Confusing finding of quantitative fluorescent polymerase chain reaction analysis in invasive prenatal genetic diagnosis:A case report

BACKGROUND Quantitative fluorescent polymerase chain reaction(QF-PCR)is a rapid prenatal diagnostic method for abnormalities on chromosomes 21,18,and 13 and sex chromosomal aneuploidy.However,the value of QF-PCR in diagnosing chromosomal structural abnormalities is limited.In this article,we report a confusing QF-PCR finding in a pregnant woman who underwent amniocentesis.CASE SUMMARY The short tandem repeat marker AMXY(Xp22.2/Yp11.2)located on the sex chromosome exhibited a trisomic biallelic pattern,indicating that the karyotype of the fetus might be 47,XYY.Chromosome analysis performed on cultured amniocytes showed a normal male karyotype of the fetus.Copy number variation sequencing confirmed a 500 kb duplication at Yp11.2-Yp11.2(chrY:6610001_7110000)and a 250 kb duplication at Yp11.2-Yp11.2(chrY:7110001_7360000).CONCLUSION In conclusion,the comprehensive application of different methods could achieve a higher detection rate and accuracy for the prenatal diagnosis of chromosomal disorders through chromosomal testing.

TaqMan real-time fluorescent quantitative RT-PCR in detection of macrophage inflammatory protein-2γ mRNA in myocarditis murine

Objective: To study the role of macrophage inflammatory protein (MIP)-2γ in myocarditis pathogenesis in BALB/c mice. Methods: The relationship between the progression of Coxsarckie virus B3(CVB3) viral myocarditis and experimental autoimmune myocarditis and MIP-2γ mRNA expression in mouse was studied by TaqMan real-time fluorescent quantitative RT-PCR. Results: MIP-2γ mRNA expression rose on 3 to 5 d after CVB3 infection, reached peak on 7 d, and returned to normal level until 14 d, which corresponded well with the disease course. The MIP-2γ mRNA expression level rose significantly on the day 18 d after immunization with porcine cardiac myosin, which was consistent with pathological examination. Conclusion: MIP-2γ may be involved in the pathogenesis of myocarditis.

Real-time fluorescent quantitative PCR非特异性扩增的研究进展

Real-time fluorescent quantitative PCR(RT-qPCR)因其高效快速、操作简便、高度敏感等优点获得广泛应用,但因其强大的放大功能而容易出现非特异性扩增的问题,尤其是荧光染料法中更加明显。文章对RT-qPCR的原理、非特异性扩增的发生因素、解决方案及该技术的应用前景进行了综述。

Application of Real-time Fluorescent Quantitative PCR in Plant

Real-time fluorescent quantitative PCR （RQ-PCR） is a detection method by adding fluorescent dye or fluorescent probe into the PCR reaction system, using fluorescent signal accumulation to monitor amplification reactions of PCR reaction process, and finally the unknown template can be quantitatively analyzed through the standard curve. So the detection level of PCR has improved from the qualitative to the quantitative. In order to provide a theoretical reference for further application, the principle, classification, advantages and disadvantages of RQ-PCR were intro- duced, and its application and progress in plants in recent years were reviewed.

Detection of Lactobacillus acidophilus in Fermented Material by Real-time Fluorescent Quantitative PCR

The species distinctive PCR primer of Lactobacillus acidophilus （ L. acidophilus） was designed according to 16S rRNA gene sequences of conunon Lac- tobacillus species in fermented material. Bacterial genome DNA of separated L. acidophilus in fermented sample was taken as template, and L. acidophilus in fer- mented material was conducted the quantitative determination by real-time quantitative PCR （RT-PCR）. Analysis on RT-PCR results shown that contents of L. aci- dophilus in the test sample reached 1.5 billion CFU / g. Test results shown that contents of L. acidophilus in fermented material could be detected accurately by the established RT-PCR method in the test. indicating that the established RT-PCR method could be aookued to the detection of L. acidophilus in fermented material.

