Cloth-based hybridization array system for the detection of multiple antibiotic resistance genes in Salmonella enterica subsp. enterica serotype Typhimurium DT104

AIMS: A simple DNA macroarray system was developed for detection of antibiotic resistance and other marker genes associated with the multidrug-resistant food pathogen Salmonella enterica subsp. enterica serotype Typhimurium DT104. METHODS AND RESULTS: A multiplex polymerase chain reaction (PCR) incorporating digoxigenin-dUTP was used to simultaneously amplify seven marker sequences, with subsequent rapid detection of the amplicons by hybridization with an array of probes immobilized on polyester cloth and immunoenzymatic assay of the bound label. This system provided sensitive detection of the different genetic markers in the S. Typhimurium DT104 genome, giving positive reactions with as few as 10 CFU, and the hybridizations were highly specific, with no reactions of amplicons with heterologous probes on the array. CONCLUSIONS: This cloth-based hybridization array system (CHAS) provides a simple, cost-effective tool for monitoring S. Typhimurium DT104 in foods and their production environment. SIGNIFICANCE AND IMPACT OF THE STUDY: The CHAS is a simple and cost-effective tool for the simultaneous detection of amplicons generated in a multiplex PCR, and the concept is broadly applicable to the detection and characterization of food pathogens.     

Multiplex amplification of all coding sequences within 10 cancer genes by Gene-Collector

Herein we present Gene-Collector, a method for multiplex amplification of nucleic acids. The procedure has been employed to successfully amplify the coding sequence of 10 human cancer genes in one assay with uniform abundance of the final products. Amplification is initiated by a multiplex PCR in this case with 170 primer pairs. Each PCR product is then specifically circularized by ligation on a Collector probe capable of juxtapositioning only the perfectly matched cognate primer pairs. Any amplification artifacts typically associated with multiplex PCR derived from the use of many primer pairs such as false amplicons, primer-dimers etc. are not circularized and degraded by exonuclease treatment. Circular DNA molecules are then further enriched by randomly primed rolling circle replication. Amplification was successful for 90% of the targeted amplicons as seen by hybridization to a custom resequencing DNA micro-array. Real-time quantitative PCR revealed that 96% of the amplification products were all within 4-fold of the average abundance. Gene-Collector has utility for numerous applications such as high throughput resequencing, SNP analyses, and pathogen detection.     

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.     

Consensus multiplex PCR–restriction fragment length polymorphism (RFLP) for rapid detection of plant mitochondrial DNA polymorphism

A fast, simple, and efficient approach, termed consensus multiplex PCR–RFLP, was developed and employed to detect mitochondrial (mt)DNA variation in three orchid species, Spiranthes hongkongensis, S. sinensis , and S. spiralis . Using multiplex PCR, three pairs of consensus mitchondrial primers were added simultaneously into each reaction tube to amplify three nonoverlapping introns located in the NADH dehydrogenase genes. Fragment length differences in the multiplex PCR amplicons were directly detectable between S. spiralis and the other two species. Further restriction analysis of the multiplex PCR amplicons revealed sufficient mtDNA polymorphism, suitable for phylogenetic studies at the interspecific level. This approach is well suited for large-scale population surveys of mitochondrial genome diversity in plants. Additionally, the maternal mode of inheritance of organelle genomes renders this approach valuable for rapid identification of the origin and specific parentage of hybrid or allopolyploid species.     

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.     

PCR引物特异性核查系统(PSC)的构建与应用

聚合酶链式反应(PCR)虽已广泛用于分子生物学研究中,然而PCR实验中的非特异性产物问题将直接影响PCR的效率,在多重PCR实验中更是如此。为了最大限度地降低非特异性产物的出现率,同时避免用户频繁使用Blast比对检查非特异性,我们开发了基于NCBI-Blast的引物评估和模板DNA特异性结合能力评估的核查系统PSC(Primer Specificity Checking,http://biocompute.bmi.ac.cn/PSC),并基于虚拟PCR实验确定了用于引物质量核查计算的多种参数,能够在线提供多个物种的引物特异性核查结果。该系统可以有效地对引物序列可能产生的所有非特异性扩增进行预测,有助于实验前引物优化或者对非特异扩增结果进行解释,最终达到提高PCR效率的目的。     

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.     

