Improved detection of citrus psorosis virus using polyclonal and monoclonal antibodies

Citrus psorosis is a serious and widespread disease associated with citrus psorosis virus (CPsV), a novel filamentous negative-stranded virus in the genus Ophiovirus . Laborious and costly indexing on test plants has been the only routine diagnostic method available, but recently an antiserum usable in double antibody sandwich (DAS) ELISA has been prepared. Here, major improvements to the DAS-ELISA protocol, a new purification method, and production of two monoclonal antibodies (mabs) to CPsV, an IgG and an IgM are reported. A highly sensitive triple antibody sandwich (TAS) ELISA making use of the mabs is described. In glasshouse citrus the homologous virus was still detectable at a tissue dilution of 1/6250 in DAS and at 1/31250 in TAS-ELISA. Both the DAS and IgG mab-TAS formats detected all CPsV isolates so far tested (from Argentina, Italy, Lebanon, Spain and the USA). A few isolates were not detected by the IgM mab.     

Detection of Citrus psorosis virus in field trees by direct tissue blot immunoassay in comparison with ELISA, symptomatology, biological indexing and cross-protection tests

Serological detection of Citrus psorosis virus (CPsV) by direct tissue blot immunoassay (DTBIA) and by double (DAS) and triple (TAS) antibody sandwich ELISA, was compared in samples from various citrus varieties growing in the glasshouse and in the field. In young shoots and leaves, CPsV was readily detected by the three procedures, whereas DTBIA detection in old leaves was less consistent. DTBIA detection and ELISA readings in nine different citrus varieties were similar, suggesting that CPsV accumulates to equivalent levels in all of them. In infected field trees from Spain or Italy, CPsV was consistently detected by TAS ELISA, even in samples of old leaves in winter, whereas DTBIA detection in the same trees was reliable only when using young shoots. Detection of CPsV by DTBIA and by DAS and TAS ELISA in previously untested field trees correlated perfectly with psorosis diagnostics based on biological indexing, specifically with the capacity of those sources to cross-protect against challenge inoculation with psorosis B. Some trees without bark scaling were shown to be psorosis-infected by biological indexing and to contain CPsV by serological tests; other trees showing psorosis-like bark or leaf symptoms in the field were shown to be psorosis-free by biological indexing and also CPsV-free by serology. This is the first time that the presence of CPsV has been correlated with psorosis infection as diagnosed by biological indexing.     

First report of <Emphasis Type="Italic">Citrus psorosis virus</Emphasis> in Japan

Citrus psorosis virus (CPsV) was detected from citrus trees for the first time in Japan. The diagnosis was confirmed by molecular, serological, and biological indexing. RT-PCR detected CPsV from two citrus trees among ca. 200 tested. Both trees were variety Shiranui of [Citrus unshiu Marc. × C. sinensis (L.) Osb.] × C. reticulata Blanco, and neither had the bark scaling symptom typical of CPsV. The CPsV isolate could be genetically related to those from Spain, Italy, Florida, and California.     

Detection of Citrus Psorosis Virus by ELISA, Molecular Hybridization, RT-PCR and Immunosorbent Electron Microscopy and its Association with Citrus Psorosis Disease

Psorosis is a citrus disease of undemonstrated etiology that can be diagnosed by biological indexing on sweet orange seedlings followed by a cross protection test. Its presumed causal agent is Citrus psorosis virus(CPsV), type species of the genus Ophiovirus. We compared detection of CPsV by ELISA, RT-PCR, molecular hybridization and immunosorbent electron microscopy, and examined its association with psorosis disease in 11 biologically characterized isolates and in 47 uncharacterized field sources by observation of field symptoms and by biological indexing including the cross protection test. Detection of CPsV by any of the four procedures always coincided with diagnosis of psorosis by cross protection, but it did not always correlate with observation of symptoms thought to be specific, in field trees or in graft-inoculated indicator plants. Trials to detect CPsV by ELISA, molecular hybridization and RT-PCR in citrus sources from different geographical origins, presumed to be psorosis-infected on the basis of field symptoms or reaction of indicator plants, were sometimes unsuccessful, indicating that psorosis symptoms may be induced by causes other than CPsV.     

