介体条沙叶蝉传播小麦蓝矮病植原体特性研究   总被引：1，自引：0，他引：1       下载免费PDF全文

顾沛雯  ;吴云锋;武科科;郝兴安 《植物保护》2007,33(4):24-28

小麦蓝矮病植原体(wheat blue dwarf,WBD)属于翠菊黄化组三叶草绿变亚组植原体(16SrⅠ-C),由介体条沙叶蝉(Psammotettix striatus L.)专化性传播。通过电镜超微结构观察,在接种小麦、长春花和带毒条沙叶蝉体内有大量植原体,而在健康植物组织、无毒条沙叶蝉和带毒条沙叶蝉所产卵中未见植原体的存在。通过介体传毒试验和PCR检测发现,条沙叶蝉最适获毒期为7 d,植原体在虫体内的潜育期为1 5～1 7 d,接毒期为2～3 d。条沙叶蝉一旦获毒可终生持毒和传毒。不同虫态的条沙叶蝉带毒率没有明显的差异,但寄生植物的种类影响其带毒率。  相似文献   

小麦蓝矮病植原体16S rDNA基因片段的比较分析   总被引：21，自引：3，他引：18  

顾沛雯  安凤秋  吴云锋  杨栋  罗朝鹏  相建业  杨英 《植物病理学报》2005,35(5):403-409

 小麦蓝矮病是陕西乃至西北冬麦麦区的一个重要病害,由介体条沙叶蝉专化性传播。对小麦蓝矮病株叶片和带毒条沙叶蝉进行超薄切片及电镜观察,在叶片韧皮部和叶蝉后肠中均观察到大量典型植原体。利用植原体16S rDNA基因保守序列通用引物对Rm16F2/Rm16R1,应用PCR技术从小麦蓝矮病株叶片中扩增到1.4 kb的特异片段。通过对16S rDNA基因片段序列同源性比较,结果表明小麦蓝矮病病原与三叶草绿变、翠菊黄化、绣球花绿变、草莓矮化和番茄巨芽植原体亲缘关系较近,其同源率为99.2%~99.9%。据此可以判定小麦蓝矮病植原体是属于植原体16SrⅠ组,确定了其分类地位。  相似文献   

小麦蓝矮病植原体16S rDNA序列分析研究   总被引：5，自引：3，他引：2  

张荣  孙广宇  张雅梅  康振生 《植物病理学报》2005,35(5):397-402

 小麦蓝矮病是我国西北地区冬小麦上一种重要病害。本研究利用植原体16S rDNA通用引物对小麦蓝矮病患病植株全DNA进行nest-PCR扩增,获得1.2 kb的特异片段,并对扩增产物进行核苷酸序列测定,从分子水平证明了小麦蓝矮病的病原是植原体。利用最大简约法构建了16S rDNA系统演化树,系统演化关系分析表明:小麦蓝矮病植原体应该归属于翠菊植原体(Candidatus Phytoplasma asteris);小麦蓝矮病植原体与三叶草变叶病植原体(CPh)关系密切,被聚类为同一亚组(16Sr I-C),但是它们在寄主范围和传播介体等生物学性状方面差异很大。  相似文献   

小麦蓝矮植原体寄主范围的鉴定及RFLP分析   总被引：6，自引：0，他引：6  

顾沛雯  吴云锋  安凤秋 《植物病理学报》2007,37(4):390-397

 小麦蓝矮是我国首次报道的小麦植原体病害。采用介体接种植物,症状观察和应用植原体16S rDNA基因通用引物对R16mF2/R16mR1进行PCR扩增,在接种小麦和传毒介体中均扩增出1.4kb的特异片段,鉴定出小麦蓝矮植原体新寄主7种。用巢式PCR方法对小麦蓝矮病田自然发病杂草进行分子检测,从表现症状的10种杂草中均扩增出1.2kb的特异片段。利用6种植原体特异性限制性内切酶对10种杂草的扩增片段进行RFLP(restriction fragment length polymor-phism)分析表明:扩增片段的RFLP图谱与目前已知的16Sr I组翠菊黄化植原体的RFLP图谱相近。鉴定出小麦蓝矮植原体田间自然新寄主10种。  相似文献   

