不同探针大小、标记物及反应底物对马铃薯类病毒杂交检测的影响

 灵敏可靠地检测马铃薯纺锤块茎类病毒(Potato spindle tuber viroid,PSTVd)对脱毒种薯的生产具有重要意义。本研究探索了影响核酸杂交检测技术的关键因素。通过基因克隆技术构建了插有PSTVd全长单体、双体及片段的载体。分别以地高辛和同位素为标记物,利用PCR和转录标记技术制备cDNA和RNA探针。比较探针大小、标记物、标记方法、反应底物等对检测灵敏度的影响。结果显示,以地高辛为标记物,利用PCR标记制备的PSTVd双体cDNA探针,在以CDP-Star为底物,通过在柯达X-OMAT BT胶片进行化学发光反应来分析结果的检测灵敏度最高,可以检测到0.05 pg总RNA中的PSTVd,是国外报道检测灵敏度的500倍。利用核酸斑点杂交技术检测PSTVd具有灵敏度高,一次可检测样品数量多等特点,对于大规模PSTVd检测更加方便可行。     

用生物素标记外壳蛋白基因cDNA探针检测葡萄扇叶及马铃薯Y病毒

 以葡萄扇叶病毒(GFV)干u马铃薯Y病毒(PVY)外壳蛋白基因的重组质粒为模板,用聚合酶链式反膨技术(PCR)分别合成了长度为1.5kb和0.75kb的生物素标记双链cDNA探针,在斑点杂交反应中,探针的最适使用浓度为1/100,GFV探针检测GFV-RNA的灵敏度为10pg,检测提纯GFV的灵敏度为25pg,检测感病苋色藜的最大稀释倍数为10000倍;PVY探针检测PVY-RNA的灵敏度为30pg,检测提纯PVY灵敏度为500pg,感病烟草检测的最大稀释度为8000倍,阴性对照均无杂交信号出现。     

利用RT-PCR方法检测甜瓜种子中南瓜花叶病毒

通过设计特异性引物SQCPF/SQCPR,扩增南瓜花叶病毒(Squash mosaic virus,SqMV)CP基因的保守序列,进行RT-PCR,对扩增得到的特异性片段进行序列测定,测序结果显示扩增产物序列与GenBank中登录的SqMV外壳蛋白基因存在87%～96%的一致性;建立了适用于检测甜瓜种子中南瓜花叶病毒的RT-PCR结合ELISA方法,通过在酶联板的反应孔中直接进行反转录合成cDNA,能扩增到预期大小的DNA条带,且检测灵敏度高于DAS-ELISA方法10倍以上。用建立的RT-PCR结合ELISA方法检测进境甜瓜种子携带的SqMV,在42份样品中检出4份阳性样品。     

实时荧光PCR检测瓜炭疽病菌

采用实时荧光PCR技术建立了瓜炭疽病菌(Colletotrichum orbiculare)的检测方法。根据瓜炭疽病菌甘油醛-3-磷酸脱氢酶(GAPDH)基因和谷氨酰胺合成酶(GS)基因序列,设计了该病菌特异性引物和TaqMan探针,并对所设计的引物和探针的反应条件进行了优化。采用本试验建立的实时荧光PCR方法对瓜上的其他菌株及近似菌株进行检测,可将瓜炭疽病菌与其他病原菌区分开。灵敏度试验表明,25μL体系中只要有39.6pg的核酸量就可以被检测到,检测灵敏度达到1.584pg/μL,比普通PCR检测灵敏度高100倍。同时对田间采集的病株和未知样品进行的检测证明了引物和TaqMan探针的特异性。     

黄瓜花叶病毒NASBA检测技术的建立

 以香蕉花叶病病样为材料,初步建立了黄瓜花叶病毒核酸序列依赖性扩增(Nucleic acid sequence based amplifica-tion,NASBA)的检测技术。通过以香蕉叶片总RNA为模板,在黄瓜花叶病毒(Cucumber mosaic virus,CMV)亚组ⅠRNA 2高保守区设计特异引物,进行NASBA反应,经5%琼脂糖凝胶电泳检测,阳性样品中出现了预期大小为310 bp的条带,而阴性和空白对照中均未出现。并对11份香蕉样品分别进行NASBA反应,并经过斑点杂交验证与RT-PCR检测比较,两者的检测结果一致,灵敏度相当,检出限量可达100 pg。     

