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1.
以无芒隐子草干旱诱导的cDNA文库中获得的SAMDC序列为基础,应用实时荧光定量RT-PCR技术同时结合相对定量和绝对定量方法,以分析无芒隐子草SAMDC基因在不同组织、不同胁迫梯度下的表达为案例,详细介绍并比较相对定量和绝对定量在基因表达方面的应用.分别采集无芒隐子草幼苗自然干旱0,2,4,6,8,10d以及恢复浇水1,4d的叶片和根系材料,相对定量采用2-ΔΔCT.法;以相应基因的质粒扩增产物为标准品制作标准曲线,对定量PCR的引物浓度进行了优化,而后筛选最稳定的内参基因,以内参基因获得的标准化因子对绝对定量数据进行标准化.相对定量2-ΔΔCT法结果显示CsSAMDC基因在干旱胁迫8d后,叶片中的表达量为胁迫前的0.62±0.13倍,根中的表达量为胁迫前的5.93±0.71倍.绝对定量表明,CsSAMDC基因只在胁迫第8d和第10d的根组织中检测到表达量显著增大,胁迫第4~6d和恢复浇水后1~4d,CsSAMDC基因在叶和根组织中的表达较对照降低.相对定量和绝对定量在DsSAMDC基因表达研究中显示相对一致的趋势.  相似文献   

2.
荧光定量PCR数据处理方法的探讨   总被引:23,自引:0,他引:23  
real time RT-PCR通过直接检测指数扩增期的PCR产物来确定基因的初始模板量,是定量基因表达最灵敏的方法,其准确性取决于扩增效率以及数据的处理方法。目前最常用的两种分析荧光定量PCR实验数据的方法是绝对定量和相对定量。绝对定量方法是通过标准曲线计算起始模板的拷贝数;相对定量方法则是比较处理过的样品和未处理过的样品目的基因之间的表达差异。而相对定量又有双标准曲线法,2^-△△α法以及动力学法。该文介绍了这些方法的推导、假设及其应用。  相似文献   

3.
实时定量PCR技术(quantitative real-time PCR assay, rtQ-PCR)是一种快速检测核酸水平的方法.在多数相对定量法的运用过程中,会同时引入内参基因用以校正由于采样和操作误差所带来的样本之间核酸总量的差别.一个理想的内参基因的表达水平必须维持恒定或至少不受实际试验条件和机体发育变化的影响.由于作为候选内参基因的看家基因也可能会随着试验条件改变呈现出发育性变化和/或差异表达,故在相关研究中,内参基因的选择就成为试验的关键和难点.本研究采用rtQ-PCR技术,以鸭胚胎期和出雏早期肝脏中IGF-玉mRNA表达的发育性变化检测为例,探讨涉及发育性变化的基因表达解析过程中内参基因的选择,并评估绝对和相对定量两种解析方法的适用性.我们认为涉及发育性变化的基因表达解析过程中内参基因的选择时,采用2-△Ct法对内参基因的有效性进行的组间评价,比Genorm等方法对内参基因的有效性进行的整体评价更为科学;涉及发育性变化的基因表达解析过程中,如果难以找到一个理想的内参基因时,绝对rtQ-PCR解析方法将比随意选取一种内参基因作为内标的相对rtQ-PCR解析方法更为简单和适用,结果的解析也更为直观和可靠.  相似文献   

4.
构建包含RAc1基因cDNA片段的质粒,作为水稻肌动蛋白基因RAc1之mRNA定量检测的标准品,建立检测方法,为水稻其他基因的定量建立内参.从水稻叶总RNA中逆转录扩增总cDNA,PCR扩增RAc1基因中设计的目的片段,将纯化的目的片段与pMD19-T Simple载体进行连接,转化宿主菌JM-109,提取重组质粒DNA,PCR鉴定并测序分析.纯化质粒并检测260nm吸光值,确定重组质粒原液的拷贝浓度并以此制备荧光定量PCR梯度浓度标准品,进行实时荧光定量PCR实验.建立了RAc1基因mRNA表达实时荧光定量PCR检测方法,特异性好,检测灵敏度达102拷贝,线性范围为102~107拷贝,阈值循环数(Ct)与PCR体系中起始模板量的对数值之间有着良好的线性关系(r=1.000),扩增效率高(E=98.2%).建立了基因RAc1实时定量PCR的质粒标准品.  相似文献   