Detection of Survivin mRNA in nasopharyngeal carcinoma by real-time fluorescence quantitative RT-PCR

Objective： To establish the method of real time fluorescence quantitative RT-PCR for detecting the expression of Survivin mRNA in nasopharyngeat carcinoma （NPC） tissues. Methods： The total RNA was extracted from NPC cell line CNE-2 and tissues with Trizol and then been transcribed reversely to cDNA, a method of real time fluorescence quantitative RT-PCR for detecting the expression of Survivin mRNA in NPC tissues had been established, in which chronic nasopharyn-gitis patients＇ nasopharynx tissues treated as control group. Results： The expression of Survivin mRNA all could be detected either in CNE-2 cells, NPC tissues or in chronic nasopharyngitis patients＇ nasopharynx tissues, and there was higher the expression level of Survivin mRNA in NPC tissues than which in chronic nasopharyngitis patients＇ nasopharynx tissues, the difference was significant （P 〈 0.01）. The expression of Survivin mRNA could be detected both in stage Ⅰ ＋ Ⅱ and stage Ⅲ ＋ Ⅳ NPC, and there was no significant difference in relative quantifications of gene expression between these two groups （P 〉 0.05）. There was no relationship between Survivin mRNA expression and age and sex of NPC patients （P 〉 0.05）. Conclusion： Real time fluorescence quantitative RT-PCR is a rapid, effective and high sensitive method for detecting the expression of Survivin mRNA in NPC tissues. The overexpression of Survivin mRNA may play some roles in pathogenesis of NPC.

Real-time fluorescent quantitative immuno-PCR method for determination of fluoranthene in water samples with a molecular beacon

A reliable and sensitive competitive real-time fluorescent quantitative immuno-PCR （RTFQ-IPCR） assay using a molecular beacon was developed for the determination of trace fluoranthene （FL） in the environment.Under optimized assay conditions,FL can be determined in the concentration range from 1 fg/mL to 100 ng/mL,with y=0.194x ＋ 7.859,and a correlation coefficient of 0.967 was identified,with a detection limit of 0.6 fg/mL.Environmental water samples were successfully analyzed,recovery was between 90% and 116%,with intra-day relative standard deviation （RSD） of 6.7%-12.8% and inter-day RSD of 8.4%-15.2%.The results obtained from RTFQ-IPCR were confirmed by ELISA,showing good accuracy and suitability to analyze FL in field samples.As a highly sensitive method,the molecular beacon-based RTFQ-IPCR is acceptable and promising for providing reliable test results to make environmental decisions.

Detection and clinical significance of multidrug resistance-1 mRNA in bone marrow cells in children with acute lymphoblastic leukemia by real-time fluorescence quantitative RT-PCR

Objective： Multidrug resistance（MDR） is one of the most important reasons for treatment failure and recurrence of acute leukemia. Its manifestations are different in children with acute lymphoblastic leukemia（ALL） which may be due to different detection methods. This study was to detect the expression of MDR1 mRNA in bone marrow cells of children with ALL by real-time fluorescence- quantitative reverse transcription polymerase-chain reaction（FQ-RT-PCR）, and combine minimal residual desease（MRD） detection by flow cytometry（FCM） and to study their relationship with treatment response and prognosis of ALL. Methods：The MDR1 mRNA levels in bone marrow cells from 67 children with ALL[28 had newly diagnosed disease, 27 had achieved complete remission（CR）, 12 recurrent] and 22 children without leukemia were detected by FQ-RT-PCR. MRD was detected by FCM. The patients were observed for 9-101 months, with a median of 64 months. Results：Standard curves of human MDR1 and GAPDH genes were constructed successfully. MDR1 mRNA was detected in all children with a positive rate of 100%. The mRNA level of MDR1 was similar among the newly diagnosed ALL group, CR group, and control group（P 〉 0.05）, but significantly higher in the recurrence group than that in newly diagnosed disease group and control group（0.50 ± 0.55 vs. 0.09 ± 0.26 and 0.12 ± 0.23, P〈 0.05）. 54 ALL patients were followed up, and it was found that MDR1 mRNA level was significantly higher in ALL patients within 3 years duration than that of ALL patients with 3-6 years and over 6 years duration（0.63 ± 0.56 vs. 0.11 ± 0.12 and 0.04 ± 0.06, P〈 0.01）. For the 28 children with newly diagnosed disease, the MDR1 mRNA level was similar between WBC 〉 50 ~ 109 group and WBC〈50 × 10^9 group（P〉 0.05）. In the 33 CR patients, the MDR1 mRNA level was significantly higher in MRD〉10a group than that in MRD〈10a group（0.39 ± 0.47 vs. 0.03 ± 0.03, P 〈 0.05）. Conclusion：The sensitivity and specificity of FQ-RT-PCR in detecting MDR1 mRNA in bone marrowy cells of children with ALL patients are high. MDR1 mRNA is expressed in children with and without leukemia. MDR1 mRNA is highly expressed in the CR ALL patients with high MRD, recurrence and short duration（within 3 years）. Monitoring MRD and the MDR1 mRNA level might be helpful for individual treatment.

