基于单拷贝核基因的荧光定量PCR技术检测驴奶的含量

本研究建立了一种基于内参基因的标准化实时聚合酶链式反应(real-time PCR)方法,能够定量检测混合掺假的灭菌乳中驴奶的含量。使用单拷贝核基因代替多拷贝线粒体基因,基于Ct值(驴特异性引物/内参引物)与驴奶含量的线性关系,对含量为5%~100% 的驴奶建立了标准曲线。该方法具有良好的线性相关(R2=0.9650)和较高的准确度,对含有20%、50%和80% 驴奶的模拟掺假样品进行定量分析,平均回收率为109.16%,平均CV值为4.68%。因此,该方法可以快速、准确地对驴奶进行定量,从而确定驴奶是否掺假以及掺假比例。     

转基因甜菜GTSB77品系特异性实时荧光聚合酶链式反应检测方法建立

目的 为实现转基因甜菜GTSB77的标识管理,建立其品系特异性实时荧光聚合酶链式反应(PCR)检测方法。方法 针对GTSB77的3′端外源插入片段与甜菜基因组DNA之间的邻接区序列设计引物和探针,建立GTSB77品系特异性实时荧光PCR检测方法,并对该方法的特异性、灵敏度和重复性进行检测。结果 建立的GTSB77检测方法特异性强,定量限(LOQ)为16拷贝,扩增效率为102%,重复性测试结果相对标准偏差(RSD)介于0.21%～1.66%之间。结论 建立的实时荧光PCR方法可应用于GTSB77的鉴定检测。     

转基因大米TT51-1品系精准定量检测方法的比较研究

基于大米蔗糖磷酸合成酶(SPS)基因和TT51-1品系特异性基因序列筛选适用于数字PCR的内、外源基因特异性引物探针并建立转基因大米TT51-1品系的双重数字PCR定量方法。其定量的绝对灵敏度和相对灵敏度分别达2 copies/μL和0.1%。当样品中TT51-1转基因大米成分含量低至0.1%时,6次定量值的相对标准偏差在7.30%~18.63%之间,偏差在-8.77%~9.62%之间,精密度和稳定性均较为理想,而同样的引物探针所建立的实时荧光PCR方法定量的相对灵敏度仅达到1%。为促进该方法的标准化应用,将微滴式数字PCR平台上建立的定量方法在芯片式数字PCR平台上进行室内验证,结果表明该方法的定量精密度和准确性符合要求。该方法可应用于大米、稻谷及其初加工产品中TT51-1转基因大米成分的精准定量检测。     

食品中人星状病毒的定量检测方法

目的:应用一步法微滴数字PCR方法(RT-ddPCR),建立一种食品中人星状病毒(HAstV)定量检测方法。方法:筛选引物探针,建立HAstV RT-ddPCR方法;利用其它常见食源性病毒RNA,确定特异性;梯度稀释HAV RNA标准样品确定检测限、准确度和重复性。用已知效价的MS2噬菌体制备人工污染样品,研究RT-ddPCR方法在不同种类食品基质中的检测限和回收率,比较2种RNA提取方法的病毒检出量。结果:HAstV RT-ddPCR方法准确度、灵敏度和重复性良好,检测限105~100拷贝/μL,最低定量限5拷贝/μL;不同种类食品基质的检测限分别为7.2×106~3600拷贝(贝类消化腺),7.2×106~3600拷贝(硬表面食品),7.2×106~7200拷贝(生食蔬菜)、7.2×107~7200拷贝(软质水果);高浓度污染剂量时,Trizol裂解结合磁珠纯化方法病毒检出量显著低于Trizol裂解提取方法(P<0.05);不同种类食品基质中模拟病毒回收率存在显著差异(P<0.05)。结论:本研究建立的食品中HAstV定量检测方法可有效定量检测HAstV,可通过病毒回收率计算样品中HAstV的实际载量。     

