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1.
In UK, the tobacco veinal necrosis strain of potato virus Y (PVYN), potato virus A (PVA) and potato virus V (PVV) each occur in the field only in limited ranges of potato cultivars in which they mostly cause mild symptoms or even symptomless infection; little is known about incidence of strain C of PVY (PVYC). The ordinary strain of PVY (PVY°), however, is widespread causing symptoms ranging in severity from very severe through to very mild, depending on cultivar sensitivity/tolerance. During field inspections, very mild potyvirus symptoms may be missed, so inspectors are trained to be particularly vigilant when examining problem cultivars which react in this way. PVA is almost invariably treated, along with PVX, as a mild kind of virus infection, but infections with PVY°, PVYN and PVV are treated as severe with stricter tolerances being applied for them (especially for PVYN) regardless of symptom severity. Wide variation within the same cultivar in the behaviour of variants within the PVY° strain group also sometimes causes difficulties in interpretation at inspection. To detect PVY, PVA and PVV in routine serological testing on potato certification samples, it is necessary to employ specific antisera to each of them. PVYN-specific monoclonal antibodies can be used in ELISA to distinguish PVYN from PVY°.  相似文献   

2.
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3.
P. Abad  C. Jord 《EPPO Bulletin》2000,30(2):281-287
A disease caused by potato Y potyvirus (PVY) affects tomato plantations with variable severity in Tenerife Island. Affected plants show diverse symptoms such as necrotic lesions or mild to severe mosaic in leaves and whitish spots in green fruits that remain after ripening. Tomato PVY isolates and few potato and capsicum PVY isolates have been characterized on the basis of biological, serological and molecular criteria. All PVY isolates reacted positively to monoclonal antibodies specific for PVYO/C or PVYN strains, and nearly 50% of tomato PVY isolates were recognized by both. Differentiation of PVY strains according to the response of inoculated experimental plants was confusing due to the variability of viral aggressiveness and symptomatology induced. RFLP analysis of the CP gene and 3’untranslated region (UTR) revealed high variability. In addition to mixed infection by different PVY strains, the biological and molecular properties of those tomato PVY isolates that react to both monoclonal antibodies could be explained as the result of RNA recombination between distinct PVY strains which infect the same host plant.  相似文献   

4.
The effect of cultivation temperatures on the resistance reaction to three Potato virus Y strains (PVYO, PVYN and PVYNTN) in potato cultivars carrying Rychc was examined. When potato plants carrying Rychc were cultivated at 22 °C, a few small necrotic spots developed on inoculated leaves by 5 days after mechanical inoculation (dpi), and systemic infection of a few symptomless plants was confirmed at 28 dpi by IC‐RT‐PCR. At 28 °C, distinct necrotic spots developed on inoculated leaves by 5 dpi, and systemic symptoms occasionally appeared at 28 dpi. Thus, high temperature weakens Rychc‐conferred resistance. However, the incidence of systemic infection and the titre of virus in resistant cultivars at 28 °C were lower than in a susceptible cultivar. In graft inoculation under high summer temperatures, some plants developed necrosis on the leaves and stem, but PVY was barely detected by RT‐PCR in leaves on potato carrying Rychc. When seedlings from progeny tubers of plants that were inoculated with PVY and grown in a greenhouse at >30 °C in the daytime were examined by ELISA and IC‐RT‐PCR, PVY was not detected in cultivars carrying Rychc. These results show that Rychc confers an extreme resistance to PVY strains occurring in Japan.  相似文献   

5.
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6.
Surveys were conducted of symptomatic potato plants in late season crops, from the major potato production regions in Northern Tunisia, for infection with six common potato viruses. The presence of Potato leafroll virus (PLRV), Potato virus Y (PVY), Potato virus X (PVX), Potato virus A (PVA), Potato virus S (PVS) and Potato virus M (PVM) was confirmed serologically with virus infection levels up to 5.4, 90.2, 4.3, 3.8, 7.1 and 4.8%, respectively. As PVY was prevalent in all seven surveyed regions, further biological, serological and molecular typing of 32 PVY isolates was undertaken. Only one isolate was shown to induce PVYO-type symptoms following transmission to tobacco and to react only against anti-PVYO-C antibodies. Typical vein necrosis symptoms were obtained from 31 samples, six of which reacted against both anti-PVYN and anti-PVYO-C antibodies showing they contained mixed isolates, while 25 of them reacted only with anti-PVYN antibodies. An immunocapture RT-PCR molecular test using a PVYNTN specific primer pair set in the 5’NTR/P1 genomic region and examination of recombinant points in three genomic regions (HC-Pro/P3, CI/NIa and CP/3’NTR) showed that all 25 serotype-N PVY isolates were PVYNTN variants with similar recombinations to the standard PVYNTN-H isolate. This is the first report of the occurrence of the PVYNTN variant and its high incidence in late season potatoes in Tunisia.  相似文献   