利用Real-time RT-PCR方法检测苹果中苹果茎沟病毒

以含有苹果茎沟病毒(Apple stem grooving virus,ASGV)的苹果枝条为试材,设计扩增产物片段为176 bp的特异性引物,优化反应条件,构建标准曲线,建立了苹果茎沟病毒的SYBR Green Ⅰ实时荧光定量RT-PCR检测方法.对该方法进行了灵敏度和重复性试验,并且利用建立的方法对受ASGV感染的苹果枝条和树叶进行定量检测.最后,比较了实时荧光定量RT-PCR与常规RT-PCR检测的灵敏度.结果表明:样品的荧光定量PCR有良好的扩增曲线和溶解曲线,该方法的灵敏度可达6.8× 102拷贝/μL,检测其灵敏度是传统RT-PCR的100倍,所建立的荧光定量技术可用于田间样品中此病毒的检测,丰富了ASGV的检测手段,提高了检测灵敏度,具有较好的应用前景.     

猕猴桃果腐病菌PCR和实时荧光PCR检测

为了快速、准确地鉴定猕猴桃果腐病菌(Neofabraea actinidiae),根据GenBank中N. actinidiae的β-tubulin序列设计特异引物NAC-F/R和探针NAC-P,建立了常规PCR和实时荧光PCR检测方法。利用引物NAC-F/R扩增供试的4株N. actinidiae能得到389 bp的预期目标条带,但扩增其他20个非N. actinidiae供试菌株不能得到预期产物,检测灵敏度为140 pg菌丝体DNA;探针NAC-P对供试4株N. actinidiae表现为阳性扩增,而对其他菌株和空白对照均表现为阴性扩增,检测灵敏度可达14 pg菌丝体DNA,比常规PCR高10倍。样品检测试验结果表明两种PCR方法可用于口岸植物检疫中快速、准确地检测猕猴桃果腐病菌。     

进境苹果果实中梨火疫病菌的套式PCR检测

 针对进境商用苹果果实携带梨火疫病菌Erwinia amylovora数量有限的特点,选取源于病菌pEA29质粒的2对引物P29A/P29B和PEANT1/PEANT2配对组合成套式PCR,其检测灵敏度可达0.15 pg菌体DNA,检测灵敏度高于EPPO推荐的单管套式PCR方法和常规PCR方法。分别利用这3种PCR检测方法对美国、新西兰、日本和智利等国进境的166批苹果样品进行检测,3种检测方法的样品阳性率分别为53.6%、38.0%和8.4%,试验结果表明此套式PCR检测方法可用于进境商用苹果的梨火疫病菌快速检测。进境样品的检测结果证实了进境商用苹果果实中存在梨火疫病菌的可能性。     

一种豇豆重花叶病毒RT-PCR检测方法的研究

对一种豇豆重花叶病毒(Cowpeas evere mosaic virus,CPSMV)反转录PCR分子检测方法进行了研究。利用从美国菌种保藏中心和德国微生物毒株保藏中心引进的CPSMV标准毒株,设计了一对特异性简并引物(CPSMVf/CPSMVr),建立了CPSMVRT-PCR检测方法。该方法具有良好的扩增反应及特异性,灵敏度可达1pg的总病叶组织RNA量。CPSMV双抗夹心酶联免疫法(DAS-ELISA)灵敏度为10μg叶组织。该方法适用于豇豆等豆类蔬菜种子及种苗中对豇豆重花叶病毒的快速检测。     

小麦纹枯病菌Rc-RPA-LFD快速检测方法的建立及应用

正近年来,随着气候条件、耕作制度的变化和水肥条件的改善,小麦纹枯病在我国危害日趋严重,现已成为长江中下游麦区和黄淮麦区主要病害,每年造成严重经济损失[1]。小麦纹枯病常与小麦根茎部病害如根腐病、茎基腐病混合发生,发病早期症状相似,影响病害的早期诊断和防治。目前,小麦纹枯病菌快速检测方法主要基于常规PCR和Real-time PCR [3,4]。常规PCR和Real-time PCR具备检测准确、灵敏度高的优点,但这两种检测技术对仪器设备和     

小麦纹枯病菌Rc-RPA-LFD快速检测方法的建立及应用

Rhizoctonia cerealis is a soil-borne phytopathogenic fungus that causes wheat sharp eyespot, resulting in serious economic losses. In this study, the recombinase polymerase amplification combined with lateral-flow dipstick technology (Rc-RPA-LFD) was developed for the rapid and sensitivity detection of R. cerealis. The Rc-RPA-LFD assay could be completed at isothermal temperature of 38°C within 30 min without PCR thermal cyclers. The RPA primers and probe designed based on ITS region, showed high specificity to R. cerealis. The detection limit of Rc-RPA-LFD assay was 1 pg·μL^-1 fungal genomic DNA, showed an equal sensitivity to that of conventional PCR. In addition, the Rc-RPA-LFD assay could detect R. cerealis from field soil samples, showing no significant differences compared to conventional PCR assay. The simplicity, rapidly and practicability all indicated that Rc-RPA-LFD assay will be a promising molecular diagnosis for the accurate and rapid detection of R. cerealis.     