Effect of temperature on RNA silencing of a negative‐stranded RNA plant virus: Citrus psorosis virus

Citrus psorosis virus (CPsV), genus Ophiovirus, causes a bark scaling disease of citrus. CPsV virions are kinked filaments with three negative‐stranded RNA molecules (vRNA) and a 48 kDa coat protein. The effect of temperature on symptom expression, virus accumulation and RNA silencing was examined in sweet orange seedlings (Citrus sinensis) graft‐inoculated with three different CPsV isolates and grown in a glasshouse at 26/18°C or 32/26°C (day/night). Most plants kept in the cooler glasshouse showed a shock reaction in the first flush with shoot necrosis, and then moderate to intense chlorotic flecking and spotting in young leaves, whereas plants incubated at 32/26°C did not exhibit shoot necrosis, and young leaf symptoms were milder. Virus titre estimated by ELISA and by northern and dot blot hybridization paralleled symptom intensity, with significantly higher virus accumulation in plants incubated at 26/18°C. The amount of CPsV‐derived small RNAs (CPsV‐sRNAs) slightly increased at 32/26°C, with the ratio of CPsV‐sRNA/vRNA being higher at 32/26°C than at 26/18°C. These results suggest that (i) CPsV infection induces RNA silencing in citrus plants, (ii) symptom intensity is associated with virus accumulation, and (iii) temperature increase enhances the RNA silencing response of citrus plants and decreases virus accumulation.     

PM 7/101 (1): ELISA tests for plant pathogenic bacteria

Specific scope

Enzyme Linked Immuno Sorbent Assay (ELISA) tests for bacteria may be used for screening of large numbers of samples as an alternative to immunofluorescence (IF) in certain cases (see PM 7/97 Indirect Immunofluorescence test for plant pathogenic bacteria). They can also be used as part of the identification of pure cultures. This standard describes how to perform an ELISA test for detection and/or identification in bacterial diagnostics using: (i) Indirect; (ii) Double antibody sandwich‐DAS; (iii) Double antibody sandwich indirect‐DASI also named triple antibody sandwich‐TAS; and (iv) Direct tissue‐print, squash or colony‐dot.

Specific approval and amendment

Approved as an EPPO Standard in 2010–09     

Virus transmission studies and diagnostic detection of four begomovirus isolates in selected crop hosts and in Bemisia tabaci biotype B*

Virus transmission studies were conducted under glasshouse conditions using the vector Bemisia tabaci biotype B to determine how effectively isolates of the begomoviruses Tomato yellow leaf curl virus (TYLCV) and Tomato leaf curl Bangalore virus (ToLCBV) could be transmitted to phaseolus bean, capsicum and tomato test plants, the latter host used as a positive control for transmission. Diagnostic detection of viruses in these host crops and vector was also evaluated. Polymerase chain reaction (PCR) detection of TYLCV in bean cv. Wade and capsicum cv. Bellboy was achieved 4 weeks after fumigation in asymptomatic plants. Detection of TYLCV in tomato controls was achieved 2 weeks after fumigation with improved frequency of detection at 4 weeks. PCR was found to be a more sensitive method than triple‐antibody sandwich enzyme‐linked immunosorbent assay (TAS‐ELISA) for the detection of TYLCV isolates in all hosts. ToLCBV was detected by PCR and TAS‐ELISA in bean. TYLCV was also detected by PCR in the vector, with a novel internal positive control. This work was carried out to facilitate the development of a diagnostic protocol for the begomoviruses causing tomato yellow leaf curl under the EU SMT programme project –‘Diagnostic protocols for organisms harmful to plants’ (DIAGPRO).     

Association of citrus psorosis B symptoms with a sequence variant of the Citrus psorosis virus RNA 2

Citrus psorosis virus (CPsV), the type species of genus Ophiovirus, is the presumed causal agent of a bark scaling disease in citrus plants. CPsV virions are kinked filaments composed of three negative‐strand RNA molecules and a ～48‐kDa coat protein. The virus induces two different syndromes: psorosis A (PsA), characterized by limited bark scaling lesions in the trunk and main limbs, and a more aggressive form of the disease called psorosis B (PsB) with rampant bark lesions affecting even thin branches and chlorotic blotches in old leaves. In the greenhouse, the PsA and PsB syndromes can be induced by graft inoculating healthy citrus seedlings with non‐lesion or with lesion bark inoculum from PsA‐affected field trees. PsA‐ and PsB‐inducing CPsV sub‐isolates obtained by this procedure from the same tree showed identical single‐strand conformation polymorphism (SSCP) profiles in homologous segments of the RNAs 1 and 3, whereas segments of the RNA 2 enabled discrimination between PsA‐ and PsB‐associated sequence variants. SSCP analysis of the RNA 2 population present in different tissues of psorosis‐infected plants showed that: (i) PsA‐inducing isolates contain PsB‐associated sequence variants at low frequency, (ii) the PsB‐associated sequence variant is predominant in blistered twigs and gummy pustules affecting old leaves, characteristic of PsB isolates, and (iii) the PsB‐associated sequence variant accumulates preferentially in bark lesions of the trunk and limbs. SSCP analysis of the RNA 2 population also enabled monitoring of interference between PsA‐ and PsB‐associated variants in plants co‐inoculated with both psorosis types.     