7.
Two Potato virus Y (PVY) isolates collected in Brazil, PVY‐AGA and PVY‐MON, were identified as recombinants between two parent genomes, PVYNTN and PVY‐NE‐11, with a novel type of genomic pattern. The new recombinants had an ordinary PVYNTN genome structure for approximately 6·7‐kb from the 5′‐end of the genome whereas the 3′‐terminal 3·0‐kb segment had two fragments of NE‐11‐like sequence separated by another small PVYNTN‐like fragment. PVY strains are defined based on the hypersensitive resistance (HR) response in potato indicators. Both PVY‐AGA and PVY‐MON isolates did not induce the HR in potato cultivars carrying Ny, Nc, or (putative) Nz genes and thus were able to overcome all known resistance genes to PVY. Only one of the two isolates, PVY‐AGA, induced a vein necrosis reaction in tobacco. The biological responses of the potato indicators and tobacco defined PVY‐MON as an isolate of the PVYE strain. To distinguish PVY‐AGA and PVY‐MON from other PVYNTN isolates, an RT‐PCR test was developed utilizing new specific primers from the capsid protein gene area and producing a characteristic 955‐bp band. Serological profiling of these PVY isolates with three monoclonal antibodies revealed an unusual reactivity, where one of the two commercial PVYN‐specific monoclonal antibodies did not recognize PVY‐AGA. The ability of these new PVY recombinants to overcome resistance genes in potato producing mild or no symptoms, combined with the lack of serological reactivity towards at least one PVYN‐specific antibody may present a significant threat posed by these isolates to seed potato production areas.  相似文献   

8.
Four mouse monoclonal antibodies (MAbs) against potato virus Y (PVY) were produced. MAb 4C1 reacted with four isolates of PVYNTN and only very weakly with one isolate of the necrotic strain of PVY (PVYN). It did not react with other isolates of the ordinary strain of PVY tested. MAb 2C9 reacted with all isolates tested and can be used to produce a specific diagnostic kit for routine PVY detection. Other MAbs had different specificities and reacted with isolates of various strains of PVY. MAbs did not react with seven other members of the Potyvirus group including potato virus A. A MAb-based ELISA, using MAb 4C1, was devised and shown to detect PVYNTN specifically.  相似文献   

9.
马铃薯种苗复合感染病毒多重RT-PCR同步快速检测   总被引:4,自引:0,他引:4  
 基于马铃薯病毒ssRNA的快速制备方法,根据马铃薯病毒CP基因序列设计PVX、PVS、PVY和PLRV特异性引物对、P1基因序列设计PVA特异性引物对,建立了多重RT PCR快速检测体系,可以同步检出复合侵染马铃薯种苗主要病毒,灵敏度比传统的ELISA至少高100倍。结合生物活性稳定剂研制的固相化检测试剂盒,已用于四川和重庆等15个县市田间与苗圃248个马铃薯显症或无症样品的实际检测,表明四川和重庆地区2~3种马铃薯病毒往往复合侵染(PVX、PVA和PVS三种病毒复合侵染或PLRV和PVY二种病毒复合侵染)。  相似文献   

