Real-time PCR assay for measurement of mouse telomeres

Measurement of telomeres by polymerase chain reaction (PCR) amplification has been problematic due to the formation of dimers by the primers designed to hybridize to the telomere repeats. Recently, a set of primers that overcome this problem has been created and used to develop an assay to measure human telomeres by real-time quantitative PCR. We modified this assay to measure mouse telomeres. Results showed that the primers do indeed amplify mammalian telomere repeats without forming dimers. Results obtained from the real-time quantitative PCR assay of mouse DNA were similar to terminal restriction fragment analysis by pulsed-field gel electrophoresis followed by Southern hybridization. The assay performed with mouse DNA in a similar manner as it performs with human DNA. Preliminary linkage mapping suggests a gene influencing telomere length on the X chromosome. This assay will aid in the study of telomere function and importance in diseases associated with aging and cancer formation.     

Real-time PCR assay for quantitative mismatch detection

We describe here a quantitative real-time PCR assay for the detection of single-base-pair differences that does not require fluorescently labeled gene-specific probes or complicated primer combinations. Following PCR or RT-PCR of a gene segment that may contain allele-specific differences, 100 pg amplified product are used for a real-time PCR with allele-specific primers and SYBR Green. The use of HEPES buffer at a pH of 6.95 together with AmpliTaq DNA polymerase results in a threshold difference between the correct template and the mismatched template of as many as 20 cycles, depending on the mismatch. Correct matches can be detected in an excess of mismatched template at least at the 0.01 level for the six primer-template matches versus mismatches tested: GC vs. A.C, AT vs. G.T, GC vs. C.C, GC vs. G.G, AT vs. C.T, and GC vs. G.A. Because the initial amplification is separate from real-time detection, conditions can be independently optimized for each step, making the assay particularly suitable for the detection of allele-specific expression in single cells.     

Real-time quantitative PCR assay for analysis of platelet glycoprotein IIIa gene expression

A quantitative detection assay for analysis of platelet glycoprotein GPIIIa gene expression is presented. The assay uses two fluorescently labeled TaqMan MGB probes to detect the polymorphic site in GPIIIa nucleotide sequence, leading to antigens HPA-1a and HPA-1b. In order to avoid the influence of DNA contamination on RNA quantification, a forward primer was constructed to span an exon-exon junction. The assay is therefore applicable to expression studies also in samples containing only a small amount of contaminating DNA. To standardize the amount of sample cDNA added to the reaction, amplification of endogenous control 18SrRNA was included in a separate well. The amplification validation experiment showed a high real-time PCR efficiency for HPA-1a, HPA-1b and 18SrRNA. Relative quantification was therefore performed using the comparative C(T) method. The assay was optimized on a reversely transcribed total RNA from platelets, and the specificity rate was determined by sequencing. The amount of cDNA at which amplification was still clearly detectable was 5 ng. This newly developed real-time quantitative PCR assay is a sensitive, reproducible and reliable method. It is suitable for studying different stages of megakaryopoiesis, monitoring molecular alteration in defective platelets and determining differences in the GPIIIa expression level between normal and pathological megakaryocytic differentiation pathways.     

Real-time quantitative PCR in parasitology

Standard techniques for counting parasites are often time-consuming, difficult and inaccurate, and occasionally unpleasant. Real-time quantitative polymerase chain reaction has recently been applied to parasitology, specifically Plasmodium, Toxoplasma, Leishmania and Neospora. These techniques are truly quantitative, give results over a range of 6-7 orders of magnitude, are quick to perform and require no manipulations post-amplification. They can be used to count genome numbers and to study levels of gene expression. The advantages and limitations of existing thermocyclers and applicable detection systems are discussed here, and promising new developments are highlighted.     

Absolute standards as a useful addition to the avian quantitative PCR telomere assay

Bird populations provide excellent systems to investigate variation in longevity in the wild since individuals can often be monitored over their lifetime. A number of recent studies suggest that the dynamics of protective telomere chromosome caps (telomere length and rate of loss) are indicative of biological state and potentially useful as indicators of future longevity. Currently, Terminal Restriction Fragment (TRF) analysis and relative quantitative PCR (qPCR) are used to measure telomeres in birds, but with limitations. TRF analysis is time consuming, while relative qPCR gives a within‐study relative value making it difficult to compare across experiments. Utilising an approach first developed in humans of using synthetic oligomer telomeric (TTAGGG)_n and normaliser gene standards of known length to calibrate qPCR values, we describe a methodological adaptation to the avian qPCR telomere assay to make results comparable within, and potentially between, bird species. We evaluate this absolute qPCR method in the Seychelles warbler Acrocephalus sechellensis against relative qPCR measurements on the same samples. Telomere estimates from both methods showed an age‐related decline in telomere length, and were highly correlated (r = 0.99). Absolute qPCR avian telomere analysis may prove a useful means of estimating telomere lengths in a calibrated, sensitive, and efficient way using small amounts of archived bird sample.     

