用A蛋白夹层酶联免疫吸附法对黄瓜花叶病毒的血清学鉴定

用A蛋白夹层酶联免疫吸附法(PAS-ELISA)对两个来自日本蓉茄和一个来自中国青椒植物上的黄瓜花叶病毒分离物进行了血清学鉴定和比较。该方法利用A蛋白和酶联A蛋白分别作预包被和检测结合于抗体一抗原一抗体夹层中的抗体,并通过底物反应,间接反应出病毒抗原的量。对经过两次差速离心纯化的病毒进行检测的结果表明,这三种黄瓜花叶病毒(CMV)分离物与黄瓜花叶病毒P、Q两株系同属一个血清型,即可能均属于黄瓜花叶病毒中的ToRS组。讨论了这种间接酶联免疫吸附法检测植物病毒的优越性和几个CMV分离物的提纯、保存方法。     

引起马蹄莲花叶病的芋花叶病毒

在采自杭州、北京、上海等地的表现花叶和扭曲症状的马蹄莲(Zanledeschia aethiopica)上检测到一种线状病毒。经测定,其平均粒子长度为745nm,病毒粒子最大分布范围为720—750nm。该病毒经免疫电镜观察与芋花叶病毒(DMV)有紧密的血清学关系,且与3个PVY抗血清也有一定的反应。在病叶细胞中观察到紧密聚集。松散聚集和分散的线状病毒粒子和典型的风轮状内含体。作者认为:感染马蹄莲的该种病毒符合芋花叶病毒的特征。本文对该病毒的血清学关系和组织病变情况进行了分析讨论。     

大麦条纹花叶病毒对大麦原生质体侵染的测定

在用大麦条纹花叶病毒(BSMV)接种大麦原生质体时,用免疫过氧化物酶测定其感染率,可排除自发性干扰。因BSMV新疆分离物没有定量寄主,用EIJlsA的双抗体夹心法和BSMV-RNA的,3H-cDNA可以快速测定出感染原生质体中的病毒和核酸的增殖。     

毒源烟草试管保存技术的研究

经三年连续试验,用试管保存含马铃薯X病毒(PVX)、马铃薯Y病毒(PVY)、烟草花叶病毒(TMV)的毒源烟草,结果证明毒源烟草可在试管中正常生长发育。负染法和免疫电镜捕获法检测结果证明,试管毒源烟草不同生育期,体内的病毒含量不同;试管毒源烟草在管外土壤中栽培可正常生长发育,并表现出相应的症状,接种指示植物试验证明其侵染力与温室内保存的毒源效果相同。     

黄瓜花叶病毒CP基因原核表达及抗血清的制备

把黄瓜花叶病毒 (CMV)西番莲分离物的外壳蛋白 (CP)基因 ,通过BamHI SacI位点定向插入pET 2 2b( )载体 ,转化大肠杆菌BL2 1 (DE3)中 ,经IPTG诱导下 37℃培养 6h ,SDS PAGE电泳示表达蛋白分子质量为 31 8kDa ,表达量占菌体总蛋白的 2 8 9%,表明该蛋白得到了高效表达。用冰冷的氯化钾溶液显色 ,用表达的特异蛋白质条带制备抗原 ,免疫家兔制备出病毒特异抗血清。采用ID ELISA测定抗血清效价为 1 0 -6;抗血清和CMV几个分离物均有特异反应 ,和TMV、菌体蛋白不发生非特异性反应 ;检测病毒灵敏度达 30ng ml,能够从稀释 31 2 5倍的感病植物汁液中检测出病毒     

柑桔碎叶病毒研究

用汁液摩擦接种方法对柑桔碎叶病毒(Citrus tatter leaf virus,CTLV)进行了进一步的生物学鉴定.结果表明,该病毒除在豇豆上引起枯斑外,还侵染克里芙兰烟(Nicotianaclevilandii)产生系统斑驳和轻花叶,侵染昆诺藜(Chenopodium quinoa)和苋色藜(C.amaranticolor)引起系统坏死和花叶,侵染鸡冠花(Celosia cristata)引起局部环斑.这些草本寄主均可作为CTLV的指示植物.在发病的柑桔叶汁液中,测得CTLV的稀释限点为10~(-5).经汁液摩擦接种,可以将CTLV从克里芙兰烟传播到木本指示植物柑桔和枳橙上.感病植物材料的组织超微结构观察结果表明:CTLV感染柑桔、枳橙、克里芙兰烟和昆诺藜均使其叶肉薄壁细胞的叶绿体出现淀粉沉积、叶绿体片层结构解体和消失;病毒在受感染的植株叶脉韧皮部细胞中紧密聚集,形成病毒结晶体;这种结构也出现在叶肉薄壁细胞中.这是关于该病毒组织病变的首次报道.用直接负染方法从感染CTLV的柑桔(枳橙)、克里芙兰烟和昆诺藜病叶中均能检查到线状病毒粒子,用改良的Deriick’s免疫电镜方法和琼脂双扩散方法测定均显示该病毒…     