First detection of a virulent strain of Citrus tristeza virus (Closteroviridae) in a citrus orchard of Chlef Valley (Algeria)

A large‐scale survey of Citrus tristeza virus (CTV) was carried out from 2016 to 2018 in the Chlef Valley, one of the main citrus growing areas in Algeria. In this study a total of 1680 citrus trees from 93 commercial orchards were sampled. The collected samples were tested by direct tissue blot immunoassay analysis and by the double antibody sandwich enzyme‐linked immunosorbent assay technique, and 54 trees were identified as being infected with CTV. This result confirmed that 54 trees were infected by the virus, corresponding to an infection rate of 3.21% throughout the studied area. Five of these local CTV sources were chosen for further molecular investigations to determine the genotype associated with the CTV isolates now spreading in the Chlef area. Characterization with multiple molecular markers showed the presence of the T30 and VT genotypes. This result allowed confirmation of the presence of a virulent strain belonging to the VT genotype. The other CTV isolates were similar to those from the Mitidja region, which showed 99% nucleotide identity with the Spanish mild CTV isolate. This early finding of a strain belonging to the VT genotype is an issue for Algerian citrus producers and needs rapid actions to be taken by the National phytosanitary services, extending the surveillance to other citrus production regions and uprooting the infected trees.     

Elimination of Citrus psorosis virus by somatic embryogenesis from stigma and style cultures

Somatic embryogenesis was used to eliminate Citrus psorosis virus (CPsV) from three citrus species (common mandarin, sweet orange and Dweet tangor), all of which regenerated somatic embryos with different embryogenic potential from stigma and style explants. CPsV was detected by double antibody sandwich‐indirect‐enzyme‐linked immunosorbent assay (DASI-ELISA) in explants and embryogenic callus, but was not detected in any of the plants obtained from somatic embryos, even 24 months after regeneration. Loss of juvenile characters (disappearance of thorns) was observed in the first year of growth and was retained in plants propagated by grafting from thornless stems. Somatic embryogenesis appears to be a very promising technique for the production of healthy citrus stocks.     

云南、福建、湖南烟区烟草花叶病主要病毒种类检测及黄瓜花叶病毒亚组鉴定

 采用抗原直接包被和双抗体夹心酶联免疫吸附测定法(ELISA)对采自云南、福建、湖南烟区烟草花叶病样品进行了病毒种类检测,利用三抗体夹心ELISA对黄瓜花叶病毒(Cucumber mosaic virus,CMV)的亚组类型进行了鉴定。在云南采集的520个花叶病样品中,烟草花叶病毒(Tobacco mosaic virus,TMV)、CMV和马铃薯Y病毒(Potato virus Y,PVY)总检出率分别为71.74%、55.01%和6.35%;在福建采集的150个花叶病样品中,TMV、CMV和PVY的总检出率分别为94%、24.66%和8.00%;在湖南采集的74个花叶病样品中,TMV、CMV和PVY的总检出率分别为58.11%、51.35%和2.70%。部分样品为2种以上病毒复合侵染。云南、福建和湖南采集的64个CMV阳性样品中,属亚组Ⅰ的样品为57个,占89.1%;属亚组Ⅱ的样品为10个,占15.6%;其中3个样品为亚组Ⅰ和亚组Ⅱ的复合侵染。     

Detection and characterization of <Emphasis Type="Italic">Citrus tristeza virus</Emphasis> stem pitting isolates in Jamaica

