A Cocktail ELISA Semi‐nested RT‐PCR Assay to Detect Bean pod mottle virus in Soya bean Seeds

Bean pod mottle virus (BPMV) has been identified as an important pathogen for plant quarantine in China because large quantities of soya bean seeds (approximately 7 × 10⁷ tons) are imported annually. To develop a practical detection programme for BPMV, a cocktail enzyme‐linked immunosorbent assay (ELISA) nested RT‐PCR using a combination of serological and molecular methods was designed for soya bean seeds. The single‐vessel detection assay was performed in a 96‐well ELISA plate, which served as a carrier for the subsequent nested RT‐PCR assay. Assay specificity was demonstrated by the production of the expected 330‐ and 296‐bp bands using the external and internal primers, respectively. This method was 10⁴‐fold more sensitive than immunocapture‐RT‐PCR (IC‐RT‐PCR). In particular, it is important to note that this assay resulted in successful micro‐extraction from soya bean seeds and combined the advantages of each individual technique. The cocktail ELISA nested RT‐PCR is a specific, sensitive, rapid and economical procedure to rapidly identify and characterize BPMV and could be suitable for both primary‐level platforms and laboratories.     

Highly Efficient Immunodiagnosis of Episomal Banana streak MY virus Using Polyclonal Antibodies Raised Against Recombinant Viral‐Associated Protein

Banana streak MY virus (BSMYV) is the causal agent of viral leaf streak disease of banana, which leads to considerable losses in banana production in most of the banana‐growing regions worldwide. Developing high‐throughput virus detection system is essential for managing viral diseases especially in vegetatively propagated crops like banana. In this study, viral‐associated protein (VAP) coded by ORF II of BSMYV was expressed in Escherichia coli, and polyclonal antibodies were raised against purified recombinant VAP (rVAP) fusion protein in rabbits. Specificity and sensitivity of resulting antibodies were tested in Western blot, immunosorbent electron microscopy (ISEM) and enzyme‐linked immunosorbent assays (ELISAs). In direct antigen‐coated (DAC)‐ELISA, antibodies reacted specifically to BSMYV in crude sap, up to 1 : 8000 dilutions, but not to healthy leaf extracts. Using this antiserum, an immunocapture polymerase chain reaction (IC‐PCR) assay was developed and compared with DAC‐ELISA. VAP antibody‐based IC‐PCR is highly specific and could differentiate episomal virus infection from the integrated endogenous BSV (eBSV) sequences. The recombinant antibodies were validated by testing with a large number of banana germplasm conserved in the field gene bank. Field samples collected during surveys and mother cultures used in tissue culture propagation suggest that antibodies generated against rVAP are sensitive and useful for large‐scale detection of BSMYV. To the best of our knowledge, this is the first report on the production of polyclonal antiserum against recombinant VAP of BSMYV and its suitability for serology‐based testing by ELISA and IC‐PCR. This VAP‐based immunodiagnosis can be applied in quarantine, germplasm exchange and certification programmes.     

One‐step Multiplex RT‐PCR for Simultaneous Detection of Four Viruses in Tobacco

A one‐step multiplex RT‐PCR method has been developed for the simultaneous detection of four viruses frequently occurring in tobacco (Cucumber mosaic virus, Tobacco mosaic virus, Tobacco etch virus and Potato virus Y). Four sets of specific primers were designed to work with the same reaction reagents and cycling conditions, resulting in four distinguishable amplicons representative of the four viruses independently. This one‐step multiplex RT‐PCR is consistently specific using different combinations of virus RNA as templates, and no non‐specific band was observed. It has high sensitivity compared to single RT‐PCR. Moreover, field samples in China can be tested by this method for virus detection. Our results show that one‐step multiplex RT‐PCR is a high‐throughput, specific, sensitive method for tobacco virus detection.     