基于TaqMan MGB探针的黑白轮枝菌检测方法

根据黑白轮枝菌(Verticillium albo-atrum)及其近似种β-微管蛋白基因(β-tubulin)序列差异,设计并合成1对引物和1条Taq Man-MGB探针,建立了黑白轮枝菌的实时荧光PCR检测方法。对供试黑白轮枝菌及其近似种实验表明,该方法特异性强,只有黑白轮枝菌可被检出。通过对反应体系的优化,确定了最佳反应条件:引物终浓度为1.0μmol/L,探针终浓度为0.7μmol/L。灵敏度试验结果显示,最低检测限量为总DNA含量10 pg(20μL反应体系)。此方法快速灵敏,为快速检测黑白轮枝菌提供了重要参考。     

基于Ypt1基因为靶标的木香疫病病组织及病田土壤分子检测技术

A species-specific PCR assay was established for rapid and accurate detection of the oomycete pathogen Phytophthora tentaculata in diseased plant tissues and infected soil.A pair of species-specific primers Pt1/Pt2 were designed on the basis of Ras-related protein(Ypt1) gene sequences of the Phytophthora species.PCR amplification with the Pt primers resulted in a 386 bp product only from isolates of P.tentaculata.The detection threshold with Pt primers was 100 pg of genomic DNA.A nested PCR procedure was developed using Ypt1F/Ypt1R as the first-round amplification primers and Pt1/Pt2 as the second-round primers,which increased the detection sensitivity 100-fold to 1 pg.PCR using these Pt primers can also be used to detect P.tentaculata in naturally infected plant tissues and soil.The PCR-based method developed in this study provides a rapid and sensitive tool for detection of P.tentaculata.     

Development of a One-Step Real-Time Polymerase Chain Reaction Assay for Diagnosis of Phytophthora ramorum

ABSTRACT Phytophthora ramorum is a recently described pathogen causing bleeding cankers, dieback, and leaf blight on trees and shrubs in parts of Europe and North America, where the disease is commonly known as sudden oak death. This article describes the development of a single-round real-time polymerase chain reaction (PCR) assay based on TaqMan chemistry, designed within the internal transcribed spacer 1 region of the nuclear ribosomal (nr)RNA gene for detection of P. ramorum in plant material. Unlike previously described methods for the molecular detection of P. ramorum, this assay involves no post amplification steps or multiple rounds of PCR. The assay was found to have a limit of detection of 10 pg of P. ramorum DNA, and could detect P. ramorum in plant material containing 1% infected material by weight within 36 cycles of PCR. The assay also was used to test DNA from 28 other Phytophthora spp. to establish its specificity for P. ramorum. A quick and simple method was used to extract DNA directly from host plant material, and detection of P. ramorum was carried out in multiplex with an assay for a gene from the host plant in order to demonstrate whether amplifiable DNA had been extracted. Amplifiable DNA was extracted from 84.4% of samples, as demonstrated by amplification of host plant DNA. The real-time protocol was used to test 320 plant samples (from 19 different plant species) from which DNA extraction had been successful, and was shown to give results comparable with a traditional isolation technique for diagnosis of P. ramorum in plant material from common U.K. hosts.     

