Single universal primer multiplex ligation-dependent probe amplification with sequencing gel electrophoresis analysis

In this study, a novel single universal primer multiplex ligation-dependent probe amplification (SUP-MLPA) technique that uses only one universal primer to perform multiplex polymerase chain reaction (PCR) was developed. Two reversely complementary common sequences were designed on the 5′ or 3′ end of the ligation probes (LPs), which allowed the ligation products to be amplified through only a single universal primer (SUP). SUP-MLPA products were analyzed on sequencing gel electrophoresis with extraordinary resolution. This method avoided the high expenses associated with capillary electrophoresis, which was the commonly used detection instrument. In comparison with conventional multiplex PCR, which suffers from low sensitivity, nonspecificity, and amplification disparity, SUP-MLPA had higher specificity and sensitivity and a low detection limit of 0.1 ng for detecting single crop species when screening the presence of genetically modified crops. We also studied the effect of different lengths of stuffer sequences on the probes for the first time. Through comparing the results of quantitative PCR, the LPs with different stuffer sequences did not affect the ligation efficiency, which further increased the multiplicity of this assay. The improved SUP–MLPA and sequencing gel electrophoresis method will be useful for food and animal feed identification, bacterial detection, and verification of genetic modification status of crops.     

A Multiplex PCR Assay Mediated by Universal Primer for the Diagnosis of Human Meningitis Caused by Six Common Bacteria

The present study aimed to develop a universal primer-multiplex PCR (UP-M-PCR) assay for the detection of six common bacteria associated with human meningitis. One optimal universal primer (UP) was selected from three UPs by comparing their sensitivities and specificities. All specific primers were tagged with the UP sequence at 5' end, and applied to the multiplex PCR system. The multiplex system was further optimized and assessed. This UP-M-PCR can successfully detect the six meningitis-associated pathogens with high specificity, and the sensitivity could reach up to 10 copies. In the identification of clinical specimens, six positive cases infected with Streptococcus agalactiae, Staphylococcus aureus, and Streptococcus pneumoniae were confirmed. The newly developed multiplex PCR system can be used to detect the six pathogens associated with human bacterial meningitis with high specificity and sensitivity.     

DNA analysis with multiplex microarray-enhanced PCR

We have developed a highly sensitive method for DNA analysis on 3D gel element microarrays, a technique we call multiplex microarray-enhanced PCR (MME-PCR). Two amplification strategies are carried out simultaneously in the reaction chamber: on or within gel elements, and in bulk solution over the gel element array. MME-PCR is initiated by multiple complex primers containing gene-specific, forward and reverse, sequences appended to the 3′ end of a universal amplification primer. The complex primer pair is covalently tethered through its 5′ end to the polyacryl- amide backbone. In the bulk solution above the gel element array, a single pair of unattached universal primers simultaneously directs pseudo-monoplex PCR of all targets according to normal solution-phase PCR. The presence of a single universal PCR primer pair in solution accelerates amplification within gel elements and eliminates the problem of primer interference that is common to conventional multiplex PCR. We show 10⁶-fold amplification of targeted DNA after 50 cycles with average amplification efficiency 1.34 per cycle, and demonstrate specific on-chip amplification of six genes in Bacillus subtilis. All six genes were detected at 4.5 pg of bacterial genomic DNA (equivalent to 10³ genomes) in 60 independent amplification reactions performed simultaneously in single reaction chamber.     

应用红外荧光和加尾引物法进行向日葵SSR遗传分析中的多聚PCR和多聚凝胶电泳的优化

在向日葵(Helianthus annuus L.)自交系SSR遗传分析中,为了提高SSR荧光分析效率、简化分析程序和降低研究费用,我们进行了多聚PCR和多聚凝胶电泳两项技术的优化研究。结果表明,优化多聚PCR和多聚凝胶电泳的影响因子(如逐步降低的退火温度的循环数、各个多聚位点引物浓度的平衡、PCR缓冲液浓度以及Taq DNA多聚酶的浓度等)可以收到更好的实验效果。基于以上的优化研究,系统地提出了一套优化的加尾引物法的策略。同时,提出了在多聚PCR和多聚凝胶电泳中常常遇到的技术难题的有效防止和解决的方法。     

