实时定量PCR评估金针菇的内参基因稳定性

金针菇在中国和日本是最受人喜爱的食用菌之一,在重要栽培食用菌中产销量排名第四.近年来,已在活性物质、分子标记及基因鉴定方面开展了大量工作,但未见有金针菇内参基因稳定性研究的报道,导致金针菇基因表达研究无内源参考基因稳定性数据作为参考.本研究采用geNorm、NormFinder、BestKeeper和RefFinder...     

Comparison of droplet digital PCR and quantitative real-time PCR for examining population dynamics of bacteria in soil

The newly developed droplet digital PCR (DD-PCR) has shown promise as a DNA quantification technology in medical diagnostic fields. This study evaluated the applicability of DD-PCR as a quantitative tool for soil DNA using quantitative real-time PCR (qRT-PCR) as a reference technology. Cupriavidus sp. MBT14 and Sphingopyxis sp. MD2 were used, and a primer/TaqMan probe set was designed for each (CupMBT and SphMD2, respectively). Standard curve analyses on tenfold dilution series showed that both qRT-PCR and DD-PCR exhibited excellent linearity (R ²?=?1.00) and PCR efficiency (≥92 %) across their detectable ranges. However, DD-PCR showed a tenfold greater sensitivity than qRT-PCR. MBT14 and MD2 were added to non-sterile soil at 0?~?5?×?10⁸ and 0?~?5?×?10⁷ cells per gram of soil, respectively (n?=?5). This bacterial load test indicated that DD-PCR was more sensitive and discriminating than qRT-PCR. For instance, DD-PCR showed a gradual DNA increase from 14 to 141,160 MBT14 rDNA copies μL DNA extract^?1 as the bacterial load increased, while qRT-PCR could quantify the DNA (6,432 copies μL DNA^?1) at ≥5?×?10⁵ MBT14 per gram of soil. When temporal DNA changes were monitored for 3 weeks in the amended soils, the two technologies exhibited nearly identical changes over time. Linearity tests (y?=?a?·?x) revealed excellent quantitative agreement between the two technologies (a?=?0.98, R ²?=?0.97 in the CupMBT set and a?=?0.90, R ²?=?0.94 in the SphMD2 set). These results suggest that DD-PCR is a promising tool to examine temporal dynamics of microorganisms in complex environments.     

Enumeration and detection of acetic acid bacteria by real-time PCR and nested PCR

Acetic acid bacteria play a negative role in wine making because they increase the volatile acidity of wines. They can survive in the various phases of alcoholic fermentation and it is very important to control their presence and ulterior development. The main objective of the present work is to test fast, sensitive and reliable techniques such as real-time PCR (rt-PCR) and nested PCR for enumerating and detecting the presence of this bacterial group without plating. Primers were designed on the basis of the available 16S rRNA gene sequences and tested successfully with reference acetic acid bacteria strains. The usefulness of rt-PCR was demonstrated by comparing the results with traditional techniques (colony and microscope counting). The results were similar with all the techniques. Optimized rt-PCR enabled numbers between 10(7) and 10(1) cells mL(-1) to be enumerated, while nested PCR detected less than 10 cells mL(-1). Although this latter technique cannot be used for enumeration, it has several advantages in routine laboratory analysis.     

Population dynamics and in situ kinetics of nitrifying bacteria in autotrophic nitrifying biofilms as determined by real-time quantitative PCR

Population dynamics of ammonia-oxidizing bacteria (AOB) and uncultured Nitrospira-like nitrite-oxidizing bacteria (NOB) dominated in autotrophic nitrifying biofilms were determined by using real-time quantitative polymerase chain reaction (RTQ-PCR) and fluorescence in situ hybridization (FISH). Although two quantitative techniques gave the comparable results, the RTQ-PCR assay was easier and faster than the FISH technique for quantification of both nitrifying bacteria in dense microcolony-forming nitrifying biofilms. Using this RTQ-PCR assay, we could successfully determine the maximum specific growth rate (mu = 0.021/h) of uncultured Nitrospira-like NOB in the suspended enrichment culture. The population dynamics of nitrifying bacteria in the biofilm revealed that once they formed the biofilm, the both nitrifying bacteria grew slower than in planktonic cultures. We also calculated the spatial distributions of average specific growth rates of both nitrifying bacteria in the biofilm based on the concentration profiles of NH4+, NO2-, and O2, which were determined by microelectrodes, and the double-Monod model. This simple model estimation could explain the stratified spatial distribution of AOB and Nitrospira-like NOB in the biofilm. The combination of culture-independent molecular techniques and microelectrode measurements is a very powerful approach to analyze the in situ kinetics and ecophysiology of nitrifying bacteria including uncultured Nitrospira-like NOB in complex biofilm communities.     