10.
A potyvirus known to be an important agent involved in causing a disease of trailing petunias, was identified as being a member of the necrotic strain of potato virus Y (PVY) using a number of monoclonal antibodies. The sequence of the coat protein gene for the PVY isolate was determined and when compared with sequences for other PVY strains it was shown to cluster closely with isolates of PVYNTN and to have a recombination point present within the coat protein common with other isolates of PVYNTN. When inoculated onto potato tuber necrotic ringspot disease (PTNRD) susceptible potato cultivars the petunia isolate was found to be capable of causing necrotic tuber symptoms, consistent with those caused by other isolates of PVYNTN. Due to the number of similarities it is thought the petunia isolate belongs to the PVYNTN group of isolates. Out of 24 species of bedding and pot plant crops tested, 19 were shown by mechanical inoculation to be susceptible to PVY, highlighting not only a clear risk to a number of commercially important plant species from PVYNTN infected trailing petunias, but also other susceptible crops grown in these areas.  相似文献   

11.
Improved tobacco cultivars introgressed with alleles of the recessive resistance va gene have been widely deployed in France to limit agronomical consequences associated with Potato virus Y (PVY) infections. Unfortunately, necrotic symptoms associated with PVY have been reported on these cultivars suggesting that PVY is able to overcome the resistance. A field survey was performed in France in 2007 to (i) estimate the prevalence of PVY in tobacco plants showing symptoms and (ii) characterize PVY isolates present in susceptible and va‐derived tobacco cultivars. A serological typing procedure, applied to 556 leaves collected from different French tobacco growing areas, was performed using polyclonal antisera raised against different viral species including PVY. Viral species were detected in 80·8% of leaves and PVY was present in 83·5% of infected samples. However, statistical analysis confirmed that the probability of a tobacco plant being infected with PVY is reduced in va hosts. Eighty‐six PVY isolates were mechanically inoculated on one susceptible and three va‐derived tobacco cultivars used as indicator hosts to define virulence of these isolates against alleles 0, 1 and 2 of the va gene. Both qualitative and quantitative analyses showed that 55 PVY isolates were able to overcome the three va alleles. Moreover, the monitored biological diversity of PVY isolates was higher in the susceptible tobacco hosts than in the va‐derived ones. This study helps to understand consequences of the deployment of the va gene in tobacco on diversity and virulence of PVY isolates.  相似文献   

12.
Potato virus Y (PVY) is responsible for major viral diseases in most potato seed areas. It is transmitted by aphids in a non-persistent manner, and it is spread in potato fields by the winged aphids flying from an infected source plant to a healthy one. Six different PVY strains groups affect potato crops: PVYC, PVYN, PVYO, PVYN:O, PVYNTN, and PVYN-Wi. Nowadays, PVYNTN and PVYN-Wi are the predominant strains in Europe and the USA. After the infection of the leaf and accumulation of the virus, the virus is translocated to the progeny tubers. It is known that PVYN is better translocated than PVYO, but little is known about the translocation of the other PVY strains. The translocation of PVY occurs faster in young plants than in old plants; this mature plant resistance is generally explained by a restriction of the cell-to-cell movement of the virus in the leaves. The mother tuber may play an important role in explaining mature plant resistance. PVY is able to pass from one stem to the other stems of the same plant through the vascular system of the mother tuber, but it is unknown whether this vascular link between stems is permanent during the whole life of the plant. Two greenhouse trials were set up to study the spread of PVY in the vascular system of the potato plant. The PVY-susceptible cultivar Charlotte was used for both trials. It was demonstrated that all stems growing from a PVY-infected tuber will become infected sooner or later, and that PVYN-Wi translocates more efficiently to progeny tubers than PVYNTN. It was also demonstrated that the progressive decay of the mother tuber in the soil reduces the possibility for virus particles to infect healthy stems through the vascular system of the mother tuber. This new element contributes to a better understanding of the mechanism of mature plant resistance.  相似文献   

13.
马铃薯Y病毒属三种病毒通用型单克隆抗体的鉴定   总被引:3,自引:0,他引:3  
构建了马铃薯Y病毒属的大豆花叶病毒(Soybean mosaic virus,SMV)、马铃薯Y病毒(Potato virus Y,PVY)、三叶草黄脉病毒(Clover yellow vein virus,CLYVV)的原核表达载体pET28-SMV CP、pET28-PVY CP和pET28-CLYVV CP,经IPTG诱导、表达和纯化,获得SMV、PVY和CLYVV的CP蛋白。采用ELISA方法,用9株实验室制备的单克隆抗体对含SMV、PVY、CLYVV的病毒汁液和纯化的重组CP蛋白进行检测分析。结果表明,9株单克隆抗体均识别SMV病毒,2D3、4F9、4G12和6E7单克隆抗体能够识别PVY病毒,4F9和4G12能够识别CLYVV病毒,但PVY、CLYVV病毒与抗体的亲和力低于SMV病毒;对于重组表达的衣壳蛋白:SMV、CLYVV与抗体2D3、4F9、4G12和6E7反应强烈,PVY与4F9和4G12抗体反应稍强。综上,本研究鉴定出能识别SMV、PVY、CLYVV的通用单克隆抗体4F9和4G12。  相似文献   

