利用双重PCR-DHPLC技术检测水稻细菌性谷枯病菌的研究

本研究建立了一种应用双重PCR结合变性高效液相色谱技术(polymerase chain reaction-denatured high performanceliquid chromatography,PCR-DHPLC)检测水稻细菌性谷枯病菌的方法。根据水稻细菌性谷枯病菌ITS序列(internal tran-scribed spacer)和gyrB基因序列,设计两对特异性PCR检测引物,对水稻细菌性谷枯病菌株和非水稻细菌性谷枯病菌株分别进行PCR-DHPLC及双重PCR-DHPLC检测,同时进行检测灵敏度及阳性菌株的同源性分析。结果显示,PCR-DHPLC检测的特异性强,灵敏度为菌浓度4×102cfu/mL,7株水稻细菌性谷枯病菌PCR产物同源性一致。该方法能简便、灵敏、高特异性地对水稻细菌性谷枯病菌进行高通量的自动化检测。     

油菜茎基溃疡病菌LAMP-LFD检测方法的建立

本文基于环介导等温扩增技术与横向流动试纸条相结合的方法,建立了一种应用于油菜茎基溃疡病菌(Leptosphaeria maculans)的LAMP-LFD快速检测方法。以油菜茎基溃疡病菌的ITS基因序列为靶序列,设计出一套用于LAMP-LFD检测的引物和探针,优化了反应体系与反应条件(63℃,35 min)。结果表明:只有油菜茎基溃疡病菌出现阳性条带,其他参照菌株和阴性对照均未出现阳性条带,说明LAMP-LFD检测特异性强;灵敏度检测表明,对油菜茎基溃疡病菌的检测极限可低至114 fg/μL,灵敏度比传统PCR高10倍;该方法可从进境船载油菜籽样品中成功检测出油菜茎基溃疡病菌,检测结果与传统的鉴定方法一致。LAMP-LFD检测方法能够快速检测油菜茎基溃疡病菌,具有简便、灵敏、特异性高,不依赖特殊检测设备等优点,极具推广前景。     

PCR-DHPLC技术快速检测玉米细菌性枯萎病菌

本研究成功建立了玉米细菌性枯萎病菌的PCR检测方法.该方法根据细菌ITS序列的特异性,设计了对玉米细菌性枯萎病菌具有稳定性点突变的特异性引物及探针,并对5株玉米细菌性枯萎病菌及18种植物原性细菌的DNA进行了PCR、实时荧光PCR及PCR结合变性高效液相色谱技术(PCR-DHPLC)检测.结果表明,几种方法特异性强,检测灵敏度均为菌液浓度102 cfu/mL,PCR-DHPLC技术具有检测成本较低、高通量、自动化程度高、污染风险小及鉴定结果准确等特点,能够满足快速、准确诊断玉米细菌性枯萎病菌的要求.     

基于致病基因序列的LAMP方法检测番茄种子携带的溃疡病菌

本研究选取番茄溃疡病菌(Clavibacter michiganensis subsp.michiganensis,Cmm)致病岛上的chpC基因的部分序列,作为环介导等温扩增(loop-mediated isothermal amplification,LAMP)靶标片段进行LAMP引物设计。对反应体系优化后进行特异性测定,结果表明供试的89株番茄溃疡病菌中86株检测结果为阳性,3株为阴性,供试的14株非番茄溃疡病菌(其他重要植物病原细菌)均为阴性。检测番茄溃疡病菌菌悬液样品的阈值为4.8×10~5 CFU·mL~(-1),对DNA样品的检测阈值为1.8×10~(-2) ng·μL~(-1),并据此建立了番茄溃疡病菌的LAMP检测方法。将该方法应用于番茄种子携带Cmm的检测,通过提取种子浸提液样品的总DNA,实现了对番茄种子携带Cmm的直接检测。与普通PCR相比,该方法更加快捷简便,不依赖PCR仪等昂贵的仪器设备,可以丰富现有的番茄溃疡病菌分子检测体系,为口岸等检疫部门提供简单易行的检测初筛手段。     