Targeted profiling of oral bacteria in human saliva and in vitro biofilms with quantitative real-time PCR

An in vitro plaque model based on the use of human salivary bacteria and tooth-like surfaces was previously developed for studying the formation of oral biofilm and its use for pre-clinical testing of candidate antimicrobial or antiplaque agents. In this study, a quantitative Taqman PCR assay (QPCR) was developed to compare the bacterial compositions of in vitro biofilms to parent saliva samples, and to determine the relative contributions of different species in the formation of the oral biofilm. In addition, the growth inhibition of saliva-derived plaque was evaluated by chlorhexidine. With this assay, which consisted of primer/probe sets targeting either 16S rDNA sequences present in public databases or cloned ribosomal intergenic spacer region (ISR) sequences, 15 oral bacteria derived from saliva as well as those that were responsible for biofilm formation in an in vitro plaque model were rapidly identified and quantified. Among the target organisms were Actinobacillus actinomycetemcomitans, Eikenella corrodens, Fusobacterium nucleatum, Lactobacillus acidophilus, Micromonas micros, Porphyromonas gingivalis, Prevotella intermedia, Streptococcus mutans, Streptococcus sobrinus, Tannerella forsythensis, and Veillonella parvula. Primer and probe sets developed were both sensitive and specific. The relative profiles of a number of bacteria in 45-h-old biofilms were determined and, when compared to saliva samples, it was found that most of the bacteria identified in saliva also populated the in vitro plaque, including some anaerobes. Brief exposure of biofilms to chlorhexidine resulted in significant losses in viability. This new broad spectrum QPCR assay in combination with the in vitro plaque model will be of significant value in the quantitative study of the microbial composition of human saliva, saliva-derived plaque, and pre-clinical evaluation of potential antimicrobial and antiplaque molecules.     

Evaluation of uncertainty in quantitative real-time PCR

Quantitative real-time PCR is one of the newer methods for measurement of the amount of nucleic material in biological systems. However, reliable measurement requires an appropriate estimation of uncertainty and this paper has developed the uncertainty budget associated with this procedure using as an example, data from a quantitative real-time PCR method for the enumeration of Campylobacter jejuni. This uncertainty is relatively large and for instance, a measured result of 151 units of DNA would have a 95% confidence interval of +/-84 units of DNA with the main sources of uncertainty being the measurement of the threshold cycle (Ct) value, the predicted DNA content of the unknown sample from the calibration line and the molar absorbance value for DNA.     

Quantification of ammonia-oxidizing bacteria in arable soil by real-time PCR

Real-time PCR was used to quantify populations of ammonia-oxidizing bacteria representing the beta subdivision of the class Proteobacteria in samples of arable soil, both nitrogen fertilized and unfertilized, from Mellby, Sweden. Primers and probes targeting a 16S ribosomal DNA region of the ammonia-oxidizing bacteria were designed and used. In the fertilized soil there were approximately 6.2 x 10(7) ammonia-oxidizing bacteria per g of soil, three times more than the number of bacteria in the unfertilized soil. The lytic efficiency of bead beating in these soils was investigated by using populations of free or loosely attached bacteria, bacteria tightly bound to particles, and bacteria in nonfractionated samples. The shapes of the curves generated in these tests showed that the concentration of template DNA released at various times remained constant after 10 to 100 s of bead beating.     

Simultaneous quantitative detection of relevant biomarkers in breast cancer by quantitative real-time PCR

The assessment of ERa, PgR and HER2 status is routinely performed today to determine the endocrine responsiveness of breast cancer samples. Such determination is usually accomplished by means of immunohistochemistry and in case of HER2 amplification by means of fluorescent in situ hybridization (FISH). The analysis of these markers can be improved by simultaneous measurements using quantitative real-time PCR (Qrt-PCR). In this study we compared Qrt-PCR results for the assessment of mRNA levels of ERa, PgR, and the members of the human epidermal growth factor receptor family, HER1, HER2, HER3 and HER4. The results were obtained in two independent laboratories using two different methods, SYBR Green I and TaqMan probes, and different primers. By linear regression we demonstrated a good concordance for all six markers. The quantitative mRNA expression levels of ERa, PgR and HER2 also strongly correlated with the respective quantitative protein expression levels prospectively detected by EIA in both laboratories. In addition, HER2 mRNA expression levels correlated well with gene amplification detected by FISH in the same biopsies. Our results indicate that both Qrt-PCR methods were robust and sensitive tools for routine diagnostics and consistent with standard methodologies. The developed simultaneous assessment of several biomarkers is fast and labor effective and allows optimization of the clinical decision-making process in breast cancer tissue and/or core biopsies.     