PCR-RFLP和多重PCR技术检测常见病原性丝状真菌的实验研究

目的建立检测常见丝状真菌感染病原菌的PCR-RFLP和多重PCR方法。方法建立以PCR技术为基础的限制片段长度多态性(RFLP)方法 ,首先用真菌通用引物扩增丝状真菌的ITS区,然后用限制性核酸内切酶对PCR产物进行酶切。用4种丝状真菌的特异性引物建立多重PCR体系,用该体系检测单模板、双模板和三模板的扩增情况,并测定该体系的特异性和敏感性。结果用PCR-RFLP技术能够鉴别5种常见丝状真菌,多重PCR能够根据扩增片段的不同鉴别菌种,在合适的反应条件下,对单模板、双模板和三模板均能扩增出目的片段。结论 PCR-RFLP和多重PCR技术能够快速鉴定丝状真菌感染病原菌,有临床应用的良好前景。     

重要肠道病原菌多重PCR-基因芯片检测方法研究

目的:建立并初步评价一种针对重要肠道病原菌的多重PCR 基因芯片检测方法。方法：对筛选出的特异引物进行多重PCR优化,将引物分别按种属内混合和种属间混合的方案排查引物间的竞争性抑制现象,再将不同菌属的模板混合,用相对应的混合引物扩增,探寻高效特异的引物组合。分别掺入和不掺入荧光素,验证其对混合PCR反应的影响,并与芯片杂交,探寻多重PCR扩增效率对芯片杂交的影响。分析不同数量引物组合产生的杂交结果,筛选出无交叉反应的最优引物组合。结果:种属内引物混合均得到特异性扩增结果。种属间混合霍乱弧菌和空肠弯曲菌得到部分预期条带,随着混合引物数量的增加,交叉抑制现象也增多。杂交信号强度随多重PCR扩增效率的增加而增强。反应中掺入荧光素的扩增条带产量低于无荧光素的产物。可将35对混合引物拆成3个体系分别标记样品,以避免假阴性结果。结论:PCR反应中掺入荧光素降低扩增效率和杂交效率,但并不影响对杂交结果的判读和数据分析。基因芯片杂交信号强度取决于多重PCR的扩增效率。肠道病原菌多重PCR 基因芯片检测方法具有较高的特异性,混合PCR可以分别按照种属内和种属间的引物组合方案用于多病原的筛检。该基因芯片检测可以采用3个引物体系完成样品标记。     

Reducing amplification artifacts in high multiplex amplicon sequencing by using molecular barcodes

Background

PCR amplicon sequencing has been widely used as a targeted approach for both DNA and RNA sequence analysis. High multiplex PCR has further enabled the enrichment of hundreds of amplicons in one simple reaction. At the same time, the performance of PCR amplicon sequencing can be negatively affected by issues such as high duplicate reads, polymerase artifacts and PCR amplification bias. Recently researchers have made some good progress in addressing these shortcomings by incorporating molecular barcodes into PCR primer design. So far, most work has been demonstrated using one to a few pairs of primers, which limits the size of the region one can analyze.

Results

We developed a simple protocol, which enables the use of molecular barcodes in high multiplex PCR with hundreds of amplicons. Using this protocol and reference materials, we demonstrated the applications in accurate variant calling at very low fraction over a large region and in targeted RNA quantification. We also evaluated the protocol’s utility in profiling FFPE samples.

Conclusions

We demonstrated the successful implementation of molecular barcodes in high multiplex PCR, with multiplex scale many times higher than earlier work. We showed that the new protocol combines the benefits of both high multiplex PCR and molecular barcodes, i.e. the analysis of a very large region, low DNA input requirement, very good reproducibility and the ability to detect as low as 1 % mutations with minimal false positives (FP).

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1806-8) contains supplementary material, which is available to authorized users.     