柑橘溃疡病菌的普通LAMP及快速LAMP检测方法的建立

建立柑橘溃疡病菌的普通LAMP和快速LAMP检测方法,使其能应用于基层检验检疫部门对病害的快速检测.利用柑橘溃疡病菌基因组特有的保守区域设计LAMP引物,通过优化反应条件,建立柑橘溃疡病菌的普通LAMP检测体系;在普通LAMP引物的基础上设计一对环引物,建立柑橘溃疡病菌的快速LAMP检测体系,并以多种参比菌DNA以及健康柑橘叶片基因组DNA为模板对普通LAMP和快速LAMP检测体系的特异性进行了验证,利用柑橘溃疡病菌菌液和DNA溶液梯度稀释液对普通LAMP和快速LAMP检测体系的灵敏度进行了验证.普通LAMP检测体系菌体和DNA检测灵敏度分别达到了2.25×104 cfu和2.03×10-1 ng,快速LAMP检测体系菌体和DNA检测灵敏度分别达到了2.25 cfu和2.03×10-5ng.在特异性测试中,普通LAMP检测体系与快速LAMP检测体系均仅对柑橘溃疡病菌进行扩增,对非靶标菌和柑橘叶片基因组DNA不产生扩增,普通LAMP与快速LAMP检测体系特异性测试结果一致.快速LAMP检测体系在0.5h内就可以达到普通LAMP检测体系的扩增量,是普通LAMP检测体系反应时间的一半,大大提高了检测的效率;快速LAMP检测体系菌悬液和DNA检测灵敏度均比普通LAMP检测体系提高了10 000倍.成功地建立了柑橘溃疡病菌的普通LAMP及快速LAMP检测方法,为柑橘溃疡病菌的检测提供了一种新的简便、快速的检测手段.     

多重PCR-DHPLC法检测转基因棉花品系

根据3种转基因棉花品系的边界序列设计品系检测引物,建立了一种特异性检测转基因棉花品系MON531、MON1445和MON15985的多重PCR-DHPLC方法。以20种不同的转基因及非转基因作物DNA验证该方法的特异性,结果只有MON531、MON15985和MON1445有特异的品系扩增片段峰,而其他转基因和非转基因作物无品系扩增片段峰,表明该方法特异性强。灵敏度实验结果表明3种转基因棉花的检测下限均为1 ng,灵敏度高。建立的方法可用于转基因棉花MON531、MON1445和MON15985品系及含有其成分产品的筛查或定性检测。     

种传番茄溃疡病菌直接PCR和免疫捕捉PCR检测方法之比较

用PBS和种子研磨后的普通病原提取液稀释番茄溃疡病菌纯菌液,并以梯度纯菌液和带菌种子提取液作为模板进行直接PCR和免疫捕捉PCR,比较2种方法在纯菌液和带菌种子提取液中的检测灵敏度,找到一种高特异性、高灵敏度、简便快捷的方法用于检测番茄种子携带的番茄溃疡病菌。结果显示在纯菌液中直接PCR灵敏度为104cfu/mL,免疫捕捉PCR为102cfu/mL;在带菌种子提取液中直接PCR灵敏度为106cfu/mL,免疫捕捉PCR为104cfu/mL;免疫捕捉PCR比直接PCR灵敏度高100倍,尤其在实际种子检测中优势更明显,而且检出时间短,重复性好。     

两种向日葵检疫性真菌病害的多重DPO-PCR检测方法

本研究根据向日葵白锈病菌大亚基核糖体RNA基因序列,向日葵黑茎病菌的ITS-5.8S r RNA基因序列,分别设计特异性DPO(dual priming oligonucleotide)引物,建立同时检测这两种检疫性病菌的多重DPO-PCR检测方法,并对其特异性和灵敏度进行评价。结果表明,所设计的DPO引物特异性强,仅向日葵白锈病菌和向日葵黑茎病菌可分别扩增出307 bp与388 bp的特异性条带,其他参照菌株及阴性对照均无条带;检测体系对混合模板中向日葵白锈病菌和向日葵黑茎病菌的DNA灵敏度均达0.05 ng/μL;且该检测方法对退火温度不敏感,适用范围广。该方法能够准确、快速的检测向日葵白锈病菌和向日葵黑茎病菌,适合于口岸实验室的快速检测。     