URPD: A Specific Product Primer Design Tool

ABSTRACT: BACKGROUND: Polymerase chain reaction (PCR) plays an important role in molecular biology. Primer design fundamentally determines its results. Here, we present a currently available software for a rather straight-forward way of visualizing the primer design process for infrequent users. RESULTS: URPD (yoUR Primer Design), a web-based specific product primer design tool, combines the NCBI Reference Sequences (RefSeq), UCSC In-Silico PCR, memetic algorithm (MA) and genetic algorithm (GA) primer design methods to obtain specific primer sets. A friendly user interface is accomplished by built-in parameter settings. The incorporated smooth pipeline operations effectively guide both occasional and advanced users. URPD contains an automated process, which produces feasible primer pairs that satisfy the specific needs of the experimental design with practical PCR amplifications. Visual virtual gel electrophoresis and in silico PCR provide a simulated PCR environment. The comparison of Practical gel electrophoresis comparison to virtual gel electrophoresis facilitates and verifies the PCR experiment. Wet-laboratory validation proved that the system provides feasible primers. CONCLUSIONS: URPD is a user-friendly tool that provides specific primer design results. The pipeline design path makes it easy to operate for beginners. URPD also provides a high throughput primer design function. Moreover, the advanced parameter settings assist sophisticated researchers in performing experiential PCR. Several novel functions, such as a nucleotide accession number template sequence input, local and global specificity estimation, primer pair redesign, user-interactive sequence scale selection, and virtual and practical PCR gel electrophoresis discrepancies have been developed and integrated into URPD. The URPD program is implemented in JAVA and freely available at http://bio.kuas.edu.tw/urpd/.     

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.     

Sequence-specific detection using a universal probe system based on the formation of a four-way junction structure

We have developed a novel hybridization detection system using a universal probe based on the formation of a four-way junction (4WJ) structure. This methodology employs a combination of two sequence-specific probes and a universal quenching probe, and the same universal probe can be used for any target gene, allowing cost-effective assays. This 4WJ detection is ideal for extensive parallel identification of nucleic acids such as in multiplex polymerase chain reaction (PCR) systems. Compared with gel electrophoresis, this detection procedure is not only sensitive and rapid but also free of hazardous chemicals such as ethidium bromide. In addition, the 4WJ hybridization technology is more specific as an identifier than the size of a band on an agarose gel. We used a model multiplex PCR method that detected eight different virulence genes in Escherichia coli isolates, demonstrating that our 4WJ detection system is rapid, sensitive, and specific.     

Multiplex PCR with the blunt hairpin primers for next generation sequencing

The multiplex PCR is one of the important methods to enrich the target DNAs for next generation sequencing. The non-specific amplification and interaction between the primers are the pivotal challenges of multiplex PCR. Here, we introduce the novel blunt hairpin primers for effective reducing the primer dimers and mispriming events. We also used a pair of auxiliary primers to enhance PCR efficiency. We simultaneously amplified 89 target regions from 44 samples and sequenced all amplicons on ion torrent PGM platform. Among all the filtrated amplicons (3438 different amplicons), 99.7, 97.6, 90.1 and 72.8% had sequencing depths fell within 200, 100, 50 and 25-fold range. The sequencing depth variations among all the samples were less than 27-fold. We also amplified multiplex regions with blunt hairpin, stick hairpin and normal linear primers, and the blunt hairpin primers could significantly reduce the amount of primer dimers and unspecific products.These results show that multiplex PCR with the blunt hairpin primers is a flexible, specific and economical target-region captured approach for the next generation sequencing.     