5.
实时荧光定量PCR (FQ-PCR)标准曲线法准确定量基因表达的关键在于标准品与待检样本的扩增效率是否一致. 为检测DNA标准品与样本cDNA扩增效率的一致性,探讨定量用标准品的最佳制备方法,本研究以脂肪酸结合蛋白5(Fabp5)、过氧化物酶体增殖活化受体α (Ppar-α)及β肌动蛋白(β-Actin)的3个基因为对象,分别采用质粒纯化法、PCR产物直接纯化法、PCR产物凝胶回收法制备DNA标准品,10倍梯度稀释后用FQ PCR制作标准曲线. 并以10倍梯度稀释的样本cDNA标准曲线的参数为对照,进行比较分析. 结果表明,不同方法制备的DNA标准品的扩增效率差异较大,并且与cDNA的扩增效率不一致,不能对cDNA样本进行准确定量. 另外,虽然目的基因在cDNA样本中的拷贝未知,不能对基因表达水平进行绝对定量,但因不同cDNA样本的同一基因的扩增效率一致, 可对基因的表达进行准确的相对定量.  相似文献   

6.
目的:高效下调TAK1基因表达的小干扰RNA(siRNA)分子的获得.方法:采用脂质体转染方法,将3对(siRNA ID#94455、siRNA ID # 94549、siRNA ID # 189006)人工合成的TAK1基因特异的小干扰RNA(siRNA)分子分别导入小鼠成肌细胞C2C12中,采用实时荧光定量PCR方法分析细胞内TAK1基因的相对表达.结果:和对照组相比,siRNA ID # 94455、siRNA ID # 94549和siRNA ID # 189006分别下调了细胞内TAK1基因的mRNA表达水平33.34%、46.73%和79.97%.结论:实验获得了能够高效下调TAK1基因表达的siRNA.  相似文献   

7.
慢病毒siRNA靶向干扰YAP基因胃癌细胞株的建立   总被引:1,自引:0,他引:1       下载免费PDF全文
目的:构建并鉴定YAP基因短发夹干扰RNA(shRNA)慢病毒载体,建立稳定干扰YAP基因表达的胃癌细胞株SGC7901。方法:荧光定量PCR检测YAP基因在多种胃癌细胞株中的表达情况。构建重组靶向YAP基因的shRNA慢病毒表达质粒PGC-shRNA-YAP,用脂质体转染的方法将载体导入胃癌细胞。经杀稻瘟菌素筛选后,建立稳定表达siRNA的细胞株。荧光定量PCR检测干扰效率。结果:在胃癌细胞株SGC7901中,YAP基因显示高表达。测序验证PGC-shRNA-YAP重组质粒构建成功。将重组质粒稳定转染入胃癌细胞株SGC7901后能明显抑制YAPmRNA表达水平。结论:成功构建了PGC-shRNA-YAP慢病毒重组质粒,建立了靶向稳定干扰YAP基因表达的siRNA胃癌细胞株SGC7901。  相似文献   

8.
目的:建立茶树α-tubulin基因实时荧光定量RT-PCR方法。方法:根据GenBank中茶树α-tubulin基因保守区域设计一对特异性引物,将PCR扩增得到的α-tubulin基因克隆到pTG19-T载体上,构建的重组质粒标准品经1/10梯度稀释后,用SYBR GreenⅠ染料法绘制标准曲线,并进行融解曲线分析。结果:标准曲线Ct值检测范围为14.56~27.09,相关系数为0.991,溶解曲线分析显示产物为特异的单峰,其Tm值为81±0.3℃。结论:建立了茶树α-tu bulin基因实时荧光定量RT-PCR法,为以α-tubulin作为茶树内参基因进行功能基因表达差异研究奠定了基础。  相似文献   

9.
构建包含RAcl基因cDNA片段的质粒,作为水稻肌动蛋白基因RAcl之mRNA定量检测的标准品,建立检测方法,为水稻其他基因的定量建立内参。从水稻叶总RNA中逆转录扩增总cDNA,PCR扩增RAcl基因中设计的目的片段,将纯化的目的片段与pMD19-T Simple载体进行连接,转化宿主菌JM-109,提取重组质粒DNA,PCR鉴定并测序分析。纯化质粒并检测260nm吸光值,确定重组质粒原液的拷贝浓度并以此制备荧光定量PCR梯度浓度标准品,进行实时荧光定量PCR实验。建立了RAcl基因mRNA表达实时荧光定量PCR检测方法,特异性好,检测灵敏度达102拷贝,线性范围为102—1护拷贝,阈值循环数(Ct)与PCR体系中起始模板量的对数值之间有着良好的线性关系(r=1.000),扩增效率高(E=98.2%)。建立了基因RAcl实时定量PCR的质粒标准品。  相似文献   