番茄溃疡病菌单克隆抗体的制备与鉴定

为制备并鉴定番茄溃疡病菌(Clavibacter michiganensis subsp.michiganensis,Cmm)的单克隆抗体(McAbs),用全菌皮下免疫BALB/C小鼠,采用B细胞杂交瘤技术,经免疫、融合、间接ELISA筛选和克隆等,获得稳定分泌抗体的阳性杂交瘤细胞株,得到了抗番茄溃疡病菌的单克隆抗体。经免疫后获得3株单抗分别为1A4、1C3和1B7,经亚类鉴定分别是IgM、IgG1、IgG1;纯化腹水间接ELISA效价分别为1:3.2×106、1:8.1×105、1:3.2×106;与其他同属不同亚种无交叉反应。结果表明:3株单克隆抗体均具有较高特异性和敏感性,可作为番茄溃疡病菌的检测抗体,其中,1A4的效果最好。番茄溃疡病菌单克隆抗体的获得为进一步研发番茄溃疡病检测试剂盒奠定了基础。     

柑橘溃疡病菌检测方法及其在检疫中的优选

采用常规检测法、免疫斑点法、酶联免疫检测法和PCR检测法对柑橘溃疡病菌纯培养和柑橘叶片提取液进行平行测定。结果表明,对柑橘叶片提取液的检测,4种检测法检出的样品带菌率分别为11.12%、27.22%、18.69%、20.31%;对柑橘溃疡病菌纯培养的检测,4种方法检测结果一致。本实验同时比较了几种方法的灵敏度、特异性和稳定性,以及不同方法在各级检验检疫中的适应性。     

中国北方番茄细菌性溃疡病菌的rep-PCR基因指纹图谱分析

对来自全国若干省市的番茄细菌性溃疡病菌(Clavibacter michiganensis subsp.michiganensis)的33个菌株进行rep-PCR分析。结果表明,用引物BOX分别扩增出6～15条多态性条带,条带大多数集中在500～2800bp之间;用引物ERIC扩增的条带不清晰,可能是反应条件不适合,也可能是其不适合对番茄细菌性溃疡病菌进行多态性分析;BOX-PCR表明番茄细菌性溃疡病菌菌株具有丰富的遗传多态性和较大的遗传变异,对产生的指纹图谱进行分析:在遗传距离为0.18时,测试的33个菌株可划分为Ⅰ、Ⅱ、Ⅲ、Ⅳ、Ⅴ、Ⅵ和Ⅶ等7个遗传相似组群,其中Ⅵ组群包含的菌株最多。研究还表明番茄细菌性溃疡病菌的遗传分群与菌株的地理来源关系密切,但与该病的发病年份上没有必然联系,这也从另一侧面说明了该病害是土壤带菌引起的。     

苜蓿萎蔫病菌TaqMan探针实时荧光PCR检测方法的建立

苜蓿萎蔫病菌是我国对外检疫性二类有害生物，目前国内尚无发生6在出入境捡验检疫中主要是采用生物学和血清学方法进行检测，劳动强度大，耗费时间长。根据苜蓿萎蔫病菌与其它细菌菌株16SrDNA序列差异，设计出对苜蓿萎蔫病菌具有稳定点突交特异性探针，利用该探针对棒形杆菌属4个种及其它属细菌进行了实时荧光PCR检测实验。结果表明，只有苜蓿萎蔫病菌能检测到荧光信号，其它细菌没有荧光产生。该方法特异性强，灵敏度高，能检测到21．4fg质粒DNA，比常规PCR灵敏100倍，而且整个过程只需要2～3h。该方法可有效地应用于进出境病原菌检测之中。     