一种基于适配器连接介导的等位基因特异性扩增法测定多重SNP

建立了一种基于DNA适配器连接介导的等位基因特异性扩增法测定多重SNP。以CYP2D6基因中的5个SNP位点（100C>T,1661G>C,1758G>T,2470T>C和2850C>T）为例,用PCR法预扩增得一段含所有待测SNP位点的长片段,然后用限制性内切酶将其消化成短片段,在连接酶的作用下与设计的DNA适配器（adapter）相连;该适配器的一端与限制性内切酶降解后留下的粘性末端相同,另一端带有一段公共序列。在两管中加入与适配器连接的片段作为PCR扩增模板,并分别加入SNP特异性引物和一种适配器特异性的通用引物进行PCR扩增,最后用凝胶电泳法分离PCR扩增产物。由于每管与SNP的两种特异性引物中的一种对应,可以根据每管中扩增片段的大小判断SNP的类型。通过凝胶电泳法可以一次分离与5种SNP类型相对应的引物特异性延伸反应产物;采用该法成功测定了20名健康中国人的CYP2D6基因中5个SNP位点的基因多态性,与限制性片段长度多态性法（RFLP）测定结果完全一致。该方法采用n+1种引物（n种SNP特异性引物和一种通用引物）进行n重PCR反应,极大提高了PCR反应的特异性,结果准确,可用于同时测定多个SNP位点。

     

An approach to the use of stable isotopes for DNA sequencing

The sequencing of DNA by current procedures involves the use of radioisotopic or fluorescent labels. We propose that stable isotopes can be used as such labels and that the large number of stable isotopes available would allow multiplexing so that many DNA segments could be sequenced simultaneously. We have developed methods to use 57Fe2O3 to synthesize ferrocene and to attach the ferrocene to the 5' end of oligonucleotides. The 57Fe-labeled M13 universal primer functioned normally in a Sanger sequencing procedure. When a 57Fe-labeled oligonucleotide had migrated on a polyacrylamide gel it was readily located on the dried gel by scanning with resonance ionization spectroscopy (RIS) coupled with mass spectrometry. Using a 57Fe-labeled primer in a PCR reaction a 2000-bp DNA was produced that was detected by RIS on nylon membrane after agarose electrophoresis. The rapid analysis features of RIS coupled with the multispectral multiplexing possibilities of stable isotopes should significantly increase the rate of determination of DNA sequences.     

Species identification of animal cells by nested PCR targeted to mitochondrial DNA

We developed a highly sensitive and convenient method of nested polymerase chain reaction (PCR) targeted to mitochondrial deoxyribonucleic acid (DNA) to identify animal species quickly in cultured cells. Fourteen vertebrate species, including human, cynomolgus monkey, African green monkey, mouse, rat, Syrian hamster, Chinese hamster, guinea pig, rabbit, dog, cat, cow, pig, and chicken, could be distinguished from each other by nested PCR. The first PCR amplifies mitochondrial DNA fragments with a universal primer pair complementary to the conserved regions of 14 species, and the second PCR amplifies the DNA fragments with species-specific primer pairs from the first products. The species-specific primer pairs were designed to easily distinguish 14 species from each other under standard agarose gel electrophoresis. We further developed the multiplex PCR using a mixture of seven species-specific primer pairs for two groups of animals. One was comprised of human, mouse, rat, cat, pig, cow, and rabbit, and the other was comprised of African green monkey, cynomolgus monkey, Syrian hamster, Chinese hamster, guinea pig, dog, and chicken. The sensitivity of the PCR assay was at least 100 pg DNA/reaction, which was sufficient for the detection of each species of DNA. Furthermore, the nested PCR method was able to identify the species in the interspecies mixture of DNA. Thus, the method developed in this study will provide a useful tool for the authentication of animal species.     

应用改进的通用荧光PCR引物进行多重STR分型

通过设计通用荧光PCR引物并结合DNA测序系统建立了小鼠的多重STR分型方案.实验针对小鼠基因组设计了两对不同的通用引物序列,标记了FAM荧光的通用序列和"加尾"的位点特异性引物共同用于小鼠的多重PCR的STR基因分型.本研究优化了通用引物和特异性引物间的比例,优化了多重STR-PCR的反应条件,并最终利用该技术方案实现了五重STR分型.实验验证了该方案在多重STR分型中的可行性.与传统的荧光检测PCR产物方案相比,应用通用方案完成多重PCR反应大大节省了实验时间与经费.     

A Novel Multiplex Tetra-Primer ARMS-PCR for the Simultaneous Genotyping of Six Single Nucleotide Polymorphisms Associated with Female Cancers

Background

The tetra-primer amplification refractory mutation system PCR (T-ARMS-PCR) is a fast and economical means of assaying SNP''s, requiring only PCR amplification and subsequent electrophoresis for the determination of genotypes. To improve the throughput and efficiency of T-ARMS-PCR, we combined T-ARMS-PCR with a chimeric primer-based temperature switch PCR (TSP) strategy, and used capillary electrophoresis (CE) for amplicon separation and identification. We assessed this process in the simultaneous genotyping of four breast cancer–and two cervical cancer risk–related SNPs.