10.
用绿色荧光蛋白(GFP)作为报告分子筛选有效的siRNA   总被引:1,自引:0,他引:1  
 建立一种利用绿色荧光蛋白(GFP)作为报告分子筛选能有效抑制目的基因表达的siRNA的方法.以巨噬细胞移动抑制因子(MIF)基因为研究对象,筛选能有效沉默MIF表达的质粒载体介导的siRNA.构建拥有同一Kozak共有翻译启始序列、翻译启始密码子ATG的MIF-GFP融合表达载体pEGFP-MIF.分别将3个靶向MIF的siRNA表达质粒与pEGFP-MIF共转化HEK293细胞,在荧光显微镜下观察HEK293细胞中GFP的表达,并用荧光定量PCR检测HEK293细胞中MIF mRNA的表达水平.同时,将MIF siRNA表达质粒分别与MIF表达载体共转化HEK293细胞,用荧光定量PCR检测HEK293细胞中MIF mRNA的表达水平.定量PCR结果显示,GFP表达低的细胞中,MIF mRNA的表达也明显降低;利用pEGFP-MIF和MIF表达载体筛选到的有效MIF siRNA的结果一致.因此,建立了目的基因与GFP融合表达,以GFP作为报告分子来筛选抑制目的基因表达siRNA的方法,并为进行多个基因的有效siRNA的筛选提供解决方案.  相似文献   

11.
Zhu ZH  Wan HT  Li JH 《生理学报》2011,63(3):272-280
The purpose of this study was to establish an absolute quantitative method to detect IL-1β and Caspase-3 gene expressions in rat brain after cerebral ischemia-reperfusion (I/R) using real-time PCR. Rats were randomized into the following groups: sham operation group, model group (cerebral I/R group), astragaloside IV (AST IV) group, chuanxiongzine-AST IV group and nimodipine group (n = 10 in each group). The rats in all the groups except sham operation group were subjected to cerebral I/R treatment. Sham operation and model groups were treated by normal saline (5 mL/kg). AST IV, chuanxiongzine-AST IV and nimodipine groups received 20 mg/kg AST IV, 10 mg/kg chuanxiongzine plus 20 mg/kg AST IV, and 10 mg/kg nimodipine treatments, respectively. The administrations of drugs were performed with intraperitoneal injections at 0 and 12 h, 1 d, 2 d, 3 d, till to 7 d after I/R. A real-time quantitative PCR assay was developed for absolute quantification of the expressions of IL-1β and Caspase-3 genes. The absolute quantification approach relies on the construction of an accurate standard curve. Thus, two plasmids which contained rat IL-1β and Caspase-3 genes respectively were constructed. The cloned circular plasmids were then quantified using a spectrophotometer and used as standards. Standard curves were generated, and the copy numbers of IL-1β and Caspase-3 mRNA isolated from I/R-damaged brain tissue were also calculated by SYBR Green I dye method using specific primers. The results showed that melting curves exhibited sharp peaks, and PCR product also generated prominent band with expected size in agarose gel electrophoresis, which validated the optimization of the selected primer sets of IL-1β and Caspase-3 genes. The optimal annealing temperatures of IL-1β and Caspase-3 genes were 59 °C and 61.2 °C, respectively. Real-time PCR results showed that the expression of IL-1β and Caspase-3 genes in the model group was significantly elevated compared to that in the sham operation group. However, compared to those in the model group, IL-1β and Caspase-3 gene expressions were obviously decreased in AST IV, chuanxiongzine-AST IV and nimodipine groups. Especially in chuanxiongzine-AST IV group, those two genes showed the most significant expression down-regulation. These results suggest the absolute quantitative method established in the present study is capable of detecting the changes of IL-1β and Caspase-3 gene expressions in rat brain damaged by I/R.  相似文献   