Fluorescent resonance energy transfer (FRET) based detection of a multiplex ligation-dependent probe amplification assay (MLPA) product

A fluorescent resonance energy transfer (FRET)-based hybridization assay for detecting multiplex ligation-dependent probe amplification (MLPA) products has been developed, extending the diagnostic power of the technique and demonstrating the possibility of combining MLPA with microarrays for the detection of multiple mutations. FRET is one of the most commonly used detection techniques for hybridization assays. To investigate the applicability of FRET based detection of MLPA products, a sandwich assay was designed to detect gene copy number by exploiting an immobilized probe labeled with an acceptor dye, Alexa Fluor 555, which hybridises to specific PCR amplicons, followed by hybridization of a second probe labeled with the donor dye, Alexa Fluor 488. Following excitation of the Alexa Fluor 488, a FRET signal was produced only if a DNA sequence specific to the BRCA1 exon 13 was present in the test sample. We have verified this assay on a DNA sample of a patient carrying a heterozygous BRCA1 exon 13 deletion using male genomic DNA as control. Here we demonstrate that the DNA sample containing the heterozygous deletion generated a considerably reduced FRET signal as compared to the control male human DNA. Our results show that the FRET design presented in this study can differentiate between reduced copy numbers any genomic DNA sequence after MLPA analysis, and the reported format is applicable to multiplex detection of MLPA products, using microarrays, or optical biosensor arrays, and future work will focus on the demonstration of this.     

Electrical microarrays for highly sensitive detection of multiplex PCR products from biological agents

For the sensitive detection of amplicons derived from diagnostic PCR, a novel electrical low-density microarray is applied and compared to state-of-the-art quantitative real-time PCR. The principle of the electrochemical method and the effective use for analysis are described. Interdigitated array gold electrodes (IDA-E) embedded into a silicon chip are the core technology of the fully automated compact biosensor system, basing on enzyme coupled electrochemical detection. The biointerface is built up with thiol-modified capture oligonucleotides on gold and mediates the specific recognition of hybridised target DNA amplified with uniplex or multiplex PCR. In here we show the potential of the designed electrical microarray to function as an advanced screening method for the parallel detection of a panel of the four pathogens Bacillus anthracis, Yersinia pestis, Francisella tularensis and ortho pox viruses (genus), which are among the most relevant biowarfare agents. PCR products, generated from 10 to 50 gene equivalents, have been detected reproducibly. The experiments with varying pathogen amounts showed the good reliability and the high sensitivity of the method, equivalent to optical real-time PCR detection systems. Without PCR the total assay time amounts to 27 min. The advantage of the combination of multiplex-PCR with electrical microarray detection avoiding intensive PCR probe labelling strategies is illustrated.     

基因芯片技术检测3种肠道病原微生物方法的建立

目的:建立一种运用多重PCR和基因芯片技术检测和鉴定伤寒沙门氏菌、痢疾杆菌和单核细胞增生利斯特菌的方法。方法:分别选取伤寒沙门氏菌染色体ViaB区域中编码调控Vi抗原表达的基因(vipR)、痢疾杆菌编码侵袭质粒抗原H基因(ipaH)和单核细胞增生利斯特菌溶血素基因(hlyA)设计引物和探针,探针3'端进行氨基修饰,下游引物标记荧光素Cy3。在优化的PCR和杂交反应条件下,进行三重PCR扩增,产物与包括3种致病菌特异性探针的基因芯片杂交。在评价基因芯片的特异性和灵敏度之后,对临床样本进行检测。结果:只有3种目的致病菌的PCR产物在相应探针位置出现特异性信号,其他阴性细菌均无信号出现;3种致病菌的检测灵敏度均可达到103CFU/mL;检测30例临床样本的结果与常规细菌学培养结果一致。结论:所建立的可同时检测伤寒沙门氏菌、痢疾杆菌和单核细胞增生利斯特菌的基因芯片方法快速、准确,特异性高,重复性好,为3种肠道致病菌的快速检测和鉴定提供了新方法和新思路。     

