide association studies in blood that constitute a mixture of cells. We evaluated a newly developed cord blood reference panel to impute cell type composition from DNA methylation levels, including nucleated red blood cells (nRBCs). We estimated cell type composition from 154 unique cord blood samples with available DNA methylation data as well as direct measurements of nucleated cell types. We observed high correlations between the estimated and measured composition for nRBCs (r = 0.92, R² = 0.85), lymphocytes (r = 0.77, R² = 0.58), and granulocytes (r = 0.72, R² = 0.52), and a moderate correlation for monocytes (r = 0.51, R² = 0.25) as well as relatively low root mean square errors from the residuals ranging from 1.4 to 5.4%. These results validate the use of the cord blood reference panel and highlight its utility and limitations for epidemiological studies.     

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.     

Two-step multiplex polymerase chain reaction improves the speed and accuracy of genotyping using DNA from noninvasive and museum samples

Many studies in molecular ecology rely upon the genotyping of large numbers of low‐quantity DNA extracts derived from noninvasive or museum specimens. To overcome low amplification success rates and avoid genotyping errors such as allelic dropout and false alleles, multiple polymerase chain reaction (PCR) replicates for each sample are typically used. Recently, two‐step multiplex procedures have been introduced which drastically increase the success rate and efficiency of genotyping. However, controversy still exists concerning the amount of replication needed for suitable control of error. Here we describe the use of a two‐step multiplex PCR procedure that allows rapid genotyping using at least 19 different microsatellite loci. We applied this approach to quantified amounts of noninvasive DNAs from western chimpanzee, western gorilla, mountain gorilla and black and white colobus faecal samples, as well as to DNA from ~100‐year‐old gorilla teeth from museums. Analysis of over 45 000 PCRs revealed average success rates of > 90% using faecal DNAs and 74% using museum specimen DNAs. Average allelic dropout rates were substantially reduced compared to those obtained using conventional singleplex PCR protocols, and reliable genotyping using low (< 25 pg) amounts of template DNA was possible. However, four to five replicates of apparently homozygous results are needed to avoid allelic dropout when using the lowest concentration DNAs (< 50 pg/reaction), suggesting that use of protocols allowing routine acceptance of homozygous genotypes after as few as three replicates may lead to unanticipated errors when applied to low‐concentration DNAs.     

Monitoring of fluorescence during DNA melting as a method for discrimination and detection of PCR products in variety identification

DNA melting curves of genotype-specific PCR fragments were used to differentiate between species and amongst varieties of cereals. Melting curves were generated by ramping the temperature of PCR fragments through their dissociation temperature in the presence of a double-stranded DNA binding dye. Genotypes were discriminated by differences in the position and shape of the melting curve which is a function of the fragment's sequence, length and GC content. Amplification of 5S ribosomal RNA genes generated species-specific fragments for six of the major cereal crops. Of the 15 possible pairwise comparisons, 13 distinctions could be reliably made using melting curve position data. Wheat varieties were identified by the melting profiles of PCR products generated using microsatellite primers. DNA melting curve analysis was conveniently coupled with capillary-PCR using a LightCycler instrument to provide a rapid method of genotyping in cereals.