人工培养液在植原体昆虫介体筛选中的适用性     

葛泉卿  Michael Maixner  温孚江 《植物保护学报》2004,31(3):276-282

研究了一种人工培养液对各种常见的昆虫(主要是叶蝉)的亲和性和适用性.结果表明,该人工培养液适于本试验中大多数昆虫的人工饲养.用此方法,悬钩子广头叶蝉Macropsis.ftscula Zetterstedt和桤树广头叶蝉Oncopsis alniSchrank分别被再次确认为悬钩子矮化植原体和桤树黄化植原体的传播介体;田旋花麦蜡蝉Hyalesthes obsoletus Signoret再次被确认为葡萄黄化(stolbur)植原体的传播介体.此前,上述三种叶蝉已被传统的人工接种方法鉴定为相应植原体的传播介体.危害桤树的河谷树叶蝉Allygus modestus Scott尽管虫体DNA检测结果经常为阳性,但迄今其人工培养液的检测结果都是阴性,因此,我们认为河谷树叶蝉不是桤树黄化植原体的传播介体.Eppendorf管人工培养液饲养法不仅适用于潜在的植原体介体昆虫的筛选鉴定,而且可用于介体昆虫的生物防治研究.此外,本研究首次发现自然感染了葡萄上的一种被德国人称为"Vergi-lungskrankheit"植原体(AY组)的草地脊冠叶蝉Aprodes makarovi Zachvatkin.  相似文献   

双重RT-PCR法同步检测单头异沙叶蝉携带的两种小麦病毒     

杜真真  刘艳  王锡锋 《植物保护》2020,46(3):175-179

异沙叶蝉可传播小麦矮缩病毒Wheat dwarf virus(WDV)和小麦黄条纹病毒Wheat yellow striate virus(WYSV)两种病毒。本文根据WDV和WYSV的基因序列分别设计两种病毒的特异性引物对,以含有上述两种病毒的异沙叶蝉样品总RNA为模板,以随机引物为3′端通用引物反转录获得cDNA,然后在同一个PCR反应体系加入两对引物,分别得到与预期相符的773 bp和322 bp扩增产物条带。通过对引物浓度、dNTP和rTaq用量以及退火温度等条件进行优化,建立了能在同一异沙叶蝉体内检测WDV与WYSV两种小麦病毒的双重RT-PCR方法。该双重PCR方法特异性强、敏感性高,可以快速准确地在一个体系里同步检测介体昆虫体内的两种病毒,有效地检测虫体内病毒带毒率,这些结果可为病毒预测预报和病害防治提供参考。  相似文献   

植原体分类鉴定研究进展     

《植物检疫》2020,(5)

植原体(Phytoplasma)是一类重要的植物病原细菌。植原体的分类鉴定是植原体研究和病害防控的基础。本文介绍植原体病原发现的历史,植原体属的系统分类地位以及种、组、亚组分类鉴定的规则,现今已正式命名的植原体种和组,植原体分类鉴定的注意事项,并对分类鉴定研究的发展趋势进行了展望。  相似文献   

甘蔗白叶病植原体巢式PCR检测方法的建立及初步应用     

卢文洁  黄应昆  李文凤  王晓燕  罗志明 《植物病理学报》2012,42(3):311-314

甘蔗白叶病(sugarcane white leaf,SCWL)是由植原体引起的重要甘蔗病害[1],广泛分布在印度、泰国等许多国家[1,2].我国甘蔗产区的栽培品种也有SCWL的发生[3].甘蔗是无性繁殖作物,植原体可通过繁殖种苗进行传播,台湾斑纹叶蝉(Matsumuratetlix hiroglyhious)通过咬食感染甘蔗植株的韧皮部可引起该病害[4].  相似文献   

植原体病害研究概况   总被引：1，自引：0，他引：1  

牟海青  朱水芳  徐霞  赵文军 《植物保护》2011,37(3):17-22

植原体原名类菌原体,是一类重要的植物病原物,归属于细菌,无细胞壁,专性寄生于植物韧皮部。在菌体大小、结构以及遗传进化上与菌原体、螺原体十分相似。世界范围内植原体已引起千余种植物病害,主要表现为丛枝、黄化、节间缩短等。植原体病原主要依靠吸食植物韧皮部的昆虫介体传播,如叶蝉、木虱等。本文主要对植原体的病原学、遗传进化与基因组、致病机理以及防控进行综述。  相似文献   