14.
 马铃薯是我国重要粮食和经济作物。马铃薯Y病毒(potato virus Y,PVY)是危害马铃薯生产的重要病害。种植脱毒种薯是防治PVY最有效的途径。马铃薯种薯携带PVY问题严重,但种薯中PVY株系还不清楚。本研究利用PVY特异性抗体检测了7个马铃薯品种362个种薯,发现不同品种种薯带毒率差异较大,最高达12%。通过RT-PCR方法扩增获得了7个PVY分离物编码区全序列。重组分析发现7个分离物基因组均为重组型,根据重组位点的差异可以分为PVYNTN-NW(SYR-II型)、Rec-1、Rec-2和Rec-3等4种重组类型,后3种为新重组类型。系统进化分析发现,分离物HQH18G3-10与PVYNTN-NW(SYR-II型)处于同一个大的分支,但与中国PVY大田分离物聚集在一起形成一个相对独立的组,命名为PVYNTN-NW(CN型);其余6个分离物与数据库中的中国分离物聚集在PVYN-Wi组。这暗示PVY中国分离物具有相对独立的进化过程,PVY马铃薯大田分离物和种薯分离物进化上相近。所有分离物均能在珊西烟上引起典型叶脉坏死症状,HQH18G3-10引起的坏死症状最为严重。本研究首次报道了我国种薯内PVY发生情况,对分析病毒发生发展规律和防控具有借鉴作用。  相似文献   

15.
 本试验收集了来自不同国家和地区的10个芜菁花叶病毒株系或分离物(TuMV)。应用直接ELISA和间接ELISA对其各株系间血清学关系进行了比较试验。直接ELISA双抗体夹心法专化性较强。由病毒抗血清所制备的结合体只与同宗抗原起反应,不与TuMV其它株系异宗抗原起反应。应用病毒抗血清所制备的F (ab')2包被处理的间接ELISA技术,鉴定病毒不同株系血清学亲缘关系时,只要用1个病毒株系抗血清即可对不同株系进行鉴定。由6个TuMV株系分别制备的抗血清对10个毒株进行鉴定表明,各株系均能交互反应,说明株系间具有共同的抗原性,仅OM株系与其它株系较少一致性,表明血清学关系较疏远。因此认为,间接ELISA适用于广泛的病毒诊断及株系鉴定之用,比直接ELISA优越。  相似文献   

16.
 马铃薯是我国重要粮食和经济作物。马铃薯Y病毒(potato virus Y,PVY)是危害马铃薯生产的重要病害。种植脱毒种薯是防治PVY最有效的途径。马铃薯种薯携带PVY问题严重,但种薯中PVY株系还不清楚。本研究利用PVY特异性抗体检测了7个马铃薯品种362个种薯,发现不同品种种薯带毒率差异较大,最高达12%。通过RT-PCR方法扩增获得了7个PVY分离物编码区全序列。重组分析发现7个分离物基因组均为重组型,根据重组位点的差异可以分为PVYNTN-NW(SYR-II型)、Rec-1、Rec-2和Rec-3等4种重组类型,后3种为新重组类型。系统进化分析发现,分离物HQH18G3-10与PVYNTN-NW(SYR-II型)处于同一个大的分支,但与中国PVY大田分离物聚集在一起形成一个相对独立的组,命名为PVYNTN-NW(CN型);其余6个分离物与数据库中的中国分离物聚集在PVYN-Wi组。这暗示PVY中国分离物具有相对独立的进化过程,PVY马铃薯大田分离物和种薯分离物进化上相近。所有分离物均能在珊西烟上引起典型叶脉坏死症状,HQH18G3-10引起的坏死症状最为严重。本研究首次报道了我国种薯内PVY发生情况,对分析病毒发生发展规律和防控具有借鉴作用。  相似文献   