山东烟台小麦土传病毒病由小麦黄花叶病毒和土传小麦花叶病毒相关病毒复合侵染所致

在山东省烟台地区的小麦上发生一种由土壤中禾谷多粘菌Polymyxa graminis传播的病毒病,感病小麦植株表现矮化褪绿和花叶症状.我们于1997年4月从病区采集感病小麦植株,进行了病毒种类鉴定.直接电镜观察发现有二种病毒粒子,一种粒子呈棒状,占大多数,其长度约为300nm和150nm; 另一种粒子呈线状,数量较少,长度为500nm～700nm.免疫电镜结果表明,棒状病毒粒子仅与土传小麦花叶病毒(soil-borne wheat mosaic virus, SBWMV)抗血清反应,而不与小麦黄花叶病毒(wheat yellow mosaic virus,WYMV)抗血清和小麦梭条斑花叶病毒(wheat spindle streat mosaic virus,WSSMV)抗血清反应;反之,线状病毒仅与WYMV、WSSMV抗血清反应,而不与SBWMV抗血清反应.用WYMV和SBWMV两种抗血清同时进行修饰时,线状病毒粒子和棒状病毒粒子均发生反应.     

建兰花叶病毒单克隆抗体的制备及检测应用

用建兰花叶病毒(Cymbidium mosaic virus,CymMV)免疫的BALB/C鼠脾细胞与SP2/0鼠骨髓瘤细胞融合,经筛选克隆,获得3株能稳定传代并分泌抗CymMV单克隆抗体(McAb)的杂交瘤细胞(2C6、5B7和12G9),分别制备它们的单抗腹水。其中5B7和12G92株单克隆抗体腹水间接ELISA效价达10-6,3株单抗的抗体类型及亚类均为IgG1,轻链均为κ链。利用单克隆抗体建立了抗原包被间接ELISA(ACP-ELISA)检测CymMV的方法。蝴蝶兰病叶作1∶10240倍稀释、提纯CymMV病毒浓度为4.87ng/mL(每孔的病毒绝对量为0.487ng)时,该方法仍能检测到病毒。利用ACP-ELISA方法检测了田间样品,发现CymMV在兰花上发病很普遍。     

豇豆病毒病病原的分子鉴定

为澄清浙江省豇豆病毒病病原及其分类,采用马铃薯Y病毒属通用引物Sprimer扩增了浙江豇豆线状病毒基因组3′－末端序列。同时又根据已知CMV RNA3序列设计引物pCMV-44-63/1200-1181,扩增了混合的CMV－ZJ运动蛋白基因全序列。外壳蛋白氨基酸序列分析表明,产中仅存在一种线状病毒（CV－ZJ）,该病毒与一泰国豇豆蚜传花叶病毒（CABMV）具有最高的同源性（98.6%）,与花生条纹病毒（PStV）、石斛花叶病毒（DeMV0．）、赤豆花叶病毒（AZMV）、黑眼豆豆花叶病毒（BICMV）和菜豆普通花叶病毒（BCMV）分离物间的同源性为88.5%－94.4%,而与其它CABMV分离物的同源性均低于70％。进化树分析表明,PStV、AZMV、DeMV、BlCMV和BCMV为同种异名,应统称为BCMV,而CABMV为另一种病毒;CV－ZJ和泰国CABMV分离物应分类为BCMV豇豆株系。CMV－ZJ的运动蛋白序列分析表明,该分离物属于CMV亚组Ⅰ,与其它分离物氨基酸序列同源性为93.1%－97.8%。     

TMVc的单克隆抗体及其对烟草花叶病毒组成员病毒间的鉴别

用烟草花叶病毒普通株(TMVc)纯病毒免疫BALB／c小鼠,取其脾细胞与小鼠骨髓瘤细胞sP2／0融合,通过2～8次有限稀释法克隆化获得10个能持续地分泌抗体的杂交瘤细胞株。所获抗体均属IgM。其中5个用来诱发高滴度腹水。用间接ELIsA、免疫电镜,中和侵染性试验证明所获单克隆抗体对TMVc有特异性。7A、。9G和N12C单克隆抗体对来自十字花科韵烟草花叶病毒组病毒YMVl5和TMV—B2无交叉反应;而对其它成员病毒如ToMV,ToMV．N14,TMV－L2有不同程度的交叉反应。7A~9G表现较强的异源特异性而12C却有明显的同源特异性。     