3种检疫性葡萄黄化植原体的快速检测     

姜华  王有福  姜一  魏薇  Rasa Jomantiene  Robert E.Davis  赵衍 《植物病理学报》2011,41(4):352-360

 葡萄上的植原体病害由于引起叶片黄化而被称为葡萄黄化病。由于这一病害极为严重,葡萄黄化植原体被列为我国的植物检疫对象。其中,葡萄金黄化植原体(16SrV)、维吉尼亚葡萄黄化植原体(16Sr芋) 和澳大利亚葡萄黄化植原体 (16Sr狱) 是引起葡萄黄化病的主要3 个株系,它们导致的病害症状相似,难以区分。本文进行了3 个株系16S rRNA 基因 DNA 序列比对,而后根据同源性相对低的序列设计了43 条特异性引物、103 对引物对组合,对葡萄黄化植原体3 个株系各自的DNA 及混合DNA 进行PCR 扩增,从中筛选出来特异性较强的8 个引物对组合。这些引物对组合,能够同步、特异、快速地检测3 种葡萄黄化植原体。  相似文献   

利用酵母双杂交膜系统筛选与小麦蓝矮植原体免疫膜蛋白互作的异沙叶蝉蛋白     

陆文静  周通  王桂玲  宋成艳  鄂文顺  周雪松  丁磊  吴云锋 《植物病理学报》2021,50(5):637-640

In order to investigate interactive proteins in leafhopper (Psammotettix alienus L.) with WBD phytoplasma, the protein interaction analysis was performed by using WBD phytoplasma IMP (immunodominant membrane protein) as bait protein to screen a cDNA library of leafhopper using a split-ubiquitin yeast membrane system. Through the screening test, 30 clones were obtained from the cDNA library and 8 proteins were identified by searching against NCBI database, such as tubulin, peptidyl-prolyl cis-trans isomerase, Cdc42 protein, ribosomal proteins and ATP-F0 subunit protein, etc. The interactions between IMP and 8 putative proteins were further confirmed by co-transformation and β- Galactosidase assays. This study could be useful for understanding the molecular interaction mechanism between WBD phytoplasma and insect vector and the specificity of transmission.  相似文献   

小麦蓝矮植原体SWP1效应蛋白的抗血清制备及检测应用     

羊海珍  王楠  吴薇  张子昂  吴云锋 《植物病理学报》2018,48(3):373-377

 小麦蓝矮病是西北冬麦区一种重要的植原体病害,造成严重的产量损失。为进一步探究小麦蓝矮植原体的致病机理,通过原核表达获得其致病因子SWP1的重组蛋白并制备抗血清。将PCR扩增到的SWP1基因片段插入到原核表达载体pET-30a(+)上,导入E.coli BL21 (DE3)中,表达出约12 kDa含His标签的融合蛋白。用纯化的融合蛋白注射大白兔皮层,获得了特异性较强的SWP1抗血清,其效价为1∶4 000,并成功应用于SWP1在本氏烟中的检测。制备的抗血清在SWP1蛋白结构、功能及其与寄主的互作研究中具有重要意义。  相似文献   

基于酵母双杂交系统筛选灰飞虱体内与大麦黄条点花叶病毒核衣壳蛋白互作的蛋白质     

俎瑶琛  刘文文  刘艳  王锡锋 《植物病理学报》2019,49(2):226-234

 为了获取影响大麦黄条点花叶病毒(BYSMV)在灰飞虱体内增殖、积累和传播的相关介体因子,本研究利用分离泛素酵母双杂交膜系统,以BYSMV核衣壳蛋白(N)为诱饵对灰飞虱cDNA文库进行了筛选。 将BYSMV N基因构建到诱饵载体pDHB1上进行表达检测和功能验证,结果表明重组载体pDHB1-N能在酵母内正常表达并行使功能。利用诱饵载体筛选pPR3-N空文库对文库筛选条件进行优化,确定3-氨基-1,2,4-三唑(3-AT)浓度为12 mmol·L^-1的QDO平板为筛选文库培养基条件,去除可能存在的轻微筛库背景。在此筛选条件下以诱饵载体从灰飞虱cDNA文库中筛选得到57个阳性克隆,序列比对结果表明这些阳性克隆编码17种候选蛋白,包括表皮蛋白、泛素B、核糖体膜相关蛋白、细胞色素b5以及海藻糖转运蛋白等。 经酵母双杂交共转验证和β-半乳糖苷酶检测进一步确认了这17个候选蛋白与BYSMV N发生互作。本研究成功从灰飞虱分离泛素酵母双杂交膜系统cDNA文库筛选到与BYSMV N互作的蛋白质,为进一步探索弹状病毒与介体昆虫的分子互作机制奠定了基础。  相似文献   