实时定量PCR技术及应用

实时定量PCR(Real-tim e Quantitative Polym erase Chain Reaction,RQ-PCR),是20世纪90年代中期发展起来的基于PCR技术的利用不同的荧光检测来给核酸定量的技术。克服了传统PCR的许多不足,能准确敏感地检测模板浓度,DNA拷贝数和检测基因变异。综述了RQ-PCR技术的原理,RQ-PCR实时定量检测系统及应用。     

Telomere measurement by quantitative PCR

It has long been presumed impossible to measure telomeres in vertebrate DNA by PCR amplification with oligonucleotide primers designed to hybridize to the TTAGGG and CCCTAA repeats, because only primer dimer-derived products are expected. Here we present a primer pair that eliminates this problem, allowing simple and rapid measurement of telomeres in a closed tube, fluorescence-based assay. This assay will facilitate investigations of the biology of telomeres and the roles they play in the molecular pathophysiology of diseases and aging.     

Real-time PCR TaqMan assay for rapid screening of bloodstream infection

Background

Sepsis is one of the main causes of mortality and morbidity. The rapid detection of pathogens in blood of septic patients is essential for adequate antimicrobial therapy and better prognosis. This study aimed to accelerate the detection and discrimination of Gram-positive (GP) and Gram-negative (GN) bacteria and Candida species in blood culture samples by molecular methods.

Methods

The Real-GP®, -GN®, and -CAN® real-time PCR kit (M&D, Wonju, Republic of Korea) assays use the TaqMan probes for detecting pan-GP, pan-GN, and pan-Candida species, respectively. The diagnostic performances of the real-time PCR kits were evaluated with 115 clinical isolates, 256 positive and 200 negative blood culture bottle samples, and the data were compared to results obtained from conventional blood culture.

Results

Eighty-seven reference strains and 115 clinical isolates were correctly identified with specific probes corresponding to GP-bacteria, GN-bacteria and Candida, respectively. The overall sensitivity and specificity of the real-time PCR kit with blood culture samples were 99.6% and 89.5%, respectively.

Conclusions

The Real-GP®, -GN®, and -CAN® real-time PCR kits could be useful tools for the rapid and accurate screening of bloodstream infections (BSIs).     

实时定量PCR方法检测鼻咽癌病人全血EB病毒拷贝数的实验研究

EBV is detected in more and more tumors, and is relative to carcinogenesis. We studied the copies of EBV DNA in whole blood of NPC patients and healthy controls by real-time quantitative PCR. In the 73 NPC patients and 83 controls, the positive rate of EBV in blood of NPC is 46.6%, while 13.3% in control. The mean copy number is 3.9 x 10(4) copys/microgram DNA in controls, which is much higher than NPC patients (which is 1.7 x 10(5) copies/microgram DNA). EBV infection is relative with NPC, while the lytic form of EBV maybe more important than its latent form. These results suggest that whole blood EBV DNA may be a valuable tool for molecular diagnosis of NPC.     

实时定量RT-PCR检测鱼类传染性造血器官坏死病毒方法的建立与应用

建立了Taqman 实时定量RT-PCR方法检测传染性造血器官坏死病毒(IHNV).选取IHNV病毒的N蛋白基因保守序列,利用Primer Express 2.0软件设计引物和探针.以梯度稀释的含有IHNV目的扩增片段的质粒作为标准品,进行定量RT-PCR反应以确定检测灵敏度.病毒浓度在5×106 -5个拷贝,共7个数量级的范围内,定量RT-PCR反应有"S"型扩增曲线,检测灵敏度为5个拷贝.根据病毒拷贝数与定量反应Ct值的关系,绘制了标准曲线.该方法具有特异性,对鲤春血症病毒(SVCV)、病毒性出血性败血症(VHSV)、传染性胰脏坏死病毒(IPNV)、草鱼呼肠孤病毒(GCRV)、流行性造血器官坏死病毒(EHNV)、EPC细胞系、牙鲆的核酸都没有扩增反应.在50批待检样品中,有3批鱼类感染IHNV,利用标准曲线进行了定量分析.实时定量RT-PCR检测IHNV方法,灵敏度高,特异性好,可以进行定量分析,在鱼病的快速检测上具有重要意义.     