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

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

One‐step Multiplex RT‐PCR for Simultaneous Detection of Four Viruses in Tobacco

A one‐step multiplex RT‐PCR method has been developed for the simultaneous detection of four viruses frequently occurring in tobacco (Cucumber mosaic virus, Tobacco mosaic virus, Tobacco etch virus and Potato virus Y). Four sets of specific primers were designed to work with the same reaction reagents and cycling conditions, resulting in four distinguishable amplicons representative of the four viruses independently. This one‐step multiplex RT‐PCR is consistently specific using different combinations of virus RNA as templates, and no non‐specific band was observed. It has high sensitivity compared to single RT‐PCR. Moreover, field samples in China can be tested by this method for virus detection. Our results show that one‐step multiplex RT‐PCR is a high‐throughput, specific, sensitive method for tobacco virus detection.     

Demonstration of preferential binding of SYBR Green I to specific DNA fragments in real-time multiplex PCR

SYBR Green I (SG) is widely used in real-time PCR applications as an intercalating dye and is included in many commercially available kits at undisclosed concentrations. Binding of SG to double-stranded DNA is non-specific and additional testing, such as DNA melting curve analysis, is required to confirm the generation of a specific amplicon. The use of melt curve analysis eliminates the necessity for agarose gel electrophoresis because the melting temperature (T_m) of the specific amplicon is analogous to the detection of an electrophoretic band. When using SG for real-time PCR multiplex reactions, discrimination of amplicons should be possible, provided the T_m values are sufficiently different. Real-time multiplex assays for Vibrio cholerae and Legionella pneumophila using commercially available kits and in-house SG mastermixes have highlighted variability in performance characteristics, in particular the detection of only a single product as assessed by T_m analysis but multiple products as assessed by agarose gel electrophoresis. The detected T_m corresponds to the amplicon with the higher G+C% and larger size, suggesting preferential binding of SG during PCR and resulting in the failure to detect multiple amplicons in multiplex reactions when the amount of SG present is limiting. This has implications for the design and routine application of diagnostic real-time PCR assays employing SG.     

DNA probes specific for Aeromonas hydrophila (HG1)

Aeromonas hydrophila (HG1)-specific RAPD-PCR fragments were investigated for their potential as DNA probes. From 20 RAPD-PCR fragment bands, it was found that two were specific to all isolates of Aeromonas hydrophila (HG1) tested. Cloning and nucleotide sequence determination of one of these bands showed that co-migration of similar sized amplicons had occurred and that this band (designated '7e') contained at least four fragments of different sequences. Three of these individual amplicons had a sequence specific to Aer. hydrophila (HG1) isolates. The sequence of one of these amplicons ('7e5') was used to design primers for a specific polymerase chain reaction (PCR). The specificity of the PCR was achieved using a modified hot-start procedure. The identity of the PCR amplicons was confirmed by high stringency hybridization with a digoxygenin-labelled 7e5 probe.     

Universal DNA array detection of small insertions and deletions in BRCA1 and BRCA2

Array-based mutation detection methodology typically relies on direct hybridization of the fluorescently labeled query sequence to surface-bound oligonucleotide probes. These probes contain either small sequence variations or perfect-match sequence. The intensity of fluorescence bound to each oligonucleotide probe is intended to reveal which sequence is perfectly complementary to the query sequence. However, these approaches have not always been successful, especially for detection of small frameshift mutations. Here we describe a multiplex assay to detect small insertions and deletions by using a modified PCR to evenly amplify each amplicon (PCR/PCR), followed by ligase detection reaction (LDR). Mutations were identified by screening reaction products with a universal DNA microarray, which uncouples mutation detection from array hybridization and provides for high sensitivity. Using the three BRCA1 and BRCA2 founder mutations in the Ashkenazi Jewish population (BRCA1 185delAG; BRCA1 5382insC; BRCA2 6174delT) as a model system, the assay readily detected these mutations in multiplexed reactions. Our results demonstrate that universal microarray analysis of PCR/PCR/LDR products permits rapid identification of small insertion and deletion mutations in the context of both clinical diagnosis and population studies.