Expression of phytoplasma‐induced witches’ broom disease symptoms in acid lime (Citrus aurantifolia) trees is affected by climatic conditions          下载免费PDF全文

A. G. Al‐Ghaithi  A. M. Al‐Sadi  M. S. Al‐Hammadi  R. M. Al‐Shariqi  R. A. Al‐Yahyai  I. H. Al‐Mahmooli  C. M. Carvalho  S. L. Elliot  S. A. Hogenhout 《Plant pathology》2017,66(8):1380-1388

Witches’ broom disease (WBD), caused by ‘Candidatus Phytoplasma aurantifolia’, is a serious disease of acid lime (Citrus aurantifolia) in Oman and the UAE. However, little is known about the distribution of phytoplasma and the expression of WBD symptoms in different geographical locations. A survey was carried out in 18 districts in Oman and the UAE covering 143 orchards and 5823 acid lime trees. ‘Candidatus Phytoplasma aurantifolia’ was detected in acid lime in all the 18 surveyed districts. However, the development of typical symptoms of WBD was only observed in 12 districts. Districts in which the phytoplasma was present but symptoms were not expressed were located either in desert areas or in areas characterized by semitropical conditions. Phylogenetic analysis of 16 phytoplasma isolates from trees developing WBD symptoms and six phytoplasma isolates from trees with no WBD symptoms showed that all isolates share an identical 16S rRNA sequence, belonging to subgroup II‐B. Quantitative PCR analysis showed that the concentration of phytoplasma is significantly higher (8800–801 000 copies) in leaves developing WBD symptoms compared to 2–268 copies in symptomless leaves from the same trees and 8–874 copies in acid lime trees from areas where disease symptoms were not expressed. The lack of expression of WBD symptoms under certain environmental conditions may suggest that symptom development and phytoplasma are affected by certain unfavourable environmental conditions. These findings could provide a basis for managing WBD through encouraging lime cultivation under climatic conditions less conducive to WBD symptom expression.  相似文献   

大豆花叶病毒诱导的应用于膜蛋白酵母双杂交的大豆cDNA文库构建     

崔晓艳  陈新  栾鹤翔  智海剑 《植物病理学报》2013,43(5):556-560

Membrane-baesd yeast two-hybrid system is an effective method for research on interaction between Soybean mosaic virus-encoded membrane-associated proteins and host factors, while the Gateway technology without the use of restriction enzyme cloning techniques is easier for construction of virus-induced host cDNA library. In this study, both membrane-based yeast two-hybrid system and Gateway^TM systems were used. With TRIZOL regent, total RNA was extracted from soybean leaves infected with soybean mosaic virus. SMV-induced soybean primary cDNA library constructed by Gateway technology was recombined into a reconstructed prey vector for membrane-based yeast two-hybrid system. The capacity and quality tests showed that the library titer was 1.7 ? 10⁶cfu/mL and the length of inserted cDNA fragments ranged from 0.5 to 2 kb. It is available for research on interaction between the virus-encoded membrane protein and host.  相似文献   

