A multiplexing single nucleotide polymorphism typing method based on restriction-enzyme-mediated single-base extension and capillary electrophoresis

Millions of single nucleotide polymorphisms (SNPs) have been identified in recent years. This provides a great opportunity for large-scale association and population studies. However, many high-throughput SNP typing techniques require expensive and dedicated instruments, which render them out of reach for many laboratories. To meet the need of these laboratories, we here report a method that uses widely available DNA sequencer for SNP typing. This method uses a type II restriction enzyme to create extendable ends at target polymorphic sites and uses single-base extension (SBE) to discriminate alleles. In this design, a restriction site is engineered in one of the two polymerase chain reaction (PCR) primers so that the restriction endonuclease cuts immediately upstream of the targeted SNP site. The digestion of the PCR products generates a 5'-overhang structure at the targeted polymorphic site. This 5'-overhang structure then serves as a template for SBE reaction to generate allele-specific products using fluorescent dye-terminator nucleotides. Following the SBE, the allele-specific products with different sizes can be resolved by DNA sequencers. Through primer design, we can create a series of PCR products that vary in size and contain only one restriction enzyme recognition site. This allows us to load many PCR products in a single capillary/lane. This method, restriction-enzyme-mediated single-base extension, is demonstrated by typing multiple SNPs simultaneously for 44 DNA samples. By multiplexing PCR and pooling multiplexed reactions together, this method has the potential to score 50-100 SNPs/capillary/run if the sizes of PCR products are arranged at every 5-10 bases from 100 to 600 base range.     

Non-isotopic PAGE analysis of amplified products from simple sequence repeat single-primer polymerase chain reaction

We describe modifications to two genetic typing procedures, simple sequence repeat (SSR)-anchored polymerase chain reaction (PCR) and single primer amplification of SSRs (SPARs), by combining polyacrylamide gel (PAGE) resolution of PCR amplified products with silver staining for detection. Turkey (Meleagris gallopavo) and chicken (Gallus domesticus) genomic DNA were used as templates in the PCR typing. The single primers used for PCR analyses were (CAC), (TCC), (GACT), (TGTC) and (TTTA). The PCR conditions have previously been described. As expected, the number of fragments detected by the analyses were higher than those previously described using agarose but lower than that reported by others from PAGE analyses and radioisotope detection. Unlike agarose gel analyses, all the primers amplified polymorphic products ranging from 22 percent (%) for (TGTC) to 44% for (TCC) (Table 1). The results suggest that the level of polymorphic DNA fragments from genetic typing by SPARs of SSRs could be increased, above that of agarose and ethidium bromide staining, by PAGE analyses followed by silver staining for detection. The level of DNA polymorphism detected was however lower than radioisotope detection, but the safety and ease of the modified method described in the current work may make it a preferable approach to both SPARs and SSR-anchored PCR for genetic mapping in eukaryotes.This revised version was published online in October 2005 with corrections to the Cover Date.     

Closed-tube genotyping of apolipoprotein E by isolated-probe PCR with multiple unlabeled probes and high-resolution DNA melting analysis

Isolated-probe PCR (IP-PCR) is a method that combines asymmetric PCR, unlabeled probes, and high-resolution DNA melting while maintaining a closed tube system. A double-stranded DNA (dsDNA) dye LCGreen I was used to detect the unlabeled probes. LCGreen I is also used to detect the 277-base pair PCR product peak as an internal amplification control. To accomplish this, IP-PCR separates the asymmetric PCR amplification step and the detection step of the unlabeled probes. This prevents the probes from interfering with the amplification of the DNA target. The samples are then melted using a high-resolution DNA melting instrument: the HR-1. The closed tube system virtually eliminates PCR product contamination or sample carryover The target apolipoprotein E (APOE) was chosen to test the IP-PCR technique. APOE contains two single nucleotide polymorphisms (SNPs) located 139 base pairs apart in a GC-rich region of the human genome. The results from this study show that the IP-PCR technique was able to determine the correct APOE genotype for each of the 101 samples. The IP-PCR technique should also be useful in detecting SNPs in other high-GC regions of the human genome.     