Specific detection of<Emphasis Type="Italic">Pythium aphanidermatum</Emphasis> from hydroponic nutrient solution by booster PCR with DNA primers developed from mitochondrial DNA

Pythium aphanidermatum causes damping-off and root rot of vegetable crops in hydroponic systems. A DNA probe was isolated and modified from a library ofHindIII-digested mitochondrial DNA ofP. aphanidermatum that strongly hybridized to DNA ofP. aphanidermatum and weakly hybridized to DNA ofPythium deliense. Cross-hybridizing sequences were absent from DNA of plants and other related fungi. The probe detected as little as 5 ng ofP. aphanidermatum DNA and 250 ng ofP. deliense DNA in slot-blot assays.P. aphanidermatum was detected by a hybridization assay of total DNA extracted directly from infected roots. A pair of oligonucleotide primers P1 and RP2, which allowed amplification of a specific 0.65 kb DNA fragment ofP. aphanidermatum using polymerase chain reaction (PCR), was designed from a specific DNA probe. Specific amplification of this fragment fromP. aphanidermatum was highly sensitive, detecting template DNA as low as 0.1 pg total DNA by booster PCR. Specific booster PCR amplification using P1 and RP2 was successful in detectingP. aphanidermatum in naturally infected nutrient solution and roots of vegetables in a field hydroponic system. http://www.phytoparasitica.org posting Sept. 22, 2002.     

LNA探针实时荧光定量PCR检测小麦矮缩病毒体系的建立

 本研究通过对多个小麦矮缩病毒(Wheat dwarf virus, WDV)小麦分离物进行序列分析,在编码Rep蛋白N 端的基因保守区域设计一对特异性引物和一条长度为19 bp的TaqMan LNA探针,经过探针和引物浓度的系列优化,建立了WDV田间样品LNA探针实时荧光定量PCR检测方法,确定最优反应条件下的引物和探针终浓度分别为0.5 μmol/L和0.3 μmol/L。该方法建立的标准曲线斜率及相关系数分别为-3.424 3和0.997 3,扩增效率为96.0%,重复性试验组内变异系数为0.11%~1.34%,组间变异系数为0.44%~1.21%,最低检测限为55 copies/μL,其灵敏度是普通PCR的100倍以上。与普通TaqMan探针荧光定量PCR相比,该方法所用探针长度大大缩短,减少了探针间形成二级结构的机会,探针设计更加简单、方便。该方法适用于田间样品的早期监测,为病害流行调查提供了高效快捷的技术支撑。     

基于TaqMan MGB探针的葡萄茎枯病菌实时荧光PCR检测方法

 葡萄茎枯病菌是我国进境植物检疫性有害生物。带菌植物材料是病害传播的重要载体,准确、灵敏、快速的检测方法是严格执行口岸检疫措施及研究病害防控措施的有力工具。根据葡萄茎枯病菌及其近似种的细胞骨架蛋白(Actin)基因序列差异,设计并合成1对引物和1条特异性TaqMan-MGB探针,建立了葡萄茎枯病菌的实时荧光PCR检测方法。通过对反应体系的优化,确定了葡萄茎枯病菌的实时荧光PCR最佳反应条件:引物终浓度为0.6 μmol·L^-1,探针终浓度为0.6 μmol·L^-1。灵敏度试验结果显示,最低检测限为总DNA含量20 pg(20 μL反应体系)。此方法快速灵敏,整个反应1 h即可完成,检测过程完全闭管,无需PCR产物后续处理,为快速检测葡萄茎枯病菌提供了重要参考。该方法用于口岸疑似菌株检测,可成功检测出葡萄茎枯病菌。本研究建立的基于TaqMan MGB探针的荧光定量PCR检测方法为葡萄茎枯病菌的早期快速检测监测提供了有力工具。     

基于TaqMan MGB探针的葡萄茎枯病菌实时荧光PCR检测方法

 葡萄茎枯病菌是我国进境植物检疫性有害生物。带菌植物材料是病害传播的重要载体,准确、灵敏、快速的检测方法是严格执行口岸检疫措施及研究病害防控措施的有力工具。根据葡萄茎枯病菌及其近似种的细胞骨架蛋白(Actin)基因序列差异,设计并合成1对引物和1条特异性TaqMan-MGB探针,建立了葡萄茎枯病菌的实时荧光PCR检测方法。通过对反应体系的优化,确定了葡萄茎枯病菌的实时荧光PCR最佳反应条件:引物终浓度为0.6 μmol·L^-1,探针终浓度为0.6 μmol·L^-1。灵敏度试验结果显示,最低检测限为总DNA含量20 pg(20 μL反应体系)。此方法快速灵敏,整个反应1 h即可完成,检测过程完全闭管,无需PCR产物后续处理,为快速检测葡萄茎枯病菌提供了重要参考。该方法用于口岸疑似菌株检测,可成功检测出葡萄茎枯病菌。本研究建立的基于TaqMan MGB探针的荧光定量PCR检测方法为葡萄茎枯病菌的早期快速检测监测提供了有力工具。