Detection of Mycobacterium immunogenum by real-time quantitative Taqman PCR

A quantitative real-time 5′-nuclease (Taqman) PCR technique was developed to specifically detect Mycobacterium immunogenum. rpoB-specific primers and Taqman probe were evaluated for detection of M. immunogenum DNA extracted from pure cultures and from industrial metal working fluids (MWFs). Specificity was confirmed and the sensitivity of detection of M. immunogenum genomic DNA was shown to be approximately 9 fg (2 cell equivalents). When tested on industrial metal working fluids from the UK and USA from which no M. immunogenum CFU were recovered, the assay detected between 3.4 × 10¹ and 1.9 × 10⁴ cell equivalents (CE) per ml, and increased the detection rate over culture to 37.5% (12 of 32 samples). This assay provides a specific, sensitive and rapid method for the detection of M. immunogenum and is applicable within industry for the early detection of this human pathogen and to the possible prevention of hypersensitivity pneumonitis (HP) in workers.     

实时定量PCR技术的介绍

实时定量PCR(real-timePCR)技术是近几年发展起来的新技术 ,既保持了PCR技术灵敏、快速的特点 ,又克服了以往PCR技术中存在的假阳性污染和不能进行准确定量的缺点。另外 ,还有重复性好、省力、低费用等优点。实时定量PCR技术是从传统PCR技术发展而来 ,其基本原理是相同的 ,主要不同之处是其定量的体系。下面简单介绍一下该技术定量的原理。1　荧光染料的应用荧光染料的应用是实时PCR技术能够进行定量检测的一个重要部分 ,在PCR反应体系中应用荧光标记物 ,通过监测荧光信号的累积实现对整个PCR循环进程的观察。目前主要有四种方法…     

Use of quantitative real-time PCR to monitor population dynamics of ammonia-oxidizing bacteria in batch process

A quantitative real-time PCR (QPCR) assay with the TaqMan system was used to quantify 16S rRNA genes of β-proteobacterial ammonia-oxidizing bacteria (AOB) in a batch nitrification bioreactor. Five different sets of primers, together with a TaqMan probe, were used to quantify the 16S rRNA genes of β-proteobacterial AOB belonging to the Nitrosomonas europaea, Nitrosococcus mobilis, Nitrosomonas nitrosa, and Nitrosomonas cryotolerans clusters, and the genus Nitrosospira. We also used PCR followed by denaturing gradient gel electrophoresis (DGGE), cloning, and sequencing of their 16S rRNA genes to identify the AOB species. Seed sludge from an industrial wastewater treatment process controlling high-strength nitrogen wastewater (500 mg/L NH₄ ⁺–N) was used as the inoculum for subsequent batch experiment. The Nitrosomonas nitrosa cluster was the predominant AOB (2.3 × 10⁵ copies/mL) in the start-up period of the batch experiment. However, from the exponential growth period, the Nitrosomonas europaea cluster was the most abundant AOB, and its 16S rRNA gene copy number increased to 8.9 × 10⁶ copies/mL. The competitive dominance between the two AOB clusters is consistent with observed differences in ammonia tolerance and substrate affinity. Analysis of the DGGE results indicated the presence of Nitrosomonas europaea ATCC19718 and Nitrosomonas nitrosa Nm90, consistent with the QPCR results.     

Detection and quantification of copper-denitrifying bacteria by quantitative competitive PCR

We developed a quantitative competitive PCR (QC-PCR) system to detect and quantify copper-denitrifying bacteria in environmental samples. The primers were specific to copper-dependent nitrite reductase gene (nirK). We were able to detect about 200 copeis of nirK in the presence of abundant non-specific target DNA and about 1.2 x 10(3)Pseudomonas sp. G-179 cells from one gram of sterilized soil by PCR amplification. A 312-bp nirK internal standard (IS) was constructed, which showed very similar amplification efficiency with the target nirKfragment (349 bp) over 4 orders of magnitude (10(3)-10(6)). The accuracy of this system was evaluated by quantifying various known amount of nirK DNA. The linear regressions were obtained with a R(2) of 0.9867 for 10(3)copies of nirK, 0.9917 for 10(4) copies of nirK, 0.9899 for 10(5) copies of nirK and 0.9846 for 10(6) copies of nirK. A high correlation between measured nirK and calculated nirK (slope of 1.0398, R(2)=0.9992) demonstrated that an accurate measurement could be achieved with this system. Using this method, we quantified nirK in several A-horizon and stream sediment samples from eastern Tennessee. In general, the abundance of nirK was in the range of 10(8)-10(9) copies g soil(-1) dry weight. The nirK content in the soil samples appeared correlated with NH(4)(N) content in the soil. The activities of copper-denitrifying bacteria were evaluated by quantifying cDNA of nirK. In most of sample examined, the content of nirK cDNA was less than 10(5) copies g soil(-1) dry weight. Higher nirK cDNA content (>10(6) copies g soil(-1) dry weight) was detected from both sediment samples at Rattlebox Creek and the Walker Branch West Ridge. Although the stream sediment samples at the Walker Branch West Ridge contained less half of the nirK gene content as compared to A-horizon sample, the activities of copper-denitrifying bacteria were almost 600 times higher than in the A-horizon sample.     