Improved Detection of Citrus psorosis virus and Coat Protein‐Derived Transgenes in Citrus Plants: Comparison Between RT‐qPCR and TAS‐ELISA

Citrus is one of the most economically important fruit crops in the world. Citrus psorosis is a serious disease affecting mainly oranges and mandarins in Argentina and Uruguay. The causal agent is Citrus psorosis virus (CPsV), an ophiovirus with a tripartite ssRNA genome of negative polarity. The coat protein (CP), the most abundant viral protein in infected plants, has been used to detect CPsV by TAS‐ELISA, but only biological indexing, requiring 1 year, is the current and validated technique for diagnosis of citrus psorosis. In this study, a SYBR Green RT‐qPCR protocol was developed, with primers designed to the most conserved region of the cp gene. We tested their specificity and sensitivity in comparison with TAS‐ELISA. This RT‐qPCR was applied successfully to field samples from Argentina, to a variety of isolates from different countries maintained in the greenhouse, to young seedlings and old trees from a psorosis natural transmission plot, and to transgenic citrus expressing the cp gene of CPsV or a fragment thereof. This method allowed accurate quantification of viral titer and cp gene expression in transgenic plants, which could not be detected previously. The sensitivity and reliability of quantitative CPsV detection were improved with greater speed using commercial reagents, and the sensitivity was three orders of magnitude higher than that of TAS‐ELISA. All these data encourage its validation.     

Molecular Analysis of ORF6, ORF7 and ORF8 of Beet yellows virus Iranian Isolate

Beet yellows virus (BYV), a member of the Closteroviridae family, is one of the most important sugar beet yellowing viruses. The nine ORFs of BYV genome encode different proteins required for BYV life cycle. We sequenced a part of the genome of BYV Iranian isolate consisting of ORF6, ORF7 and ORF8. The primer pair BYVA/Z was used for amplification of this region in RT‐PCR. The amplicon (1615 bp) was cloned and sequenced. Comparisons showed the amplified segment is corresponding to ORF6, ORF7 and ORF8 of BYV genome encoding coat protein, p20 and p21 proteins, respectively. The ORF7 of BYV Iranian isolate overlaps with ORF6 and ORF8 in four and 26 nucleotides at 5′ and 3′ ends, respectively. The ORF7 of Iranian isolate of BYV was sequenced completely. However, approximately 24 nt. from the beginning of ORF6 and 23 nt. from end of ORF8, including the stop codon, were not determined. ORF6, ORF7 and ORF8 showed the highest similarity at nucleotide (98.3, 99.4 and 99.2%) and amino acid (97.4, 98.9 and 100%) sequence levels, with BYV Ukrainian isolate. Phylogenetic analysis of the deduced amino acid sequences of ORF6, ORF7 and ORF8 revealed closer relationship of Iranian isolate of BYV with BYV Ukrainian isolate than other BYV isolates available at GenBank.     

First Report of Cucumber mosaic virus Infecting Chinese Mallow in China

The virus in naturally infected, stunted Chinese mallow plants and mosaic leaves was identified as Cucumber mosaic virus (CMV). Six symptomatic plants and one symptomless plant were collected in Chongqing, China. DAS‐ELISA suggested CMV was likely associated with the diseased Chinese mallow. Double‐stranded RNA was extracted from the samples, analysed by RT‐PCR, and the coding sequences of their coat proteins (CPs) were sequenced. The results further confirmed CMV was the pathogen causing Chinese mallow stunted, mosaic disease. The isolate was named CMV‐DXC. The full sequence of CMV‐DXC CP was determined, and it had the highest nucleotide identity (99.4%) of those of CMV‐lily, CMV‐WSJ and CMV‐Hnt, respectively. Phylogenetic analysis shows that CMV‐DXC belongs to CMV subgroup II. To our knowledge, this is the first report of CMV infecting Chinese mallow in China.     

Biological and Molecular Characterization of Alfalfa Mosaic Virus Infecting Trumpet Creeper (Campsis radicans) in Iran