An island wide survey for Citrus tristeza virus (CTV) in citrus orchards across Jamaica (13 regions) was conducted over 2 years. Trees (1, 885) showing virus-like symptoms as well as asymptomatic trees were randomly sampled for testing by ELISA and 55 samples from the 6 major citrus growing regions were graft inoculated on indicator plants. Most samples (74%) reacted to polyclonal antibodies against CTV in ELISA, while 20% were positive in tests using monoclonal antibodies specific to severe CTV strains. Samples collected from the 6 major citrus growing regions produced vein clearing and stem pitting symptoms on Mexican lime indicator plants (87%). In addition, stem pitting symptoms were induced on Duncan grapefruit, sweet orange, sour orange or sweet orange grafted on sour orange. Nucleotide sequencing of the coat protein gene sequences isolated from these samples indicated high identities (88 to 95.5%) among the Jamaican isolates and previously reported stem pitting strains from Central and North America and Eurasia (88 to 100%). The results suggest a shared ancestry with isolates from other geographical locations, rather than geographical speciation, and presumably separate CTV introductions into Jamaica.     

粉虱传双生病毒的TAS-ELISA及PCR快速检测

 利用粉虱传双生病毒(WTGs)多克隆抗体及单克隆抗体,建立了三抗体夹心ELISA (TAS-ELISA)检测WTGs的方法,并发现了单克隆抗体SCR18可广泛用于我国WTGs的检测。利用根据WTGs基因组上基因间隔区及外壳蛋白基因保守序列设计的引物,建立了PCR特异检测WTGs的方法。对田间病样的TAS-ELISA和PCR检测表明,粉虱传双生病毒在云南省烟草、番茄和南瓜上均存在,2种方法的测定结果是一致的。     

Comparison and differentiation of Wheat Yellow Mosaic Virus(WYMV), Wheat Spindle Streak Mosaic Virus (WSSMV) and Barley Yellow Mosaic Virus (BaYMV) isolates using WYMV monoclonal antibodies

Twelve monoclonal antibodies (MAbs) were obtained by immunizing mice with a French isolate (F1) of wheat yellow mosaic virus (WYMV). Three of these (3D12, 2C1, 6C3) belong to the IgM class and the nine others to the IgG class (3D8, 3H1, 2B8, 1F2, 3C10, 4F12, 3H9, 1G5, 54). In antigen-coated plate (ACP) ELISA and indirect double antibody sandwich (IDAS) ELISA, all MAbs recognize the WYMV (F1) both in the form of purified particles and in wheat leaf extract. The analysis of numerous French isolates of WYMV shows a variable reactivity with MAbs 3D8, 3H1, 2B8, 3C10, 3H9 and 1G5 in IDAS — and ACP-ELISA. The Japanese isolate of WYMV and United States isolates of wheat spindle streak mosaic virus (WSSMV) were detected in IDAS- and ACP-ELISA by ten of the MAbs tested showing that the wheat bymoviruses originating from the three locations share a high epitopic homology. French isolates of barley yellow mosaic virus (BaYMV; pathotypes 1 and 2) were only detected in ACP-ELISA with MAbs 6C3, 3D8, 3H1 and 2B8 whereas the two Japanese strains (I-1, II-1) of MaYMV were recognized with these and also with that of 3C10. In IDAS-ELISA, the two Japanese strains were clearly detected by MAbs, 6C3, 3D8, 3H1, 1F2, 3C10 and 1G5 and the British and Belgian (pathotype 2) isolates only by that of 6C3. Only the Japanese strain of BaYMV, 1-1 could be detected with MAb 3H9 in this ELISA system.     

重庆市萝卜芜菁花叶病毒的检测与序列分析

为明确重庆市萝卜感染芜菁花叶病毒(Turnip mosaic virus,TuMV)的情况,在重庆市巴南区、九龙坡区、北碚区等14个区县共采集了146份萝卜病毒病样品,采用酶联免疫吸附试验法(enzymelinked immunosorbent assay,ELISA)对病样进行TuMV检测,并通过PCR、克隆和测序等技术获得13个TuMV分离物CP核苷酸序列,利用软件分析重庆市TuMV CP基因序列的相似性,利用系统进化树分析CP基因遗传变异与系统进化。结果表明,共有105份样品的TuMV检测为阳性,检出率为71.9%;所得13个分离物CP基因均为864 bp,测序的13个分离物CP核苷酸相似性为89.1%~99.2%,与国内已报道的TuMV各分离物CP核苷酸相似性在88.3%~99.4%之间;所得的13个分离物均分布在basal-BR和world-B组中,在Asian-BR和basal-B组中均无分布,进一步分析发现有9个分离物属于word-B组,仅4个分离物属于basal-BR组。研究表明,TuMV在重庆市萝卜各种植区普遍发生,且word-B组为重庆市萝卜的优势毒源。     