17.
The aim of this work was to correlate the appearance of the symptoms, multiplication and spread of virus after mechanical inoculation of potato (Solanum tuberosum L.) cultivars showing different levels of susceptibility and sensitivity to Potato virus YNTN (PVYNTN). The potato cultivars used were the resistant cultivar Sante and susceptible cultivars Igor, Pentland squire and Désirée. The spread of the virus PVYNTN in infected plants was monitored using different methods: DAS-ELISA, tissue printing, immuno-serological electron microscopy and real-time PCR. In all three susceptible cultivars, the virus was detected in the inoculated leaves 4–5 days after inoculation. From there virus spread rapidly, first into the stem, then more or less simultaneously to the upper leaves and roots. Real-time PCR was shown to be very sensitive and enabled viral RNA to be detected in non-inoculated leaves of susceptible cultivar Igor earlier than other methods. Therefore, for exact studies of plant–virus interaction, a combination of methods which detect viruses on the basis of their different properties (coat protein, morphology or RNA) should be used to monitor the spread of viruses.  相似文献   

18.
Potato (Solanum tuberosum) is the largest crop in Israel. Production is based on the import of seed tubers from Europe for the spring crop. Imported tubers are generally free from virus infection. The most important virus infecting potato is Potato virus Y (PVY), which may cause severe damage to marketable yields. In Israel, tubers from the spring harvest are stored over the summer for planting in the autumn. It is important to be able to determine the infection rate of seed tuber lots from the spring harvest prior to storage. Commonly, infection is measured by sprouting tubers and measuring virus titre in the leaves using ELISA (the “Growing-On test”), which takes at least 6 weeks to give results. There is a need for a faster method to produce results, such as Taqman Real Time PCR (qPCR), for direct analysis of viral infection in tubers at harvest. To use qPCR as a diagnostic tool, it is necessary to demonstrate that both techniques give comparable results on batches of field-grown tubers. Such a comparison was performed on potential seed tuber lots of 14 different cultivars over three Israeli spring harvests (2013–2015). The agreement between the results of the two techniques was not of high statistical significance. However, the qPCR technique can distinguish well, by binary classification, between tuber lots with a low PVY infection rate (<5% by Growing On test; suitable for seed) and those unsuitable for seed (≥5% by Growing On test). Therefore, qPCR is an appropriate technique for determination of the PVY infection rate of seed tuber lots in Israel.  相似文献   

19.
The distribution of Potato virus Y (PVY) in the systemically infected potato (Solanum tuberosum) plants of the highly susceptible cultivar Igor was investigated. Virus presence and accumulation was analyzed in different plant organs and tissues using real-time polymerase chain reaction and transmission electron microscopy (TEM) negative staining methods. To get a complete insight into the location of viral RNA within the tissue, in situ hybridization was developed and optimized for the detection of PVY RNA at the cellular level. PVY was shown to accumulate in all studied leaf and stem tissues, in shoot tips, roots, and tubers; however, the level of virus accumulation was specific for each organ or tissue. The highest amounts of viral RNA and viral particles were found in symptomatic leaves and stem. By observing cell ultrastructure with TEM, viral cytoplasmic inclusion bodies were localized in close vicinity to the epidermis and in trichomes. Our results show that viral RNA, viral particles, and cytoplasmic inclusion bodies colocalize within the same type of cells or in close vicinity.  相似文献   

20.
The resistance of eight potato cultivars to tuber soft rot caused by E. carotovora subsp. atroseptica was assessed in 2 years using three different test methods. Similar cultivar resistance rankings were obtained for any one method within a year and between years for two methods (single site, infectivity titration), but not for the third (vacuum infiltration). However, the ranking of cultivars differed for the three methods. Ranking was not affected by inoculating the cortex or the more susceptible medullary tissue, or by assessing rotting in terms of infection frequency or lesion size, but it was affected by oxygen concentration during incubation. Differences among cultivars were greater when inoculated tubers were incubated anaerobically than when incubated with 5% oxygen. There was no relationship between the relative susceptibilities of cultivars to tuber soft rot in storage in January/February and those of mother tubers after planting.  相似文献   

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