微滴式数字PCR定量检测转基因玉米品系VCO-01981-5

建立基于QX100微滴式数字聚合酶链式反应(polymerase chain reaction,PCR)平台的我国未批准转基因玉米品系VCO-01981-5的二重微滴式数字PCR定量检测方法。该方法选择基因组中单拷贝的玉米内源基因hmg和VCO-01981-5品系边界序列为定量靶序列,分别设计不同的PCR扩增引物和TaqMan探针,并对两种探针用不同的荧光进行标记,然后将上述探针和引物置于同一个PCR反应体系中以同时定量两个靶标序列。特异性实验结果显示该法只有VCO-01981-5品系的两个靶序列才都有扩增信号。灵敏度、线性和准确性实验结果显示在定量结果相对标准偏差不大于25%时,最低可稳定定量5个拷贝的VCO-01981-5品系特异性序列分子和4个拷贝的内源基因hmg分子;而在高达50 ng模板DNA以下范围内,PCR反应模板量与测定样品拷贝数之间呈高度正相关,相关系数达0.99以上;平均误差小于10%。结果表明本研究建立的该玉米品系定量方法特异性强,稳定性好,精确性、准确性以及灵敏度高,定量范围广,可用于进、出口农产品和食品中该转基因玉米品系成分的定量检测。此外,该法还可为其他转基因玉米品系及其他转基因作物品系建立类似定量检测方法提供参考。     

转基因大豆DAS44406-6多重荧光定量PCR检测方法的建立

本文针对大豆内源基因Lectin和转基因大豆DAS44406-6品系的5'端插入位点序列,设计特异性引物及探针,建立同时检测转基因大豆DAS44406-6品系和大豆内源基因Lectin的多重荧光定量PCR方法,并运用15种转基因大豆、3种转基因玉米、1种转基因油菜、1种转基因水稻和非转基因大豆对该方法进行特异性评价,并分析该方法的灵敏度和稳定性。结果显示,该方法能准确从20种转基因样品和1种非转基因样品中检出靶目标,检测结果与待检样品信息一致,表明本方法具有良好的特异性;灵敏度高达0.01%;重复性实验表明DAS81419品系4种含量、9次重复反应Ct值的标准偏差介于0.050~0.222,相对标准偏差介于0.169%~0.677%,均在可接受范围内。该方法特异性强、灵敏度高、稳定性强,适用于各口岸实验室进行转基因大豆DAS44406-6的快速、准确的检测。     

转基因甜菜品系H7-1的数字PCR定量检测方法

为实现转基因甜菜品系H7-1的标识管理和精准定量,根据H7-1的5’边界序列和甜菜谷氨酰胺合成酶基因（glutamine synthetase,GS）设计引物和探针建立双重数字PCR检测体系。该方法的特异性、灵敏度、精密度和准确度均进行了测试。结果显示：建立的转基因甜菜H7-1数字PCR检测方法特异于H7-1品系检测,在20 μL反应体中H7-1品系特异性序列和内源基因GS的定量下限（limit of quantitation,LOQ）分别为3.1拷贝/μL和6.3拷贝/μL,检测下限（limit of detection,LOD）检出限分别为0.6拷贝/μL和1.3拷贝/μL,精密度和准确度在可接受范围内,该定量方法不依赖于标准曲线建立,可便捷的应用于转基因甜菜H7-1成分的精确定量检测。     

水产品中创伤弧菌ddPCR定量方法的建立

选取创伤弧菌单拷贝基因met为靶基因,设计引物探针,建立对创伤弧菌准确定量的微滴式数字聚合酶链式反应(droplet digital polymerase chain reaction,ddPCR)方法,并进行特异性、灵敏度和重复性实验,同时与实时PCR(real-time PCR)方法进行比较。结果显示,所建立的ddPCR方法可以快速、高效地检测出创伤弧菌,细菌纯培养物中其定量限可达323拷贝数/mL,检测限可达61拷贝数/mL,人工污染牡蛎样品中能最低能检测到1.13×102拷贝数/g的目标菌。对人工污染样品中目标菌的检测,ddPCR的定量结果约为平板计数结果的1.4倍,比real-time PCR方法的检测更加稳定准确。本研究建立的ddPCR检测方法能快速准确、特异、灵敏地定量检测创伤弧菌。     

基于单拷贝核基因的数字PCR定量检测肉制品中羊源性成分

GeneBank搜索牛、绵羊、山羊、猪、马、驴、鸡、鸭、鹅、火鸡、狗、猫、鼠、兔、貂等15种动物的单拷贝核基因组序列信息,应用生物信息学分析筛选15种动物共有的种间保守区域,设计一对可同时扩增15种动物源性DNA的内参基因引物和探针;同时分析筛选绵羊和山羊共有且和其余动物种内特异性区域,设计一对只能扩增羊源性DNA的特异性基因引物和探针。基于微滴数字PCR技术,引入内参基因校正羊种属特异性基因测定方法,建立科学准确的肉制品中羊源性成分量化判定方法。结果表明,所建立方法具有良好的特异性和通用性,内参基因和羊种属特异性基因的最低检出限分别为32和26 copies/μL,模拟添加样品的正确度偏差均值为8.66%,符合数字PCR方法制定指南要求不得大于25%,说明量化判定方法结果具有较高的准确性。     