马铃薯Y病毒组病毒高产量提取方法的建立

本文报道了高产量提取芜菁花叶病毒（ＴｕＭＶ）、莴苣花叶病毒（ＬＭＶ）、芋花叶病毒（ＤＭＶ）和大豆花叶病毒（ＳＭＶ）的提取方法。本方法通过使用高盐浓度的磷酸盐缓冲液以及在缓冲液中加入氯化镁和脲,并用ＴｒｉｔｏｎＸ－１００作为澄清剂,替代常规使用的氯仿和正丁醇,成功的提取到了大量病毒粒子,上述四种病毒提取的得率分别是ＴｕＭＶ为１７３．３ｍｇ／ｋｇ病叶,ＬＭＶ为９６ｍｇ／ｋｇ病叶,ＳＭＶ为１９９．２ｍｇ／ｋｇ病叶,ＤＭＶ为１７６．６ｍｇ／ｋｇ病叶。     

我国13种天南星科作物上的芋花叶病毒

用直接负染和免疫电镜方法从我国浙江省(杭州、奉化、温州等地)、上海、北京、福建、湖南等地的13种天南星科大田作物:芋(Colocasia esadenta)、魔芋(Amorphophallus sinesis)、药用植物:半夏(Pinellia ternata)、掌叶半夏(P. cordata)、盾叶半夏(P. pedatisecta)以及观赏植物:马蹄莲(Zantedeschia aethiopica)、海芋(Alocasia macrorrhiza)、象耳芋(Colocasia gigantea)、台果芋(Syngonium podophygum)、黄金葛(Scindapsus aureus)、广东万年青(Aglaonema modestum)、花叶芋(Caladium bicolar)、剑叶喜林芋(Philodendium oxycadium)上均检测到芋花叶病毒(Dasheen mosaicvirus, DMV)。在免疫吸附-免疫修饰电镜水平上,该病毒与DMV抗血清和PVY抗血清均有强阳性反应。在人工接种条件下,DMV各分离物均不侵染烟草等非天南星科供试植物,但接种天南星科指示植物Philodendr…     

Bell Pepper Mottle Virus, a Distinct Tobamovirus Infecting Pepper

Bell pepper mottle virus (BPeMV) can be distinguished by symptomatology and host range from other tobamoviruses but a reliable identification needs serological tests. The relationships of BPeMV to tobacco mosaic virus (TMV), Odontoglossum ringspot virus (ORSV), tobacco mild green mosaic virus (TMGMV), and pepper mild mottle virus (PMMV) were investigated using precipitin drop tests on slides, immunodiffusion gel tests, double antibody sandwich enzyme-linked immunosorbent assay (ELISA), and indirectELISA using enzyme-linked goat anti-rabbit globulins for the determination of antiserum titers and serological differentiation indices (SDI). Comparisons of SDIs and amino acid composition data demonstrated that BPeMV is a new species of the tobamovirusgroup. BPeMV, ORSV, PMMV, and TMGMV form a cluster within the genus (group) and could be considered as a subgenus of tobamoviruses.     

Some hosts and properties of dahlia mosaic virus

Dahlia mosaic virus (DMV) infected twenty-five of the eighty-five plant species from four of eighteen families inoculated, but only dahlias were found naturally infected. DMV infected fourteen members of the Solanaceae, Amaranthaceae and Chenopodiaceae, and eleven of twenty-nine Compositae. Verbesina encelioides was the best plant for diagnosis, assay and source of virus. Systemically infected hosts contained ovoid intracellular inclusions 2–5–10 μm in diameter which were shown by electron microscopy to consist of a finely granular, vacuolated matrix containing numerous virus particles. V. encelioides sap was sometimes infective after dilution to 1/2000 but not 1/3000, after heating for 10 min to 75 °C but not 80 °C, and after 4 days at 18 °C or 32 days at 2 °C. Sap from infected dahlia, Zinnia elegans or Ageratum houstonianum rapidly became non-infective, but extracts made with 0·05 M sodium thioglycollate or 0·03 M sodium diethyldithiocarbamate remained infective for 24–48 h at 18 °C. Some purified preparations remained infective for up to 3 years at 2 °C. DMV was best purified from V. encelioides by one or more cycles of differential centrifugation, followed by density-gradient centrifugation and further concentration. Composition, molarity, and pH of the extracting buffer had little effect on yield of virus. Best yields were obtained from extracts stored with 8-5% (v/v) n-butanol at 2 °C for 10–14 days. Purified preparations were infective at dilutions up to 1/5000, had ultraviolet absorption spectra typical of a nucleoprotein (Å 260/280 = 1·47), probably contained DNA, and had a single sedimenting component having isometric particles c. 50 nm in diameter with a sedimentation coefficient of 254 S. The cryptogram of DMV is (D)/*:*/(16):S/S:S/Ap. DMV is serologically closely related to cauliflower mosaic virus, but the viruses are distinct pathogens. The two viruses have similar properties, size, shape and other characteristics, and together with at least three others form a small but apparently homogeneous group of aphid-borne viruses.     