小麦蓝矮植原体免疫膜蛋白(Imp)的跨膜区影响其在大肠杆菌中的表达     

孙润红  于祥泉  陶烨  杨洋  吴云锋  张银武  李艳 《植物病理学报》2010,40(6):587-592

根据跨膜区预测结果,设计ImpF1/ImpR1和ImpF2/ImpR2两对特异性引物。以ImpF1/ImpR1,ImpF1/ImpR2,Imp-F2/ImpR1和ImpF2/ImpR2共4个组合经PCR扩增得到4个目标片段,即:免疫膜蛋白Imp基因的全长(Imp-B);切除C-端跨膜区的Imp基因的基因序列(Imp-N);切除N-端跨膜区的Imp基因的基因序列(Imp-C);切除N-和C-端跨膜区的Imp基因的基因序列(Imp-S)。经酶切连接到原核表达载体Pmal-c2x,并转入E.coliBL21(DE3)PlysS菌株中。SDS-PAGE电泳验证,只有切除N-、C-端跨膜区的Imp基因的基因序列(Imp-S)得到大量表达,结果表明:小麦蓝矮植原体免疫膜蛋白的跨膜区影响其在大肠杆菌中的表达。根据跨膜区预测结果,设计ImpF1/ImpR1和ImpF2/ImpR2两对特异性引物。以ImpF1/ImpR1,ImpF1/ImpR2,Imp-F2/ImpR1和ImpF2/ImpR2共4个组合经PCR扩增得到4个目标片段,即:免疫膜蛋白Imp基因的全长(Imp-B);切除C-端跨膜区的Imp基因的基因序列(Imp-N);切除N-端跨膜区的Imp基因的基因序列(Imp-C);切除N-和C-端跨膜区的Imp基因的基因序列(Imp-S)。经酶切连接到原核表达载体Pmal-c2x,并转入E.coliBL21(DE3)PlysS菌株中。SDS-PAGE电泳验证,只有切除N-、C-端跨膜区的Imp基因的基因序列(Imp-S)得到大量表达,结果表明:小麦蓝矮植原体免疫膜蛋白的跨膜区影响其在大肠杆菌中的表达。  相似文献   

cDNA-AFLP analysis revealed genes potentially implicated in Catharanthus roseus flowers during wheat blue dwarf phytoplasma infection     

《Physiological and Molecular Plant Pathology》2013

  相似文献   

白粉菌侵染后的拟南芥酵母双杂交cDNA文库构建及其利用     

黄衍焱  杨玲珑  王莹  李冉  鲁黎明  王文明 《植物病理学报》2015,45(4):370-375

 拟南芥广谱抗病基因RPW8对拟南芥白粉病菌、霜霉病菌和烟草花叶病毒等均具有抗性。为了深入研究其广谱抗病机制,筛选鉴定与RPW8具有直接相互作用的蛋白,我们以含有RPW8的拟南芥纯合转基因系S5为材料,接种拟南芥白粉菌系UCSC1,36 h后取样,构建了白粉菌侵染初期的拟南芥cDNA文库。为了提高文库对长片段基因5′端的覆盖率,分别使用含有oligo(dT)和oligo(dN)的接头引物反转录cDNA第一链,PCR扩增双链cDNA。将纯化后的双链cDNA与线性化载体pGADT7-Rec混合,利用同源重组技术在酵母菌株Y187中构建cDNA文库。经检测,文库转化效率为5.0×10⁶/3 μg pGADT7-Rec,滴度为2.5×10⁸ CFU·mL^-1,插入片段长度在350～2 000 bp之间,平均插入片段大小为750 bp。用RPW8.1和RPW8.2构建诱饵载体,分别获得11和12个候选互作蛋白。结果表明此cDNA文库质量较好,适用于互作蛋白的筛选。  相似文献   

Identification of wheat blue dwarf phytoplasma effectors targeting plant proliferation and defence responses          下载免费PDF全文

N. Wang  Y. Li  W. Chen  H. Z. Yang  P. H. Zhang  Y. F. Wu 《Plant pathology》2018,67(3):603-609

The identification of effectors from pathogenic microbes is one of the most important subjects for elucidating infection mechanisms. Wheat blue dwarf (WBD) phytoplasma causes dwarfism, witches' broom, and yellow leaf tips in wheat plants, resulting in severe yield loss in northwestern China. In this study, 37 candidate effector proteins were transiently expressed in Nicotiana benthamiana. Plants expressing the SAP11‐like protein SWP1 exhibited typical witches' broom. Interestingly, another protein, SWP11, induced both cell death and defence responses, including H₂O₂ accumulation and callose deposition. Analysis by qRT‐PCR was used to show that a marker gene of the hypersensitive response, HIN1, and three pathogenesis‐related genes, PR1, PR2 and PR3, were significantly up‐regulated in leaves of N. benthamiana expressing SWP11. In addition, SWP12 and SWP21 (TENGU‐like) were shown to suppress SWP11‐, BAX‐, and/or INF1‐induced cell death. These results indicated that SWP21 has a distinct role in virulence compared with TENGU and that WBD phytoplasma possesses effectors that target plant proliferation and defence responses. The ability of these effectors to trigger or suppress plant immunity provides new insights into the phytoplasma–plant interaction.  相似文献