Synchronous Detection of DNA/RNA of Four Shrimp Viruses by Real-time Fluorescence Quantitative RT-PCR

[ Objective] This study aimed to establish a simultaneous detection method of shrimp viruses by real-time fluorescence quantitative RT-PCR, to improve the efficiency of inspection and quarantine. [ Method] A novel real-time fluorescence quantitative RT-PCR assay was established and optimized for simultaneously detecting DNA/RNA of four shrimp viruses （WSSV, IHHNV, TSV and YHV ）. [ Result] The optimized real-time fluorescence quantitative RT-PCR system gener- ated typical amplification curves with high amplification efficiencies （E = 1.06, 1.07, 0.92 and 0.92, respectively）, good hnear relationship （ r = 1 ）, uniform repeatability （ standard deviation = 0.05 - 0.46 ; variation coefficient = 0.26% - 1.62% ） and high sensitivity, exhibiting no significant differences compared with re- al-time fluorescence quantitative PCR （average error of Ct value = 0.04 -0.40; T = 0.53 -2.50; P 〉 0.05 ）. The total detection time was about 1 h. [ Conclusion] The optimized real-time fluorescence quantitative RT-PCR system can be used for rapid detection of WSSV, IHHNV, TSV and YHV.

Application of Real-time Fluorescent Quantitative PCR in Studies on Plants

Real-Lime fluorescent quantitative PCR is a method for quantitative analysis of gene expression developed in recent years, which has been widely used in various fields such as basic scientific research, clinical diagnosis, disease study, drug research and development since its appearance. It starts relatively late in study on plants, but has already been used for analysis of gene expression in plants and gene identification of exogenous genes. The principles or advantages and dis- advantages of real-time fluorescent quantitative PCR, or its potential problems and condition optimizations in tests were introduced in this study, and then the appli- cation and prospect of real-time fluorescent quantitative PCR in study on plants were also been discussed.

鸽微RNA病毒实时荧光定量RT-PCR检测方法的建立

旨在建立鸽微RNA病毒(pigeon megrivirus,PiMeV)实时荧光定量RT-PCR检测方法。本研究根据GenBank中PiMeVs序列特征设计特异性检测引物,从信鸽粪便中检测到PiMeV阳性(命名为PiMeV-CHN001株),并对其3 C基因进行核苷酸同源性比较和遗传进化分析,明确其基因特征后,设计特异性实时荧光定量RT-PCR检测(RT-qPCR)引物组,建立检测PiMeV的RT-qPCR方法。结果显示:PiMeV-CHN001株3 C基因全长为591 bp,编码197个氨基酸,和其他2株野鸽源PiMeV(MeV-B1株和MeV-B2株)核苷酸相似性分别为89.5%和92.0%。建立的检测PiMeV的RT-qPCR方法的标准曲线Y轴截距为37.93,斜率为-3.335,相关系数为1.00,扩增效率为99.4%。特异性强,仅PiMeV出现特异性扩增信号和特异性峰值[Tm值为(81.69±0.22)℃],对鸽源禽流感病毒(avian influenza virus,AIV)、鸽源禽I型副黏病毒(pigeon paramyxovirus type I,PPMV-1)、鸽输血传播病毒(pigeon torque teno virus,PTTV)、鸽腺病毒(pigeon adenovirus,PiAd)及鸽圆环病毒(pigeon circovirus,PiCV)检测均未见特异性扩增信号;敏感性优,最低检测限为54.0拷贝·μL^(-1);重复性好,批内和批间变异系数均低于1.5%。用建立的检测方法对42份信鸽粪便样品进行检测,发现2份阳性样品(阳性率为4.76%)。本研究首次证实我国大陆地区信鸽中存在PiMeV,丰富了PiMeV宿主谱信息;建立的RT-qPCR方法为后续开展PiMeV流行病学研究提供支撑。