Real-time quantitative PCR assay on bacterial DNA: In a model soil system and environmental samples

Real-time quantitative PCR (RTQ-PCR) was used to quantify the bacterial target DNA extracted by three commonly used DNA extraction protocols (bead mill homogenization, grinding in presence of liquid nitrogen and hot detergent SDS based enzymatic lysis). For the purpose of our study, pure culture of Bacillus cereus (model organism), sterilized soil seeded with a known amount of B. cereus (model soil system) and samples from woodland and grassland (environmental samples) were chosen to extract DNA by three different protocols. The extracted DNA was then quantified by RTQ-PCR using 16S rDNA specific universal bacterial primers. The standard curve used for the quantification by RTQ-PCR was linear and revealed a strong linear relationship (r(2)=0.9968) with a higher amplification efficiency, e5=1.02. High resolution gel electrophoresis was also carried out to observe the effect of these extraction methods on diversity analysis. For the model soil system, the liquid nitrogen method showed the highest target DNA copy number (1.3 x 10(9) copies/microl). However, for both the environmental samples, the bead beating method was found to be suitable on the basis of the high target DNA copy numbers (5.38 x 10(9) and 4.01 x 10(8) copies/ml for woodland and grassland respectively), high yield (6.4 microg/g and 1.76 microg/g of soil for woodland and grassland respectively) and different band patterns on high resolution gel electrophoresis suggesting an overall high extraction efficiency. This difference in the extraction efficiency between the model soil system and environmental samples may be attributed to different affinity of seeded and native DNA to soil particles.     

A competitive PCR assay for quantitative detection of Neospora caninum

A quantitative-competitive PCR (QC-PCR) assay was developed for measurement of Neospora caninum levels in the tissues of infected animals. A molecule was synthesised for use in PCR as a competitor to the target Neospora-specific Nc5 genomic sequence. The assay was used to evaluate the relative level of parasites in the brain and lungs of mouse pups in a model of vertical transmission of N. caninum. Infection on day 11 of gestation resulted in similar levels of parasites in all offspring. The assay should be useful in evaluation of vaccines against Neospora infection. Incorporation of the competitor molecule in the detection assay also provides a control for PCR failure and facilitates identification of truly negative samples.     

Real-time quantitative PCR for enteric adenovirus serotype 40 in environmental waters

Adenoviruses 40 and 41 have been recognized as important etiological agents of gastroenteritis in children. A real-time PCR method (TaqMan assay) was developed for rapid quantification of adenovirus 40 (Ad40) by amplifying an 88 bp sequence from the hexon gene. To establish a quantification standard curve, a 1090 bp hexon region of Ad40 was amplified and cloned into the pGEM-T Vector. A direct correlation was observed between the fluorescence threshold cycle number (Ct) and the starting quantity of Ad40 hexon gene. The quantification was linear over 6-log units and the amplification efficiency averaged greater than 95%. Seeding studies using various environmental matrices (including sterile water, creek water, brackish estuarine water, ocean water, and secondary sewage effluent) suggest that this method is applicable to environmental samples. However, real-time PCR was sensitive to inhibitors present in the environmental samples. Lower efficiency of PCR amplification was found in secondary sewage effluent and creek waters. Application of the method to fecal contaminated waters successfully quantified the presence of Ad40. The sensitivity of the real-time PCR is comparable to the traditional nested PCR assay for environmental samples. In addition, the real-time PCR assay offers the advantage of speed and insensitivity to contamination during PCR set up. The real-time PCR assay developed in this study is suitable for quantitative determination of Ad40 in environmental samples and represents a considerable advancement in pathogen quantification in aquatic environments.     

Real-time PCR assay for the detection of species of the genus Mannheimia

Infections caused by species of the genus Mannheimia cause diverse disease complexes in many wild and domestic animals worldwide. Fast and accurate detection of single species within the genus remains an unsolved problem till today. To resolve this diagnostic challenge, we developed a real-time PCR assay for the rapid and specific identification of five species of the genus Mannheimia (M. haemolytica, M. varigena, M. ruminalis, M. granulomatis and M. glucosida) from bacterial cultures and tissue samples. The assay was validated with reference strains, field isolates and bacteria spiked tissue samples. The sodA gene was used as target region for species-specific primer pairs. The real-time PCR assay demonstrated species specificity for all five examined Mannheimia spp. and a rapid test completion time of less than 5 h. This is a considerable advantage compared to the traditional phenotyping methods currently used to distinguish between the species of the genus. The assay was able to detect approximately 10(3) bacterial cells per gram lung tissue sample, as determined with spiked tissue samples. We assume that the assay could become useful for fast laboratory diagnostic assessment particularly of respiratory infections caused by Mannheimia in animals.     

Development of a TaqMan quantitative PCR assay specific for Cryptosporidium parvum

A rapid detection method that is both quantitative and specific for the water-borne human parasite Cryptosporidium parvum is reported. Real-time polymerase chain reaction (PCR) combined with fluorescent TaqMan technology was used to develop this sensitive and accurate assay. The selected primer-probe set identified a 138-bp section specific to a C. parvum genomic DNA sequence. The method was optimized on a cloned section of the target DNA sequence, then evaluated on C. parvum oocyst dilutions. Quantification was accomplished by comparing the fluorescence signals obtained from test samples of C. parvum oocysts with those obtained from standard dilutions of C. parvum oocysts. This real-time PCR assay allowed reliable quantification of C. parvum oocysts over six orders of magnitude with a baseline sensitivity of six oocysts in 2 h.