Determining SNP allele frequencies in DNA pools

Single nucleotide polymorphisms (SNPs) are among the most common types of polymorphism used for genetic association studies. A method to allow the accurate quantitation of their allele frequencies from DNA pools would both increase throughput and decrease costs for large-scale genotyping. However, to date, most DNA pooling studies have concentrated on the use of microsatellite polymorphisms. In the case of SNPs that are restriction fragment length polymorphisms (RFLPs), studies have tended to use methods for the quantitation of allele frequency from pools that rely on densitometric evaluation of bands on an autoradiograph. Radiation-based methods have well-known drawbacks, and we present two alternative methods for the determination of SNP allele frequencies. For RFLPs, we used agarose gel electrophoresis of digested PCR products with ethidium bromide staining combined with densitometric analysis of gel images on a PC. For all types of SNP, we used allele-specific fluorescent probes in the Taqman assay to determine the relative frequencies of two different alleles. Both methods gave accurate and reproducible results, suggesting they are suitable for use in DNA pooling experiments.     

Single nucleotide polymorphism (SNP) discovery in mammals: a targeted-gene approach

Single nucleotide polymorphisms (SNPs) have rarely been exploited in nonhuman and nonmodel organism genetic studies. This is due partly to difficulties in finding SNPs in species where little DNA sequence data exist, as well as to a lack of robust and inexpensive genotyping methods. We have explored one SNP discovery method for molecular ecology, evolution, and conservation studies to evaluate the method and its limitations for population genetics in mammals. We made use of 'CATS' (or 'EPIC') primers to screen for novel SNPs in mammals. Most of these primer sets were designed from primates and/or rodents, for amplifying intron regions from conserved genes. We have screened 202 loci in 16 representatives of the major mammalian clades. Polymerase chain reaction (PCR) success correlated with phylogenetic distance from the human and mouse sequences used to design most primers; for example, specific PCR products from primates and the mouse amplified the most consistently and the marsupial and armadillo amplifications were least successful. Approximately 24% (opossum) to 65% (chimpanzee) of primers produced usable PCR product(s) in the mammals tested. Products produced generally high but variable levels of readable sequence and similarity to the expected genes. In a preliminary screen of chimpanzee DNA, 12 SNPs were identified from six (of 11) sequenced regions, yielding a SNP on average every 400 base pairs (bp). Given the progress in genome sequencing, and the large numbers of CATS-like primers published to date, this approach may yield sufficient SNPs per species for population and conservation genetic studies in nonmodel mammals and other organisms.     

中国汉族群体5个STR分子遗传标记

为了解中国人5个STR基因座等位片段结构特征,获得汉族群体D2S2955、D3S4014、D20S604、D22S689和GATA198B05基因座的群体遗传学数据。采取成都地区无血缘关系汉族个体血样EDTA抗凝血。Chelex法提取DNA,PCR扩增,非变性聚丙烯酰胺凝胶不连续缓冲系统水平电泳分型,自动激光荧光测序仪测定DNA序列。序列分析显示,中国人D2S2955、D3S4014、D20S604基因座具有简单重复序列,而D22S689、GATA198B05基因座具有复杂重复序列。5个STR基因座在成都汉族群体中均具有遗传多态性。揭示了我国汉族人群5个STR基因座的等位基因片段结构特征,为人类群体遗传研究提供了数据,建立的不连续缓冲系统水平电泳分型方法为检测这5个STR基因座提供了简便技术。     

Different real time PCR approaches for the fine quantification of SNP's alleles in DNA pools: assays development, characterization and pre-validation

Single nucleotide polymorphisms (SNPs) are becoming the most common type of markers used in genetic analysis. In the present report a SNP has been chosen to test the applicability of Real Time PCR to discriminate and quantify SNPs alleles on DNA pools. Amplification Refractory Mutation System (ARMS) and Mismatch Amplification Mutation Assay (MAMA) has been applied. Each assay has been pre-validated testing specificity and performances (linearity, PCR efficiency, interference limit, limit of detection, limit of quantification, precision and accuracy). Both the approaches achieve a precise and accurate estimation of the allele frequencies on pooled DNA samples in the range from 5 % to 95 % and don't require standard curves or calibrators. The lowest measurement that could be significantly distinguished from the background noise has been determined around the 1 % for both the approaches, allowing to extend the range of quantifications from 1 % to 99 %. Furthermore applicability of Real Time PCR assays for general diagnostic purposes is discussed.     