Serological studies on cassava latent virus

Particles of cassava latent virus (CLV) were purified by a method that yielded up to 3 mg per 100 g of systemically infected Nicotiana benthamiana leaf. Specific antiserum was prepared and used for enzyme-linked immunosorbent assay (ELISA), which detected purified virus at 5 ng/ml. As estimated by ELISA, CLV antigen reached a greater concentration in leaves of N. benthamiana plants kept at 20–25 °C than in those at 15 °C or 30 °C. CLV was also detected in leaf extracts of naturally infected cassava plants kept at 25 C but its concentration was only 1–7% of that in comparable extracts from N. benthamiana. Staining sections of N. benthamiana leaves with fluorescent antibody indicated that CLV particle antigen accumulates in the nuclei of many phloem cells and of some cells in other tissues. In tests on mosaic-affected cassava plants of Angolan origin, three plants were found in which CLV could not be detected by either ELISA or immunosorbent electron microscopy, or by transmission to indicator plants. This suggests that the mosaic symptoms were caused by a pathogen other than CLV, but no such agent was detected by electron microscopy of leaf extracts. Three kinds of serological test indicated that CLV is related to bean golden mosaic virus. Evidence was also obtained of a distant relationship to beet curly top virus but none was detected to four other geminiviruses.     

Involvement of Volatile Substances in Systemic Resistance of Barley Against Erysiphe graminis f. sp. hordei Induced by Pruning of Leaves

Horsegram yellow mosaic disease was shown to be caused by a geminivirus; horsegram yellow mosaic virus (HYMV). The virus could not be transmitted by mechanical sap inoculation. Leaf dip and purified virus preparations showed geminate virus particles, measuring 15-18 * 30 nm. An antiserum for HYMV was produced and in enzyme-linked immunosorbent assay (ELISA) and immunosorbent electron microscopy (ISEM) tests HYMV was detected in leaf extracts of fieldinfected bambara groundnut, french bean, groundnut, limabean, mungbean, pigeonpea and soybean showing yellow mosaic symptoms. Bemisia tabaci fed on purified HYMV through a parafilm membrane transmitted the virus to all the hosts listed above but not to Ageratum conyzoides, okra, cassava, cowpea, Croton bonplandianus, Lab-lab purpureus, Malvastrum coromandalianum and tomato. No reaction was obtained in ELISA and ISEM tests between HYMV antibodies and extracts of plants diseased by whitefly-transmitted agents in India such as A. conyzoides yellow mosaic, okra yellow vein mosaic, C. bonplandianus, yellow vein mosaic, M. coromandalianum yellow vein mosaic, tomato leaf curl and cassava mosaic. HYMV was also not found to be related serologically to bean golden mosaic, virus.     

Construction of hybrid promoters of caulimoviruses and analysis of their activity in transgenic plants

By the techniques of DNA shuffling, PCR, and restriction-ligation, chimeric forms of cauliflower (Brassica oleracea) mosaic virus (CaMV), dahlia (Dahlia pinnata) mosaic virus (DMV), and carnation (Dianthus caryophillus) etching ring virus (CERV) promoters were obtained at various combinations. Twelve chimeric promoters were cloned into pCambia binary vectors comprising the reporter GUS gene, and their activities in transgenic tobacco (Nicotiana tabacum) plants were determined fluorimetrically. 35S promoter and those of DMV (442 bp) and CERV (371 and 501 bp) were used as controls. Seven of analyzed promoters displayed higher and seven promoters lower activity in transgenic tobacco plants than 35S promoter. The highest activity was characteristic of natural DMV promoter, and the least one — natural CERV promoter 501 bp in size. The CERV promoter 371 bp in size was approximately similar in strength to 35S promoter.