Methods

A total of 24 T-ARMS-PCR primers, each 5′-tagged with a universal sequence and a pair of universal primers, were pooled together to amplify the 12 target alleles of 6 SNPs in 186 control female blood samples. Direct sequencing of all samples was also performed to assess the accuracy of this method.

Results

Of the 186 samples, as many as 11 amplicons can be produced in one single PCR and separated by CE. Genotyping results of the multiplex T-ARMS-PCR were in complete agreement with direct sequencing of all samples.

Conclusions

This novel multiplex T-ARMS-PCR method is the first reported method allowing one to genotype six SNPs in a single reaction with no post-PCR treatment other than electrophoresis. This method is reliable, fast, and easy to perform.     

多重PCR快速确证外源基因在转基因小麦后代的传递

根据转入小麦0世代中的高分子谷蛋白亚基1Dx5基因和报告基因uidA、作为选择标记的除草剂抗性基因bar的序列,设计合成三对引物。以整合uidA+bar的质粒pAHC25和整合1Dx5的质粒p1Dx5为模板寻找uidA与1Dx5及或bar多重扩增的最佳模板浓度及最适退火温度。MPCR模板量是单对引物扩增时的两倍,引物浓度同常规PCR为0.3μM,uidA与bar的适宜退火温度范围为57.1 - 62.3℃;uidA与1Dx5为60.0℃-60.6℃;uidA、bar、1Dx5的最适合退火温度范围为57.0℃-58.4℃。MPCR对大小相差50bp及以下的多重扩增片段可通过10%的非变性聚丙烯酰胺凝胶电泳分离。在此基础上对14株T1代转基因小麦基因组DNA进行多重PCR扩增,筛选出基因未分离的小麦后代,并与常规PCR比较,结果一致,其中11株同时传递1Dx5和bar基因、1株同时传递uidA、bar和1Dx5基因,3株未检测到外源基因。表明MPCR在快速确证外源基因在转基因植株后代的传递中作用显著。研究在常规PCR反应体系上,对模板浓度和多重引物退火温度进行微调,且把MPCR技术与PAGE技术结合起来,提高了研究结果的准确性,获得了较好的扩增和检测效果,简化了MPCR优化程序,使MPCR的优势更明显,为该技术的广泛应用提供了借鉴。     

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.     

Use of multiplex polymerase chain reactions to indicate the accuracy of the annealing temperature of thermal cycling

A condition for multiplex polymerase chain reactions (PCRs) of which outcomes sensitively indicate the actual annealing temperature of thermal cycling is reported. The multiplex reaction was designed to produce four different amplicons of 200, 300, 400, and 480 bp. However, the degree of amplification of each amplicon sensitively responds to a small change in the annealing temperature, by which one can predict the actual annealing temperature of thermal cycling. Deviations between the actual and the designated annealing temperatures as small as 0.5 degrees C were manifested by the banding patterns of the multiplex PCRs in simple agarose gel electrophoresis. For prediction of temperatures in a more objective manner, capillary electrophoresis was also applied to obtain numerical expressions of the relative intensities of the amplicons. By optimizing the multiplex PCR conditions, where concentrations of buffer, dNTPs, and primer pairs were major factors, satisfactory sensitivity and reproducibility of the band patterning were achieved. Blind tests demonstrated the accuracy of the prediction of actual annealing temperatures within +/-0.5 degrees C. The multiplex PCR approach will be further refined and tested for realization of an easily accessible alternative to a physical temperature measurement device in testing the performance of thermal cyclers for PCR.     