High-throughput SNP genotyping based on solid-phase PCR on magnetic nanoparticles with dual-color hybridization

Single-nucleotide polymorphisms (SNPs) are one-base variations in DNA sequence that can often be helpful when trying to find genes responsible for inherited diseases. In this paper, a microarray-based method for typing single nucleotide polymorphisms (SNPs) using solid-phase polymerase chain reaction (PCR) on magnetic nanoparticles (MNPs) was developed. One primer with biotin-label was captured by streptavidin coated magnetic nanoparticles (SA-MNPs), and PCR products were directly amplified on the surface of SA-MNPs in a 96-well plate. The samples were interrogated by hybridization with a pair of dual-color probes to determine SNP, and then genotype of each sample can be simultaneously identified by scanning the microarray printed with the denatured fluorescent probes. The C677T polymorphisms of methylenetetrahydrofolate reductase (MTHFR) gene from 126 samples were interrogated using this method. The results showed that three different genotypes were discriminated by three fluorescence patterns on the microarray. Without any purification and reduction procedure, and all reactions can be performed in the same vessel, this approach will be a simple and labor-saving method for SNP genotyping and can be applicable towards the automation system to achieve high-throughput SNP detection.     

Single-nucleotide-polymorphism genotyping for whole-genome-amplified samples using automated fluorescence correlation spectroscopy

Whole-genome amplification (WGA) methods were adopted for single-nucleotide-polymorphism (SNP) typing to minimize the amount of genomic DNA that has to be used in typing for thousands of different SNPs in large-scale studies; 5-10 ng of genomic DNA was amplified by a WGA method (improved primer-extension-preamplification-polymerase chain reaction (I-PEP-PCR), degenerated oligonucleotide primer-PCR (DOP-PCR), or multiple displacement amplification (MDA)). Using 1/100 to 1/500 amounts of the whole-genome-amplified products as templates, subsequent analyses were successfully performed. SNPs were genotyped by the sequence-specific primer (SSP)-PCR method followed by fluorescence correlation spectroscopy (FCS). The typing results were evaluated for four different SNPs on tumor necrosis factor receptor 1 and 2 genes (TNFR1 and TNFR2). The genotypes determined by the SSP-FCS method using the WGA products were 100% in concordance with those determined by nucleotide sequencing using genomic DNAs. We have already carried out typing of more than 300 different SNPs and are currently performing 7,500-10,000 typings per day using WGA samples from patients with several common diseases. WGA coupled with FCS allows specific and high-throughput genotyping of thousands of samples for thousands of different SNPs.     

Population screening of single-nucleotide polymorphisms exemplified by analysis of 8000 alleles

The authors describe a method in which the population frequency of single-nucleotide polymorphisms (SNPs) can be efficiently detected and their allele frequencies accurately measured. Selected SNPs in TNFbeta, IL-4, and CTLA-4 were used to demonstrate the method. Blood from 4000 individuals was pooled, DNA was extracted, and target sequences were PCR amplified and analyzed by denaturant capillary electrophoresis. Alleles were separated into peaks based on melting properties of the double DNA helix. Frequencies of the different alleles were determined by calculating the area under the peaks. Allele frequencies and Hardy-Weinberg equilibrium estimated from the pooled data were verified by analyzing 7.5% of the samples randomly selected from the blood donor series. The method herein is equally suitable for single-samples and/or pooled-samples analysis of SNPs, in which sample treatment is kept to a minimum. The potential throughput of the method is beyond obtainable numbers of samples.     

The tagged microarray marker (TAM) method for high-throughput detection of single nucleotide and indel polymorphisms

The tagged microarray marker (TAM) method allows high-throughput differentiation between predicted alternative PCR products. Typically, the method is used as a molecular marker approach to determining the allelic states of single nucleotide polymorphisms (SNPs) or insertion-deletion (indel) alleles at genomic loci in multiple individuals. Biotin-labeled PCR products are spotted, unpurified, onto a streptavidin-coated glass slide and the alternative products are differentiated by hybridization to fluorescent detector oligonucleotides that recognize corresponding allele-specific tags on the PCR primers. The main attractions of this method are its high throughput (thousands of PCRs are analyzed per slide), flexibility of scoring (any combination, from a single marker in thousands of samples to thousands of markers in a single sample, can be analyzed) and flexibility of scale (any experimental scale, from a small lab setting up to a large project). This protocol describes an experiment involving 3,072 PCRs scored on a slide. The whole process from the start of PCR setup to receiving the data spreadsheet takes 2 d.     