Rapid detection of Oenococcus oeni in wine by real-time quantitative PCR

AIMS: To develop a real-time polymerase chain reaction (PCR) method for rapid detection and quantification of Oenococcus oeni in wine samples for monitoring malolactic fermentation. METHODS AND RESULTS: Specific primers and fluorogenic probe targeted to the gene encoding the malolactic enzyme of O. oeni were developed and used in real-time PCR assays in order to quantify genomic DNA either from bacterial pure cultures or wine samples. Conventional CFU countings were also performed. The PCR assay confirmed to be specific for O. oeni species and significantly correlated to the conventional plating method both in pure cultures and wine samples (r = 0.902 and 0.96, respectively). CONCLUSIONS: The DNA extraction from wine and the real-time PCR quantification assay, being performed in ca 6 h and allowing several samples to be concurrently processed, provide useful tools for the rapid and direct detection of O. oeni in wine without the necessity for sample plating. SIGNIFICANCE AND IMPACT OF THE STUDY: Rapid quantification of O. oeni by a real-time PCR assay can improve the control of malolactic fermentation in wines allowing prompt corrective measures to regulate the bacterial growth.     

Detection of viral aerosols by use of real-time quantitative PCR

PCR quantification is regarded as one of the most promising techniques for real-time identification of bio-aerosols. We have, therefore, validated a QPCR assay for quantification of a viral aerosol sample using the double-stranded DNA-binding dye SYBR green I, an economical alternative for quantification of target microorganisms. To achieve this objective we used mycobacteriophage D29 as model organism. Phage D29 aerosol was produced in an aerosol cabinet and then collected by use of an AGI liquid sampler. A standard curve was created by use of purified genomic DNA from the phage in liquid culture of known concentration measured by titration. To prevent false-positive results caused by formation of primer–dimers, an additional data-acquisition step was added to the three-step QPCR procedure; the new technique was called four-step QPCR. The standard curve was then used to quantify the total amount of phage D29 in liquid culture and aerosol samples. For liquid culture samples there was no significant difference (P > 0.05) between results from quantification of the virus using double-agar culture and QPCR. For aerosol samples, however, the result determined by the QPCR method was significantly (P < 0.05) higher than that from the double-agar culture method. The four-step SYBR green I QPCR method is a quick quantitative method for mycobacteriophage D29 aerosol. We believe that QPCR using SYBR green I dye will be an economical method for detection of airborne bio-aerosols.     

Longitudinal surveillance of SARS-like coronaviruses in bats by quantitative real-time PCR

正Dear Editor,The 2002–2003 severe acute respiratory syndrome coronavirus(SARS-CoV)(Drosten et al.,2003)caused human pandemics that began in China and spread globally.Subsequently,diverse SARS-like coronaviruses     

Rapid detection and quantification of five periodontopathic bacteria by real-time PCR

The quantity of periodontopathic bacteria in plaque samples is an important determinant for understanding the etiologic role of bacteria. The real-time PCR method was used to detect and quantify periodontopathic bacteria, such as Actinobacillus actinomycetemcomitans, Bacteroides forsythus, Porphyromonas gingivalis, Treponema denticola, and Treponema socranskii, in saliva and subgingival plaque samples. There was good agreement between the results of conventional PCR and real-time PCR methods. Using the LightCycler system we were able to determine the amount of periodontopathic bacteria within an hour. The real-time PCR method was linear for samples containing from 10(3) to more than 10(8) cells (r2 = 0.999). The application of the real-time PCR method should be useful in the rapid detection and quantification of periodontopathic bacteria in clinical samples.     

实时荧光PCR技术定量检测转Bt基因水稻的研究

以转Bt基因的"克螟稻"为研究材料,通过使用特异的引物和荧光标记探针,以已知转基因成份含量的水稻样品为模板建立标准曲线,对转基因水稻的NOS和Bt外源基因进行了荧光定量检测分析.初步建立了转基因水稻定量检测的技术方法.     

实时定量PCR发展概述

实时定量聚合酶链反应(real-time quantitative polymerase chain reaction,简称qPCR)是一种通过荧光信号对PCR进程进行实时监测,并对未知模板进行定量分析的一种核酸定量技术,该技术在临床诊断和生命科学等多领域发挥着重要的作用。现就生物制品领域有着重要应用价值的中介探针聚合酶链反应(mediator probe polymerase chain reaction,MP PCR)和数字聚合酶链反应(digital polymerase chain reaction,dPCR)新技术加以介绍,同时也对qPCR技术中的关键因素(如参考基因选择和核酸质量评价)以及qPCR最低限度标准(minimum information for the publication of real-time quantitative PCR,MIQE)指南作一概述。