3种苹果病毒实时荧光定量RT-PCR检测体系的建立

苹果茎沟病毒(Apple stem grooving virus,ASGV)、苹果茎痘病毒(Apple stem pitting virus,ASPV)和苹果坏死花叶病毒(Apple necrotic mosaic virus,ApNMV)对果树的生长发育危害严重,而且复合侵染几率较高,为快速、灵敏和高效的检测3种病毒,本研究根据ASPV、ASGV和ApNMV基因组保守序列设计特异引物建立了3种病毒高灵敏度的实时荧光定量PCR检测体系(Real-time fluorescence quantitative reverse transcription PCR,RT-qPCR)。结果表明:引物ASGV-qF/qR-1、ASPV-qF/R-2和ApNMV-qF/R-3有较高的特异性,最适宜的退火温度分别为60℃、58℃和58℃,ASGV、ASPV和ApNMV 3种病毒的RT-qPCR体系比常规RT-2 PCR检测体系灵敏度高100倍,最低检出限分别为82.6、1.49×10^(2)和13.3 copies/μL。检测体系的Ct值的变异系数均小于5%,组间的变异系数在5%以内。河北农业大学果园中经RT-PCR确定带毒的88棵苹果树RT-qPCR检出率为100%,表明建立的RT-qPCR方法的可靠性和稳定性高,适用于田间果树3种病毒的检测,为苹果病毒的准确诊断提供了技术支撑。

Establishment of a Real-time Fluorescent Quantitative RTPCR Method for Detecting NP Gene of Class Ⅰ Newcastle Disease Virus(NDV)

Newcastle disease( ND) is one of the most serious infectious diseases that infect the poultry industry.There is only one serotype of Newcastle disease virus( NDV),but NDVs can be divided into two distinct classes( class Ⅰ,and class Ⅱ) according to their genetic relationship.To develop a method for rapid quantitative detection of class Ⅰ NDV,a pair of primers and a TaqM an probe were designed and synthesized according to the conservative sequence of NP gene of class Ⅰ NDV.The positive recombinant plasmid harboring NP gene of JS-18-05 isolate was used as a positive template to establish the standard curve.A real-time fluorescent quantitative RT-PCR method was established for rapid detection of class Ⅰ NDV with strong specificity,high sensitivity and good repeatability.The established method exhibited a good linear relationship within the concentration of 102 to 108 copies of NDV,by which 1 μl of 10 copy of NDV nucleic acid could be detected in the initial template.Compared with conventional virus isolation methods,the established method had similar sensitivity and led to the same results in detecting33 class Ⅰ,class Ⅱ NDV isolates.The study provided the basis for rapid quantitative detection of class Ⅰ NDVs and further clarification of their pathogenicity and pathogenic mechanism in poultry.

Establishment of a Real-time Fluorescent Quantitative PCR Assay for Detection of Genetically Modified Maize Line MON88017

In order to improve the standardized technical systems of quantitative analyses for genetically modified organisms （GMOs） and products, ensure bio-safety and reduce ecological risk in China, a real-time fluorescent quantitative PCR assay was established for detection of genetically modified maize line MON88017. The established method was evaluated based on the specificity, sensitivity, accuracy and measurement uncertainty. The results showed that the established method had strong specificity in detection of genetically modified maize line MON88017. 1.50% MON88017 sample was detected with 29 replica- tions. The average measured value （ 1. 541% ） was close to the actual value （ 1.50% ） and the relative deviation was 2.70%. The variation coefficient of the measured value was 0.110 g ; the recovery was 100.00% and the measurement uncertainty was 0. 096. The limit of detection for genetically modified maize line MON88017 with the established method was 5 copies at the 97.5% confidence level. Thus, the real-time fluorescent quantitative PCR assay established in this study exhibited high specificity, accuracy and sensitivity, which could provide technical support for the safety supervision of genetically modified organ- isms and products in China.