A PCR method for detection of bifidobacteria in raw milk and raw milk cheese: comparison with culture-based methods

Bifidobacteria are well known for their beneficial effects on health and are used as probiotics in food and pharmaceutical products. As they form one of the most important groups in both human and animal feces, their use as fecal indicator organisms in raw milk products has recently been proposed. Bifidobacteria species isolated in humans are different from those isolated in animals. It should therefore be possible to determine contamination origin (human or animal). A method of detecting the Bifidobacterium genus was developed by PCR targeting the hsp60 gene. The genus Bifidobacterium was identified by PCR amplification of a 217-bp hsp60 gene fragment. The degenerated primer pair specific to the Bifidobacterium genus used was tested for it specificity on 127 strains. Sensitivity was measured on artificially contaminated samples. Food can however be a difficult matrix for PCR testing since it contains PCR inhibitors. So an internal PCR control was used. An artificially created DNA fragment of 315 bp was constructed. The PCR detection method was tested on raw milk and cheese samples and compared with three culture-based methods, which comprised enrichment and isolation steps. The enrichment step used Brain Heart Infusion medium with propionic acid, iron citrate, yeast extract, supplemented with mupirocin (BHMup) or not (BH) and the isolation step used Columbia blood agar medium, supplemented with mupirocin (CMup) or not (C). The method using mupirocin at both enrichment and isolation steps and the PCR method performed from the culture in BHMup enrichment medium were shown to be the most efficient. No significant difference was observed in raw milk samples between PCR from BHMup and the culture-based method BHMup/CMup, while a significant difference was noticed between the same methods in raw milk cheese samples, which would favor using PCR. The results suggested that PCR on the hsp60 gene was convenient for a rapid detection of bifidobacteria in raw milk and raw milk cheese samples and that bifidobacteria always present throughout raw milk cheese production could be efficiently used as fecal indicators.     

利用混合样本池法对鸡显性白羽基因PMEL17突变位点的检测

显性白羽基因座是影响鸡羽色形成的重要基因座位之一, 该基因座上的显性等位基因I 会抑制黑色素合成, 从而使携带该基因的个体全身羽毛呈现白色。目前已确认鸡显性白羽基因座编码PMEL17蛋白: 是一种黑素细胞特异性蛋白, 在黑素细胞的分化与成熟中起到重要作用, 并证明PMEL17基因的突变与显性白羽的形成有关。文章利用混合样本池建立了一种低成本、高效率, 并能在大规模群体中检测PMEL17基因突变的方法, 称为PCR产物混合样本池法。该方法的基本步骤如下: 首先, 提取个体基因组DNA, 并设计相关引物对每一个体单独进行PCR扩增; 其次, 将PCR产物等比例混合, 10个样品混在一个池中; 然后, 将PCR产物混合池样品于非变性聚丙烯酰胺凝胶上进行电泳; 最后, 待电泳结束后进行银染, 根据凝胶上所显条带判定是否存在突变体。此外, 文章还将这种方法与传统基因组DNA混合样本池法进行了比较试验, 并利用该方法对试验鸡群显性白羽基因PMEL17突变进行检测, 证实该方法具有较高准确度。     

一种单核苷酸多态性的单倍型分析技术

运用多步PCR和测序技术,完成基因组中相距较远的单核苷酸多态位点的单倍型构建。通过设计2条等位基因特异性引物,扩增大片段DNA(10kb左右),以此大片段DNA作为下一轮PCR反应的模板,再在该片段中设计待检测区域的PCR引物,进行第2轮PCR。对PCR产物进行测序分析,确定其多态位点处的等位基因。结合第1轮PCR中的等位基因特异性引物,即可确定该大片段DNA中不同单核苷酸多态性构成的单倍型。以脂蛋白脂酶基因为例,应用其启动子区以及第4外显子区的等位基因特异性引物扩增约16kb的DNA片段,然后检测位于该片段中第2、3外显子的多态性。在￡-尸￡-基因第2内含子中发现了 13557G→A多态性。经分析确定出-421G／ 13557G／ 15222A、-421A／ 13557G／ 15222A、-421G／ 13557G／ 15222G、-421G／ 13557A／ 15222A等4种单倍型。等位基因特异性PCR结合小片段测序是一种快捷高效的对相距较远的多个SNP进行单倍型构建的新策略。     

Detection of human T-cell leukemia virus type I (HTLV-I) provirus in an infected cell line and in peripheral mononuclear cells of blood donors by the nested double polymerase chain reaction method: comparison with HTLV-I antibody tests.