12.
Real-time PCR has been widely used to evaluate gene abundance in natural microbial habitats. However, PCR-inhibitory substances often reduce the efficiency of PCR, leading to the underestimation of target gene copy numbers. Digital PCR using microfluidics is a new approach that allows absolute quantification of DNA molecules. In this study, digital PCR was applied to environmental samples, and the effect of PCR inhibitors on DNA quantification was tested. In the control experiment using λ DNA and humic acids, underestimation of λ DNA at 1/4400 of the theoretical value was observed with 6.58ngμL(-1) humic acids. In contrast, digital PCR provided accurate quantification data with a concentration of humic acids up to 9.34ngμL(-1). The inhibitory effect of paddy field soil extract on quantification of the archaeal 16S rRNA gene was also tested. By diluting the DNA extract, quantified copy numbers from real-time PCR and digital PCR became similar, indicating that dilution was a useful way to remedy PCR inhibition. The dilution strategy was, however, not applicable to all natural environmental samples. For example, when marine subsurface sediment samples were tested the copy number of archaeal 16S rRNA genes was 1.04×10(3)copies/g-sediment by digital PCR, whereas real-time PCR only resulted in 4.64×10(2)copies/g-sediment, which was most likely due to an inhibitory effect. The data from this study demonstrated that inhibitory substances had little effect on DNA quantification using microfluidics and digital PCR, and showed the great advantages of digital PCR in accurate quantifications of DNA extracted from various microbial habitats.  相似文献   

13.
目的应用NASBA方法制备SIV/SHIV RNA定量测定标准品。方法应用NASBA方法直接扩增SIVmac251病毒gag基因上1476~1685之间的片段,扩增的RNA产物(RS-NASBA)纯化后10倍系列稀释,测定定量曲线、标准曲线,测定该标准品的稳定性和重复性。结果应用Qiagen公司QuantiTect SYBR GREEN RT-PCRKit,该标准品可精确定量到2.033×10 copies/μL。结论外标准品RS.NASBA纯度高,稳定性好,可用于定量测定SIV/SHIV RNA拷贝数。  相似文献   

14.
目的建立SYBR GreenⅠ荧光染料实时定量RT-PCR方法,测定实验动物等来源的EV71病毒RNA。方法运用EV71VP1保守区引物,优化real time RT-PCR条件,运用NASBA方法扩增EV71病毒RNA,计算拷贝数,经10倍系列稀释做出标准曲线,作为EV71病毒RNA定量检测的外标准品。结果应用Qiagen公司QuantiTect SYBR Green RT-PCR Kit,该标准品可精确定量到100copies/μL,PCR扩增效率达到99.5%。结论 SYBRGreenⅠ荧光染料实时定量PCR法测定EV71病毒RNA拷贝数的方法敏感性高、稳定性好,可用于EV71病毒RNA载量的定量测定。  相似文献   

15.
Analyzing real-time PCR data by the comparative C(T) method   总被引:26,自引:0,他引:26  
Two different methods of presenting quantitative gene expression exist: absolute and relative quantification. Absolute quantification calculates the copy number of the gene usually by relating the PCR signal to a standard curve. Relative gene expression presents the data of the gene of interest relative to some calibrator or internal control gene. A widely used method to present relative gene expression is the comparative C(T) method also referred to as the 2 (-DeltaDeltaC(T)) method. This protocol provides an overview of the comparative C(T) method for quantitative gene expression studies. Also presented here are various examples to present quantitative gene expression data using this method.  相似文献   

16.
目的:探讨循环血中Shope病毒DNA含量与兔VX2肿瘤18F-FDG PET/CT影像学特征间的关系及其临床意义。方法:采用组织块接种法建立兔VX2肿瘤模型,并行18F-FDG PET-CT观测肿瘤大小及糖代谢相关值,实时定量荧光探针PCR法检测肿瘤组织及血浆中Shope病毒特征性DNA片段含量。结果:移植前外周血中未检测出Shope病毒特异性DNA片段;移植后2周,VX2肿瘤组织和循环血中均可以检测到特征性Shope病毒DNA片段。瘤体内DNA含量明显高于循环血中含量。循环血Shope病毒DNA含量与FDG-PET的最大标准摄取值(SUVmax)明显呈正相关(r=0.943,p=0.005),但与肿瘤体积相关性尚不明确(r=0.657,p=0.156)。结论:循环血Shope病毒DNA有望作为一种潜在的VX2肿瘤标志物,其廉价、无创的特性,有望在肿瘤的早期诊断和预后随访中发挥优势。  相似文献   