A simple method for genotyping the bovine growth hormone gene

An allele-specific polymerase chain reaction (PCR) amplification method was developed to determine the genotypes at the bovine growth hormone locus that result from two nucleotide substitutions in exon 5 of the gene. This method was a multiplex PCR (ASM–PCR) employing a common primer pair and two allele-specific reverse primers. The common primer pair was designed to amplify a target region containing two substitution points from the three variants of the bovine growth hormone gene. The allele-specific primers were designed to be mismatched with other genotypes at the 3' end of oligonucleotides. When the common and allele-specific reverse primers competed with each other, the shorter allele-specific fragments were amplified preferentially. Consequently, the PCR products of the variant-specific fragments were 347, 483 and 656 bp for alleles A, B and C, respectively, of the bovine growth hormone gene. Genotypes of the bovine growth hormone gene were easily identified by agarose gel electrophoresis of PCR products. The results suggested that this multiplex PCR method would be useful for identification of genetic variants caused by point mutations.     

Development of a multiplex method to discriminate between Neochrysocharis formosa (Hymenoptera: Eulophidae) reproductive modes

A multiplex polymerase chain reaction (PCR) method was applied to differentiate thelytokous and arrhenotokous strains of Neochrysocharis formosa (Westwood). Alignment of strain first internal transcribed spacer regions revealed high nucleotide variability and the strain-specific primer sequence used. Strains were easily differentiated after gel electrophoresis of multiplex PCR products because arrhenotokous specimens produced a 500-bp fragment as well as the 800-bp fragment common to both strains. This method successfully distinguished N. formosa strains regardless of collection site across Japan; thus, it is probably suitable for similar applications in Turkey, Italy, and elsewhere.     

Octaplex PCR and fluorescence-based capillary electrophoresis for identification of human diarrheagenic Escherichia coli and Shigella spp

A multiplex PCR assay, amplifying seven specific virulence genes and one internal control gene in a single reaction, was developed to identify the five main pathotypes of diarrheagenic Escherichia coli and Shigella spp. The virulence genes selected for each category were Stx1, Stx2, and eaeA for enterohemorrhagic E. coli (EHEC), eaeA for enteropathogenic E. coli (EPEC), STIb and LTI for enterotoxigenic E. coli (ETEC), ipaH for enteroinvasive E. coli (EIEC) and Shigella spp., and aggR for enteroaggregative E. coli (EAEC). Each forward primer was labelled with a fluorochrome and the PCR products were separated by multicolour capillary electrophoresis on an ABI PRISM310 Genetic Analyzer (Applied Biosystems). If present, several gene variants of each virulence gene were identified. The internal control gene rrs, encoding 16S rRNA, was amplified in all 110 clinical strains analyzed. Virulence genes were demonstrated in 103 (94%) of these strains. In the majority of the cases (98/103, 95%), classification obtained by the novel multiplex PCR assay was in agreement with that previously determined by phenotypic assays combined with other molecular genetic approaches. Numerous multiplex PCR assays have been published, but only a few of them detect all five E. coli pathotypes within a single reaction, and none of them has used multicolour capillary electrophoresis to separate the PCR products. The octaplex PCR assay followed by capillary electrophoresis presented in the present paper provides a simple, reliable, and rapid procedure that in a single reaction identifies the five main pathotypes of E. coli, and Shigella spp. This assay will replace the previous molecular genetic methods used in our laboratory and work as an important supplement to the more time-consuming phenotypic assays.     

Amplification ratio control system for copy number variation genotyping

We describe a generic design for ratiometric analysis suitable for determination of copy number variation (CNV) class of a gene. Following two initial sequence-specific PCR priming cycles, both ends of both amplicons (one test and one reference) in a duplex reaction, are all primed by the same universal primer (UP). Following each amplification denaturation step, the UP target and its reverse complement (UP') in each strand form a hairpin. The bases immediately beyond the 3'-end of the UP and 5' of UP' are chosen such as not to base pair in the hairpin (otherwise priming is ablated). This hairpin creates a single constant environment for priming events and chaperones free 3'-ends of amplicon strands. The resultant 'amplification ratio control system' (ARCS) permits ratiometric representation of amplicons relative to the original template into PCR plateau phase. These advantages circumvent the need for real-time PCR for quantitation. Choice of different %(G+C) content for the target and reference amplicons allows liquid phase thermal melt discrimination and quantitation of amplicons. The design is generic, simple to set up and economical. Comparisons with real-time PCR and other techniques are made and CNV assays demonstrated for haptoglobin duplicon and 'chemokine (C-C motif) ligand 3-like 1' gene.