电热消解-石墨炉原子吸收法测定锌合金钮扣中铅含量的研究

建立一种石墨炉原子吸收光谱法测定锌合金钮扣中铅的实验方法。采用电热板加热消解锌合金纽扣,并使用石墨炉加热原子吸收法测定样品中的铅含量,对方法检出限、精密度、回收率进行考查。结果显示:方法检出限为0.125mg/kg,RSD为3.6%。方法回收率在94.7%~105.0%之间。实验结果表明:方法具有良好的准确度及精密度,适于金属钮扣中铅的准确定量分析。     

转基因大豆MON89788双重数字PCR通用定量检测方法的建立

建立一种特异、稳定、灵敏、通用的转基因大豆MON89788品系双重数字聚合酶链式反应（digital polymerase chain reaction,dPCR）定量检测方法,在一个体系内同时进行内外源基因的定量检测,适用于微滴式数字PCR（droplet digital PCR,ddPCR）和芯片式数字PCR（chip digital PCR,cdPCR）平台,并通过了食品分析能力评价体系国际能力验证项目的盲样检测评价。ddPCR平台对大豆MON89788品系和内源Lectin的绝对定量限分别为8.0copies/μL和8.2copies/μL;cdPCR平台对大豆MON89788品系和内源Lectin的绝对定量限分别为7.443copies/μL和7.646copies/μL;ddPCR和cdPCR对转基因大豆MON89788品系成分相对含量的相对定量限均为0.1%。     

基于微滴式和芯片式数字PCR技术的转基因克螟稻成分的定量检测

以转基因克螟稻品系为研究对象,通过大米内源蔗糖磷酸合成酶基因和转基因克螟稻品系特异性序列的绝对拷贝数分析,建立转基因克螟稻成分的双重数字聚合酶链式反应（polymerase chain reaction,PCR）定量分析方法。本研究中转基因克螟稻定量体系中最适DNA添加量在10 pg～13 ng之间,模板断裂程度、PCR扩增退火温度等因素对定量结果的影响不大。其定量的绝对灵敏度达1 copies/μL,可在微滴式和芯片式数字PCR平台上准确检测质量分数在0.1%～100%之间的转基因克螟稻成分,尤其是对低于1%的样品,其定量准确性高于传统的实时荧光PCR方法。本研究建立的转基因克螟稻成分定量分析方法适用性较好,可用于转基因水稻规范化与标准化的定量分析。     

Establishment and evaluation of event-specific qualitative and quantitative PCR method for genetically modified soybean DP-356043-5

With the increasing development of genetically modified organisms (GMOs), labeling regulations have been introduced, which require appropriate detection methods. The polymerase chain reaction (PCR) technique has been the mainstay for GMO detection, especially for event-specific qualitative and quantitative PCR detection methods, which have become the internationally agreed state-of-art. This paper describes the character and event-specific quantitative detection method of DP-356043-5 (356043) soybean. In this research, the flanking regions were characterized by inverse PCR (I-PCR). Furthermore, the event-specific PCR primers and TaqMan probe were designed based on the discovered right and left flanking sequences. In the qualitative PCR assay, PCR systems were established with the species-specific and event-specific primers, respectively. And event-specific primers were established on both right and left flanking sequences; the limit of detection (LOD) was both 0.05% (approximates to 42 haploid genome copies). In the quantitative TaqMan real-time PCR assay, we obtained standard curves with good linearity and relatively high efficiency of PCR. All the results indicated that the established event-specific qualitative and quantitative PCR systems for 356043 soybean in this study were reliable and suitable for 356043 soybean detection in mixed samples. Besides, based on the flanking sequence information we obtained, not only the qualitative and quantitative PCR system for detecting 356043 soybean can be established, but also some other novel event-specific detection methods using gene microarray, biosensor, etc., with target sequence on them can also be developed, which have a good value for detecting 356043 soybean.     