17.
Real-time quantitative PCR (qPCR) is a powerful tool for quantifying specific DNA target sequences. Although determination of relative quantity is widely accepted as a reliable means of measuring differences between samples, there are advantages to being able to determine the absolute copy numbers of a given target. One approach to absolute quantification relies on construction of an accurate standard curve using appropriate external standards of known concentration. We have validated the use of tissue genomic DNA as a universal external standard to facilitate quantification of any target sequence contained in the genome of a given species, addressing several key technical issues regarding its use. This approach was applied to validate mRNA expression of gene candidates identified from microarray data and to determine gene copies in transgenic mice. A simple method that can assist achieving absolute quantification of gene expression would broadly enhance the uses of real-time qPCR and in particular, augment the evaluation of global gene expression studies.  相似文献   

18.
荧光定量PCR检测人巨细胞病毒的方法学建立   总被引:1,自引:0,他引:1  
目的建立人巨细胞病毒(HCMV)的TaqMan MGB探针荧光定量PCR(FQ—PCR)检测方法。方法选取HCMV MIE exon4为PCR扩增靶序列,经TA克隆构建重组质粒作为定量标准品,经FQ—PCR反应条件的优化及方法学评价,再将其应用于临床检测。结果FQ—PCR最适循环参数为:95℃ 5 min;95℃ 20 s,60℃ 60 s(40 cycles),20μl最适反应体系为:2.0mmol/L Mg^2+、0.5μmol/L引物、1.5μmol/L探针、200μmol/L dNTP、2110×buffer、1.0 U Taq酶、2.0μl DNA模板。检测批内CV(变异系数)值为1.32%,批间CV值为1.96%;特异性较好;线性范围为10^2-10^8copies/μl。结论成功地建立了检测HCMV的FQ—PCR法,完全适用于临床检测。  相似文献   

19.
目的:建立呼吸道合胞病毒(RSV)核酸特异、快速、敏感的TaqMan探针实时荧光定量PCR检测方法,并对临床样本进行检测。方法:比对编码RSV非编码蛋白的基因序列,选取其保守片段设计引物和探针,建立实时荧光定量RT-PCR检测方法,并与传统RT-PCR方法进行比较,分别对两者的灵敏性、特异性、重复性及临床样本检验的适用性进行评价。结果:所建立的实时荧光定量RT-PCR检测方法可用于RSV的特异性检测。相对于传统RT-PCR方法100拷贝/反应的检测灵敏度,实时荧光定量RT-PCR的检测灵敏度达到10拷贝/反应,检测范围为1010~101拷贝/反应,且具有良好的特异性和重复性。从169份临床呼吸道标本中检出RSV阳性40例,高于普通PCR方法(31/169)。结论:建立了RSV的TaqMan探针实时定量PCR检测方法,并可用于临床鼻咽拭子样本的检测,在临床上具有较好的应用前景。  相似文献   

20.
向安  汪钦  包晗  颜真  郭晏海 《生物磁学》2011,(5):857-860
目的:了解毛细管内核酸偶联和游离辣根过氧化物酶(HRP)催化化学发光差异。方法:不同浓度HRP和经核酸杂交固定于毛细管内壁HRP催化化学发光反应。结果:①游离HRP催化化学发光线性检测范围窄(2.7×10-5-1.3×10-6mg/ml,R2〉0.96),下限为1.0×10-7mg/ml;②2.0×1014-2.0×106copies/ml的5μl单链DNA杂交后,1.0-10min时DNA浓度M对数(lgM)与化学发光I值线性相关(R2〉0.99),且大于阴性I值平均数+3倍标准偏差(s.d);③5.0×1011-5.0×106copies/ml的5μl PCR产物杂交后,10min内PCR产物对数lgM与I值线性相关(R2〉0.97),且大于阴性I值平均数+3倍标准偏差(s.d)。4.0-7.0min内lgM与I值的R2〉0.99,3次平行检测标准偏差〈5.0%。结论:毛细管内核酸杂交的HRP催化化学发光检测线性范围宽、灵敏度高、底物用量少,有望用于临床核酸分子杂交检测。  相似文献   

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