进境玉米中玉米内州萎蔫病菌的PCR检测

 为了快速准确检测进境玉米样品中的玉米内州萎蔫病菌Clavibacter michiganensis subsp. nebraskensis(Cmn), 根据GenBank中Cmn的16S-23S序列设计引物CM1/CM4和引物PSM1/CM3。引物PSM1/CM3仅能从供试的4株Cmn菌株中扩增获得208 bp的预期产物, 而其他36株对照菌株均不能扩增出预期条带。灵敏度测试结果表明引物CM1/CM4和PSM1/CM3组合的巢式PCR方法的检测灵敏度高于常规PCR, 检测灵敏度可达40 fg DNA或6.8 CFU目标细菌。常规PCR和巢式PCR方法对进境美国玉米样品的阳性检出率分别为8%和24%, 试验结果表明所建立的PCR方法可用于玉米样品中Cmn的快速检测。     

不同来源番茄溃疡病菌致病力差异研究

采用打顶法接种、半选择性培养基再分离发病植株中的病原菌,以及特异性PCR验证方法,对来自3个国家9个不同地区的46株番茄溃疡病菌进行了致病性测定,以病情指数评价不同菌株的致病力。结果显示,分离自我国河北滦平县、内蒙古包头市等地的24株菌株的病情指数达到75以上,属于强致病力水平;11株菌株的病情指数为50~75,属于中等致病力;而9株菌株的病情指数为50以下,属于弱致病力;检测同时证实,有2株属于无致病力菌株。强致病力、中等致病力、弱致病力和无致病力菌株占供试菌株总数的比例分别为52.2%、23.9%、19.6%和4.3%,表明供试的46株番茄溃疡病菌存在不同程度的致病力差异。     

番茄细菌性溃疡病菌的实时荧光PCR检测

 由Clavibacter michiganensis subsp.michiganensis(Cmm)引起的番茄细菌性溃疡病是一种严重危害番茄生产的种传细菌性病害。根据ITS序列多态性设计引物及TaqMan探针进行实时荧光PCR检测的结果表明,这组引物一探针能检测出所有供试的Cmm菌,对照菌均未检测到荧光信号。用接种但未显示症状的番茄苗叶片及人工处理的带菌种子提取的核酸作为模板,均能检测到病菌,其检测灵敏度比常规PCR高约100倍。实验中不需病原菌的分离培养及PCR的后续处理。该方法快速、简便、安全、准确,适用于出入境检验检疫及种子、种苗健康检测领域。     

Quantification of viable cells of Clavibacter michiganensis subsp. michiganensis using a DNA binding dye and a real-time PCR assay

Viable cells of Clavibacter michiganensis subsp. michiganensis (CMM), the causal agent of bacterial canker of tomato, were discriminated from the dead cells by quantitative real-time polymerase chain reaction (PCR), after the bacterial solution was treated with the DNA binding dye ethidium monoazide (EMA). The primers and TaqMan probe, based on the 16S-23S rDNA spacer sequences, were highly specific for CMM at the subspecies level. The detection limit of the direct real-time PCR was 10³ colony forming units per mL (cfu mL⁻¹) in samples and with an apparent sensitivity of 2 cfu of target cells in PCR reaction solution. Application of this method allows for selective quantification of viable cells of CMM and facilitates monitoring the pathogen in tomato seeds.     

rep-PCR-Mediated Genomic Fingerprinting: A Rapid and Effective Method to Identify Clavibacter michiganensis

ABSTRACT The genomic DNA fingerprinting technique known as repetitive-sequence-based polymerase chain reaction (rep-PCR) was evaluated as a tool to differentiate subspecies of Clavibacter michiganensis, with special emphasis on C. michiganensis subsp. michiganensis, the pathogen responsible for bacterial canker of tomato. DNA primers (REP, ERIC, and BOX), corresponding to conserved repetitive element motifs in the genomes of diverse bacterial species, were used to generate genomic fingerprints of C. michiganensis subsp. michiganensis, C. michiganensis subsp. sepedonicus, C. michiganensis subsp. nebraskensis, C. michiganensis subsp. tessellarius, and C. michiganensis subsp. insidiosum. The rep-PCR-generated patterns of DNA fragments observed after agarose gel electrophoresis support the current division of C. michiganensis into five subspecies. In addition, the rep-PCR fingerprints identified at least four types (A, B, C, and D) within C. michiganensis subsp. michiganensis based on limited DNA polymorphisms; the ability to differentiate individual strains may be of potential use in studies on the epidemiology and host-pathogen interactions of this organism. In addition, we have recovered from diseased tomato plants a relatively large number of naturally occurring avirulent C. michiganensis subsp. michiganensis strains with rep-PCR fingerprints identical to those of virulent C. michiganensis subsp. michiganensis strains.     