Development of an Event-Specific Detection Method for Genetically Modified Maize IE034 by Quantitative Real-Time PCR

The insect-resistant transgenic maize event IE034 has been proved to be one of the most commercially developed transgenic maize events in China. This study was aimed to develop a stable and reliable quantitative detection method to monitor this new transgenic maize event. Here, we developed a novel event-specific real-time PCR method for this genetically modified maize event IE034. The resulting 134 base pair (bp) amplicon was designed according to the 5′ junction of inserted sequence and flanking maize genome sequence. Standard curve of the IE034 5′ event-specific sequence showed good linear regression and high PCR efficiency when using the IE034 pure line samples as calibrator. The limit of detection (LOD) for the IE034 detection method was estimated at approximately 8 initial template copies, and the limit of quantification (LOQ) was estimated at about 40 copies. The accuracy of this quantitative real-time PCR method was verified by screening four mixed DNA samples with known levels of the IE034 event (5, 1, 0.5, and 0.23 %, respectively). The quantified biases deviated from 8.7 to ?12.2 %, and the relative standard deviation (RSD) ranged from 2.7 to 12.7 %. These data indicated that this new-developed IE034 event-specific real-time PCR method is suitable and reliable for the quantification of IE034 maize and its derivates.     

Event-Specific Qualitative and Quantitative Detection in Transgenic Soybean OsDREB3 Based on the 5′ Flanking Sequence

With the development of genetically modified organisms, labeling regulations have been introduced that require appropriate detection methods. Event-specific qualitative and quantitative polymerase chain reaction (PCR) detection methods have become the internationally agreed state-of-the art. Using adaptor PCR, we analyzed the flanking sequences of exogenous integrant in transgenic soybean OsDREB3, which has resistance genes. In this study 5′ region flanking sequences of exogenous gene were identified in the soybean OsDREB3 genome, which was integrated in chromosome 1 with an additional 394 bp insertion between soybean genomic DNA and exogenous gene. Based on these inserts and flanking sequences, the event-specific qualitative and quantitative PCR system was established for this line. In the conventional qualitative PCR assay, the event-specific primers designed were confirmed to be specific and the limit of detection (LOD) was 0.1%. In the quantitative real-time PCR assay, the LOD and the limit of quantity were 10 and 100 haploid genome copies, respectively. The goodness of the linearity and high efficiency of the PCR reaction indicated the utility of the established PCR system. This study provides two reliable methods and information for detection, identification, and quantification of the presence of non-authorized transgenic soybean OsDREB3.     

转基因鲑鱼AquAdvantage品系特异性实时荧光聚合酶链式反应检测方法的建立

目的实现转基因鲑鱼AquAdvantage的标识管理,建立其品系特异性实时荧光聚合酶链式反应(PCR)检测方法。方法针对转基因鲑鱼的品系特异性序列设计引物和TaqMan探针,建立转基因鲑鱼实时荧光PCR检测方法,并对该方法的特异性、灵敏度和重复性进行检测。结果建立的转基因鲑鱼实时荧光PCR方法特异性强,在600 000~60拷贝范围内呈良好的线性关系,其线性回归方程为y=-3.2194x+40.805,R~2=0.997,检测限为60拷贝,检测重复性良好。结论建立的品系特异性实时荧光PCR方法可应用于转基因鲑鱼AquAdvantage的鉴定。     

Integrated structure and event-specific real-time detection of transgenic <Emphasis Type="Italic">cry1Ac/SCK</Emphasis> rice Kefeng 6

Transgenic rice Kefeng 6 is a transformation event containing two insect-resistant genes, cry1Ac and SCK (modified CpTI gene) in China. In order to monitor the probable release of Kefeng 6 in the future and execute the labeling requirements, it is necessary to develop a rapid and reliable detection method. In this study, both the 5′ and 3′-junction sequences spanning the plant DNA and the integrated gene construct of the rice event Kefeng 6 were isolated by genome walking and long-distance PCR (LD-PCR), successively. Multiple copies of truncated SCK gene and cry1Ac gene were found to integrate into the host rice genome. The event-specific real-time detection method for Kefeng 6 event based on its 5′-junction sequence was established using one plasmid molecule pMD-KF6 containing both 5′-junction sequence and rice endogenous gene gos9 sequence as the reference material (RM) with an absolute limit of quantification (LOQa) around 10 template copies. Thereafter, three different transgenic amounts of w/w mixed samples (5, 1, and 0.5%, respectively) were quantified to assess the performance characteristics of the established real-time PCR method. The accuracy expressed as bias deviated from the 4.00–26.00%, the precision expressed as standard deviation (SD) and relative standard deviation (RSD) deviated from 0.03–0.19 and 3.42–4.76%, respectively. Based on the earlier results, we concluded that the qualitative and quantitative PCR assays were reliable and accurate for Kefeng 6 measurement, and the reference plasmid pMD-KF6 could be a good substitute for the reference material for Kefeng 6 quantification.