Establishment and Application of a Real-time Fluorescent Quantitative PCR Method for Detection of Porcine Circovirus Type 2

[ Objective ] To establish a real-time fluorescent quantitative polymerase chain reaction （PCR） method with SYBR Green I for the detection of porcine circovirus type 2 （PCV2）. [Methods] Specific primers were designed to amplify the conserved gene segments of PCV2 with a size of 177 bp by PCR. The ampli- fied gene was cloned into the vector of pMD 18-T and transformed into DHSct to screen positive clones. After being extracted and purified, the recombinant plasraids pMD 18-T-177 were taken as the standard DNA templates to establish the fluorescence quantitative PCR method for the detection of PCV2, and the PCR re- action conditions were optimized. [ Results] Ct value of the established PCR method showed a good linear relationship with the standard DNA templates within a viral load of 3.21 × 100 -4.16 × 108 copies/μL , the correlation coefficient was O. 998 8 and the slope was - 3.286. The method did not show any cress-reactions with the genomes of PRRSV, PCV1, CSFV, PRV, PPV and Escherichia coli. Sensitivity of this method was proved to be 3.21 × 10 copies/μL, which was 1 000 times higher as conventional PCR method. Variation coefficients of the repeated trims among same batch or different batches were both less than 3.00%. Positive rate of clinical samples detected by the established PCR method was 58.94%, which was significantly higher than the detection rate by conventional PCR. [ Conclusions ] A reM-time fluorescent quantitative PCR method with SYBR Green I for the detection of PCV2 was established, which was better for conducting the quan- titative analysis and the early diagnosis of PCV2 infection.

O型口蹄疫病毒和塞内卡病毒双重荧光定量RT-PCR检测方法的建立

为建立O型口蹄疫病毒(FMDV-O)和塞内卡病毒(SVV)快速鉴别检测方法,本实验根据FMDV-O VP2基因序列和SVV P3基因序列,采用Primer Express3.0软件分别设计引物与探针,并经各反应条件的优化初步建立了可同时鉴别检测FMDV-O和SVV的双重荧光定量RT-PCR方法。利用该方法检测临床常见猪病毒,结果显示可同时检测出FMDV-O和SVV核酸,且与猪水泡性口炎病毒(VSV)、猪水疱病毒(SVDV)、猪瘟病毒(CSFV)、猪繁殖与呼吸综合征病毒(PRRSV)、猪细小病毒(PPV)、A型口蹄疫病毒(FMDV-A)、A-1型口蹄疫病毒(FMDVA-1)核酸均无交叉反应,并可检测到FMDV-O PanAsia株、cathay株、Ind-2001株和Mya-98株等主要流行株,特异性强;该方法对含FMDV-O和SVV拼接质粒标准品的最低检测限为7.17×10^(2)拷贝/μL,敏感性高;利用该方法检测了同一时间和不同时间提取的3种不同浓度的质粒标准品,结果显示批内和批间重复性试验Ct值的变异系数均小于3%,重复性好。利用本实验所建立的方法对30份临床样品进行检测,结果与各病毒单一荧光定量RT-PCR检测结果一致。本研究建立的FMDV-O和SVV双重荧光定量RT-PCR方法能够快速准确的鉴别检测FMDV-O和SVV,为口岸检疫的快速通关提供了技术手段。