Distinct strains of the re‐emergent Cassava common mosaic virus (genus: Potexvirus) infecting cassava in Argentina

Cassava common mosaic disease (CCMD) has been reported in all regions where cassava is grown in the Americas and the causal agent, Cassava common mosaic virus (CsCMV), has been identified as a mechanically transmitted potexvirus (Alphaflexiviridae). In Argentina, cassava is grown mainly in the northeast (NEA) region that shares borders with Brazil and Paraguay. Increasing incidences of CCMD were observed during the years 2014 to 2016 associated with severe leaf mosaic symptoms and yield reductions where the occurrence of CsCMV was confirmed by RT‐PCR and sequencing. In this work, the virus has been successfully purified and a double‐antibody sandwich (DAS‐) ELISA test has been developed from an Argentinean isolate of CsCMV to extend the diagnostics of the disease. A collection of 726 samples was screened and CsCMV was detected with 100% prevalence in the NEA region. Additional co‐infecting viruses were detected in some plants (64.4%); in these, CCMD symptoms correlated with CsCMV only, although more severe symptoms could be observed in mixed infected plants. Sequence analysis of the conserved RdRp domain showed a wider diversity of CsCMV isolates. Interestingly, a separate phylogenetic cluster was formed by isolates from the NEA region that only shared 77.1% to 80.3% nucleotide identity with the other clusters. These results indicate the presence of mixed strains occurring in the NEA region and suggest the presence of geographically distinct strains of CsCMV in South America.     

Investigation of biological properties, double-stranded RNA patterns and antigen concentration in citrus species infected with citrus tristeza virus

Biological properties and dsRNA patterns of one Cyprus and three Turkish isolates of citrus tristeza virus (CTV) were investigated. In addition, CTV antigen concentration and effect of tissue sampling time from naturally infected Shamouti sweet orange trees grown in the field of Icel Province, Turkey, were also determined. The Cyprus isolate showed vein clearing symptoms on grapefruit, ‘Madam Vinous’ and Mexican lime and stem pitting symptoms on Mexican lime. The three Turkish isolates showed only vein clearing symptoms on Mexican lime. All four isolates showed a full-length major double-stranded RNA (dsRNA) band of 13.3 × 10⁶ Da mol. wt in extracts from infected Madam Vinous sweet orange trees, and major or minor dsRNA bands with 2.0. 0.8 and 0.5 × 10⁶ mol.wt. All seven different citrus varieties inoculated with the Igdir (D) strain contained full-length dsRNA. The additional two dsRNA of 0.8 and 0.5 × 10⁶ mol.wt were also detected as clearly as full-length dsRNA in these hosts, but were weaker inCitrus exelsa and ‘Interdonat’ lemon. Madam Vinous, rough lemon and Mexican lime were the best hosts for dsRNA analysis. ELISA values were highest in April (OD_405nm =0.476), decreased steadily until August, and then increased gradually through December. ELISA values were lowest in July and August (OD_405nm =0.157 and 0.141, respectively). dsRNA recovery from a field tree infected with isolate Igdir D was good in March, April and May and poor in January and February. No dsRNA band was detected in August or September. http://www.phytoparasitica.org posting July 9, 2002.     

进境西瓜种子中西瓜细菌性果斑病菌的检测鉴定

由嗜酸菌属西瓜种(Acidovorax citrulli)引起的西瓜细菌性果斑病是西瓜等葫芦科作物上的一种极具毁灭性的病害,该病原细菌可以由种子携带传播。本研究通过直接研磨种子,用双抗体夹心酶联免疫吸附测定法(DAS-ELISA)和免疫捕捉聚合酶链式反应法(IC-PCR)对进境的西瓜种子进行检测,并且对PCR产物进一步克隆测序。结果表明,在DAS-ELISA产生阳性结果的样品中,IC-PCR结果也产生阳性。序列分析表明,该序列与已知的该病菌16S rRNA基因的相应序列具有100%同源性。因此,2006年这批来自台湾的西瓜种子携带有嗜酸菌属西瓜种(Acidovorax citrulli)。