Human T-cell leukemia virus type I (HTLV-I) provirus DNA from the cultured cell line HUT 102 and from peripheral mononuclear cells (PBMC) of anti-HTLV-I antibody-positive Japanese blood donors was detected by the nested double polymerase chain reaction (PCR) method. This procedure consists of a first amplification and a second amplification with the products of the first amplification and primers interior to the first primers. Using this method, we demonstrated that it is possible to detect single-template DNA. Polyacrylamide gel electrophoresis of the nested double PCR products, with our primers, revealed three bands with excess amounts of template DNA, two bands with moderate amounts, and a single band with limited amounts. The amount of provirus in PBMC was roughly estimated from the results of the nested double PCR. Particle agglutination (PA) assays and indirect immunofluorescence testing (IF) with mixed MT-2 cells and Molt-4 cells as targets to detect anti-HTLV-I antibody were performed, and the results were compared with those of the nested double PCR of the pX region. None of the 101 PA-negative samples were positive in either the IF or PCR test. Of the 155 samples that were antibody positive by the PA assay, 57 were positive by both PCR and IF. Furthermore, the results of the IF and PCR tests coincided completely. It was therefore concluded that the IF method is most appropriate for confirmation of the PA assay currently used in most diagnostic laboratories and blood centers.     

工业化废水处理反应器污泥总DNA提取方法

根据工业化废水处理反应器污泥特性,对常规的溶菌酶-SDS-酚/氯仿环境样品总DNA提取方法进行改进,增强样品预处理,强化细胞裂解,提高杂质去除效率,获得了一种工业化污泥总DNA提取的通用方法,并采用该方法对石家庄若干实际运行的工业化厌氧、好氧反应器的污泥样品进行了总DNA提取研究.结果表明,该方法对所选污泥样品均有效,具有普适性.提取的污泥总DNA杂质含量少,纯度高,A260/A280在1.8左右;提取效率较高.总DNA产率都在0.7 mg/g以上,最大产率可达0.85 mg/g.所提取的污泥总DNA可以直接作为模板进行PCR反应,PCR产物直接进行变性梯度凝胶电泳(DGGE),能够得到较好的DGGE谱图,表明该方法提取的污泥总DNA样品可满足后续分析研究的要求.     

A multiplex bead-based suspension array assay for interrogation of phylogenetically informative single nucleotide polymorphisms for Bacillus anthracis

Single nucleotide polymorphisms (SNPs) are abundant in genomes of all species and represent informative DNA markers extensively used to analyze phylogenetic relationships between strains. Medium to high throughput, open methodologies able to test many SNPs in a minimum time are therefore in great need. By using the versatile Luminex® xTAG technology, we developed an efficient multiplexed SNP genotyping assay to score 13 phylogenetically informative SNPs within the genome of Bacillus anthracis. The Multiplex Oligonucleotide Ligation-PCR procedure (MOL-PCR) described by Deshpande et al., 2010 has been modified and adapted for simultaneous interrogation of 13 biallelic canonical SNPs in a 13-plex assay. Changes made to the originally published method include the design of allele-specific dual-priming-oligonucleotides (DPOs) as competing detection probes (MOLigo probes) and use of asymmetric PCR reaction for signal amplification and labeling of ligation products carrying SNP targets. These innovations significantly reduce cross-reactivity observed when initial MOLigo probes were used and enhance hybridization efficiency onto the microsphere array, respectively. When evaluated on 73 representative samples, the 13-plex assay yielded unambiguous SNP calls and lineage affiliation. Assay limit of detection was determined to be 2 ng of genomic DNA. The reproducibility, robustness and easy-of-use of the present method were validated by a small-scale proficiency testing performed between four European laboratories. While cost-effective compared to other singleplex methods, the present MOL-PCR method offers a high degree of flexibility and scalability. It can easily accommodate newly identified SNPs to increase resolving power to the canSNP typing of B. anthracis.     