基于直扩RT-PCR技术的寨卡病毒快速检测方法的建立

目的建立基于直扩实时荧光定量逆转录聚合酶链反应(RT-PCR)技术的寨卡病毒快速检测方法。方法采用特殊功能的DNA聚合酶,以及优选PCR增强剂,以此建立直扩RT-PCR技术的寨卡病毒快速检测5种样本(全血、血清、唾液、咽拭子和尿)的方法。结果5种样本检测限分别为血清103 PFU/mL,尿、咽拭子和唾液102 PFU/mL,全血104 PFU/mL,标准曲线的拟合优度的可决系数均在0.98以上,扩增效率均在90%~110%;寨卡病毒核酸成功扩增,非寨卡病毒核酸均未能扩增;尿、全血和唾液样本的重复性实验中106 PFU/mL和102 PFU/mL两个浓度的6个重复Ct值的变异系数均<5%。该研究建立的直扩RT-PCR技术的寨卡病毒检测方法与常规RT-PCR技术的检测结果一致,8个寨卡病毒样本,均只检测出2个血清样本,其余62个非寨卡病毒样本及12个阴性样本均未得到扩增。结论成功建立基于直扩RT-PCR技术的寨卡病毒快速检测方法,该方法简便快捷且灵敏度高、特异度强。

Detection of the covalently closed circular DNA of duck hepatitis B virus by Taq-Man fluorescent quantitative PCR assay

To develop a fluorescent quantitative PCR assay based on Taq-Man chemistry to detect the covalenfly closed circular DNA （eccDNA） of duck hepatitis B virus （DHBV）, a pair of primers was designed from both sides of the nick in the minus strand of DHBV and a Taq-Man probes between the primers, modified with 6-Fam at 5＇ end and Tamra at its 3＇ end was designed to detect the PCR products during PCR cycles. The DHBV DNA fragment was cloned into vector PUCm-T, and the recombinant plasmid was purified and subsequently qualified as the HBV DNA standard. The experimental conditions and reagents used in PCR assay for amplification were sophisticatedly optimized in order to yield a perfect amplification efficacy and reduce the possibility to produce non-specific amplification. It was demonstrated that the detect limit of assay was 10^3 copies/ml, and a linear standard curve was obtained between 10^5 -10^9 copies/ml [ C1 =-2.8361 ln（x） ＋ 41.45, r =-0.9985]. The coefficient of variation was 0.2%-3.14% and 2.22%-4.43% for intra- and inter-assay respectively. After a dynamic survey on the contents of DHBV DNA in serum of ducks, it was found that its peak value appeared at the second week of birth in ducks. It is evident that this method of Taq-Man fluorescent quantitative PCR assay appears to be simple, sensitive and specific.

猪δ冠状病毒荧光定量RT-PCR检测方法的建立

建立一种快速检测猪δ冠状病毒(PDCoV)的方法。根据GeneBank收录的PDCoV M基因序列,设计两对特异性引物和TaqMan探针,对PDCoV TaqMan荧光定量RT-PCR反应条件进行优化。Ct值与质粒模板之间呈现良好的线性关系,标准方程为y=-3.6421x+34.194,相关系数R 2=0.9992。荧光定量RT-PCR方法仅对PDCoV呈现特异性扩增,无交叉反应。敏感度试验结果显示,最低检出量为1.25×10^(1)copies/μL,灵敏度高。重复性试验结果显示,批内和批间测定均具有良好的重复性。TaqMan荧光定量RT-PCR检测方法是一种可靠的快速检测PDCoV的方法。

Quantitative measurement of hydroxyl radical(OH) concentration in premixed flat flame by combining laser-induced fluorescence and direct absorption spectroscopy

An accurate and reasonable technique combining direct absorption spectroscopy and laser-induced fluorescence（LIF）methods is developed to quantitatively measure the concentrations of hydroxyl in CH;/air flat laminar flame. In our approach, particular attention is paid to the linear laser-induced fluorescence and absorption processes, and experimental details as well. Through measuring the temperature, LIF signal distribution and integrated absorption, spatially absolute OH concentrations profiles are successfully resolved. These experimental results are then compared with the numerical simulation. It is proved that the good quality of the results implies that this method is suitable for calibrating the OH-PLIF measurement in a practical combustor.