Colonization of tomato seedlings by bioluminescent Clavibacter michiganensis subsp. michiganensis under different humidity regimes

Tomato bacterial canker, caused by Clavibacter michiganensis subsp. michiganensis, is transmitted by infected or infested seed and mechanically from plant to plant. Wounds occurring during seedling production and crop maintenance facilitate the dissemination of the pathogen. However, the effects of environmental factors on C. michiganensis subsp. michiganensis translocation and growth as an endophyte have not been fully elucidated. A virulent, stable, constitutively bioluminescent C. michiganensis subsp. michiganensis strain BL-Cmm 17 coupled with an in vivo imaging system allowed visualization of the C. michiganensis subsp. michiganensis colonization process in tomato seedlings in real time. The dynamics of bacterial infection in seedlings through wounds were compared under low (45%) and high (83%) relative humidity. Bacteria multiplied rapidly in cotyledon petioles remaining after clip inoculation and moved in the stem toward both root and shoot. Luminescent signals were also observed in tomato seedling roots over time, and root development was reduced in inoculated plants maintained under both humidity regimes. Wilting was more severe in seedlings under high-humidity regimes. A strong positive correlation between light intensity and bacterial population in planta suggests that bioluminescent C. michiganensis subsp. michiganensis strains will be useful in evaluating the efficacy of bactericides and host resistance.     

Specific Detection of Clavibacter michiganensis subsp. sepedonicus by Amplification of Three Unique DNA Sequences Isolated by Subtraction Hybridization

ABSTRACT Three single-copy, unique DNA fragments, designated Cms50, Cms72, and Cms85, were isolated from strain CS3 of Clavibacter michiganensis subsp. sepedonicus by subtraction hybridization using driver DNA from C. michiganensis subsp. insidiosus, C. michiganensis subsp. michiganensis, and Rhodococcus facians. Radio-labeled probes made of these fragments and used in Southern blot analysis revealed each to be absolutely specific to all North American C. michiganensis subsp. sepedonicus strains tested, including plasmidless and nonmucoid strains. The probes have no homology with genomic DNA from related C. michiganensis subspecies insidiosus, michiganensis, and tessellarius, nor with DNA from 11 additional bacterial species and three unidentified strains, some of which have been previously reported to display cross-reactivity with C. michiganensis subsp. sepedonicus-specific antisera. The three fragments shared no homology, and they appeared to be separated from each other by at least 20 kbp in the CS3 genome. Internal primer sets permitted amplification of each fragment by the polymerase chain reaction (PCR) only from C. michiganensis subsp. sepedonicus DNA. In a PCR-based sensitivity assay using a primer set that amplifies Cms85, the lowest level of detection of C. michiganensis subsp. sepedonicus was 100 CFU per milliliter when cells were added to potato core fluid. Erroneous results that may arise from PCR artifacts and mutational events are, therefore, minimized by the redundancy of the primer sets, and the products should be verifiable with unique capture probes in sequence-based detection systems.     

番茄溃疡病菌PCR快速检测技术

番茄溃疡病是一种严重危害番茄生产的细菌性病害，许多国家将其列为检疫性病害。利用ITS通用引物扩增了番茄溃疡病菌（Clavibacter michiganensis subsp．michiganensis）的ITS序列，并进行克隆测序。根据序列比较结果设计了引物BT1和BT2，该引物特异性好，能专一扩增出268bp电泳条带，而马铃薯环腐病菌等不同亚种、不同属的细菌及健康的番茄材料均无扩增条带。从接种但未显症番茄苗叶片及人工模拟染菌种子上提取总DNA，以此为模板均能稳定地扩增出特异性目的条带。该方法直接对种子或植株进行检测，不需进行病原菌分离培养，快速简便，适用于出入境检验检疫及种苗健康检测领域。