贵州地区汉族人群THO1、TPOX、CSF1PO基因座的遗传多态性

为了解贵州地区汉族群体中THO1、TPOX、CSF1PO基因座的遗传多态性,获得这3个基因座的群体遗传学数据和法医学相关数据。采自贵州地区汉族无关个体的110份EDTA抗凝血样用Chelex法提取DNA,应用PCR复合扩增技术扩增样本后,聚丙烯酰胺凝胶电泳分型。对3个STR基因座的等位基因频率进行了调查分析,并与其他汉族人群的等位基因频率进行了比较。在贵州汉族群体中,3个基因座的基因型分布符合Hardy-Weinberg平衡。3个STR基因座总个体识别率为0.9986,累积非父排除率为0.832。表明这3个基因座在法医学个体识别及亲子鉴定中是很有价值的遗传标记系统。 Abstract:To understand the genetic polymorphism at THO1,TPOX,CSF1PO STR loci for Han population in Guizhou Province,and construct a preliminary database,EDTA-blood specimens were collected from the 110 unrelated individuals in Han population from Guizhou.The DNA samples were extracted with Chelex method and amplified by multiplex polymerase chain reaction.The PAGE was used to type the PCR products.The allele frequencies were compared with other Han populations.The genotype distributions of THO1,TPOX and CSF1PO were in accordance with Hardy-Weinberg equilibrium.The combined PD and PE were 0.9986 and 0.832 respectively.All of the three loci in this study provide useful marker for forensic paternity test and individual identification.     

A direct and efficient PAGE-mediated overlap extension PCR method for gene multiple-site mutagenesis

A simple, two-step efficient method to perform multiple-site mutagenesis of a gene from bacterial genome was developed. The method was named polyacrylamide gel electrophoresis (PAGE)-mediated overlap extension polymerase chain reaction (PCR) (POEP). The first step involves synthesis of individual fragments containing mutant sites with 15- to 25-bp overlap between two adjacent fragments. Mutations were introduced into the overlapping oligonucleotide primers which ensured the particular primer-template annealing. PAGE was used to remove contaminating parental templates, mispriming fragments, and leftover primers. The second step involves synthesis of the mutant full-length fragment. All purified PCR products from the first step were combined and used as the template for a second PCR using high-fidelity DNA polymerase, with the two outermost flanking oligonucleotides as primers. Using the POEP method, we have successfully introduced eight EcoRI sites into the Escherichia coli β-galactosidase (Lac Z) gene. The overall rate of obtaining the multiple mutant sites was 100%. The POEP method is simple, involving only two steps, and reliable for multiple-site mutagenesis and is promising to be widely used in gene modification.     

An evaluation of terminal-restriction fragment length polymorphism (T-RFLP) analysis for the study of microbial community structure and dynamics

A systematic evaluation of the value and potential of terminal-restriction fragment length polymorphism (T-RFLP) analysis for the study of microbial community structure has been undertaken. The reproducibility and robustness of the method has been assessed using environmental DNA samples isolated directly from PCB-polluted or pristine soil, and subsequent polymerase chain reaction (PCR) amplification of total community 16S rDNA. An initial investigation to assess the variability both within and between different polyacrylamide gel electrophoresis (PAGE) runs showed that almost identical community profiles were consistently produced from the same sample. Similarly, very little variability was observed as a result of variation between replicate restriction digestions, PCR amplifications or between replicate DNA isolations. Decreasing concentrations of template DNA produced a decline in both the complexity and the intensity of fragments present in the community profile, with no additional fragments detected in the higher dilutions that were not already present when more original template DNA was used. Reducing the number of cycles of PCR produced similar results. The greatest variation between profiles generated from the same DNA sample was produced using different Taq DNA polymerases, while lower levels of variability were found between PCR products that had been produced using different annealing temperatures. Incomplete digestion by the restriction enzyme may, as a result of the generation of partially digested fragments, lead to an overestimation of the overall diversity within a community. The results obtained indicate that, once standardized, T-RFLP analysis is a highly reproducible and robust technique that yields high-quality fingerprints consisting of fragments of precise sizes, which, in principle, could be phylogenetically assigned, once an appropriate database is constructed.