Samples of trumpet creeper (Campsis radicans) leaves showing mottling and mosaic were collected from plants growing in a private garden in Tehran province, Iran, in 2012. Symptomatic leaf samples were tested for Alfalfa mosaic virus (AMV), Cucumber mosaic virus (CMV) and Peanut stunt virus (PSV) infection in enzyme‐linked immunosorbent assay (ELISA), using specific antibodies. None of the samples were positive for CMV and PSV; however, all reacted positively with that of AMV antiserum. In biological assay, systemic infection was found on Datura stramonium, Nicotiana tabacum cvs., White Burley, and Xanthi, 21 days postinoculation (DPI), while necrotic local lesions were obtained following inoculation of Phaseolus vulgaris and Vigna unguiculata within three to four DPI. Using a pair of primers specific for AMV, a DNA fragment of 880 bp was RT‐PCR‐amplified. Analysis of the sequences revealed the presence of 657 nucleotides of AMV complete coat protein (CP) gene (translating 218 amino acid residues). Phylogenetic analysis using neighbour‐joining (NJ) method clustered AMV isolates into two main types and the IRN‐Tru (GenBank Accession No. JX865593 ) isolate fell into type I. Pairwise nucleotide distances also confirmed two main types with the highest and lowest similarities for type I and II, respectively. The association of AMV with mosaic disease of C. radicans represents the first record from the world.     

RT-PCR方法同步检测兰州百合(Lilium davidii var.unicolor)两种主要病毒

建立并优化了以18S rRNA为内参照的特异性检测兰州百合(Lilium davidii var.unicolor)两种主要病毒:黄瓜花叶病毒(Cucumber mosaic virus,CMV)和百合无症病毒(Lily symptomless virus,LSV)的三重RT-PCR体系。结果表明,52.5°C的退火温度、0.025 U/μL的Taq DNA聚合酶、0.6 mmol/L的dNTP浓度、4 mmol/L的Mg2+浓度、0.4μmol/L的各引物浓度以及30个循环等是三重PCR体系扩增的最佳条件;同时用该优化体系检测了兰州百合不同取样部位的病毒差异,发现LSV在不同取样部位的特异扩增条带的强度比较一致,而CMV差距相对较大,外鳞片CMV相对含量在整个感病植株中最高。为兰州百合主要病毒检测、脱毒组培快繁提供了技术支撑。     

Species‐Specific PCR‐Based Assay for Identification and Detection of Phomopsis (Diaporthe) azadirachtae Causing Die‐Back Disease in Azadirachta indica

Die‐back disease caused by Phomopsis (Diaporthe) azadirachtae is the devastating disease of Azadirachta indica. Accurate identification of P. azadirachtae is always problematic due to morphological plasticity and delayed appearance of conidia. A species‐specific PCR‐based assay was developed for rapid and reliable identification of P. azadirachtae by designing a species‐specific primer‐targeting ITS region of P. azadirachtae isolates. The assay was validated with DNA isolated from different Phomopsis species and other fungal isolates. The PCR assay amplified 313‐bp product from all the isolates of P. azadirachtae and not from any other Phomopsis species or any genera indicating its specificity. The assay successfully detected the pathogen DNA in naturally and artificially infected neem seeds and twigs indicating its applicability in seed quarantine and seed health testing. The sensitivity of the assay was 100 fg when genomic DNA of all isolates was analysed. The PCR‐based assay was 92% effective in comparison with seed plating technique in detecting the pathogen. This is the first report on the development of species‐specific PCR assay for identification and detection of P. azadirachtae. Thus, PCR‐based assay developed is very specific, rapid, confirmatory and sensitive tool for detection of pathogen P. azadirachtae at early stages.     

RT-PCR 方法同步检测兰州百合(Lilium davidii var. unicolor )两种主要病毒

建立并优化了以18S rRNA为内参照的特异性检测兰州百合（Lilium davidii var.unicolor）两种主要病毒：黄瓜花叶病毒（Cucumber mosaic virus,CMV）和百合无症病毒（Lily symptomless virus,LSV）的三重RT-PCR体系。结果表明,52.5°C的退火温度、0.025 U/μL的Taq DNA聚合酶、0.6 mmol/L的dNTP浓度、4 mmol/L的Mg2＋浓度、0.4μmol/L的各引物浓度以及30个循环等是三重PCR体系扩增的最佳条件;同时用该优化体系检测了兰州百合不同取样部位的病毒差异,发现LSV在不同取样部位的特异扩增条带的强度比较一致,而CMV差距相对较大,外鳞片CMV相对含量在整个感病植株中最高。为兰州百合主要病毒检测、脱毒组培快繁提供了技术支撑。     

Molecular Detection and Complete Genome Sequences of Tomato chlorosis virus Isolates from Infectious Outbreaks in China

Tomato chlorosis virus (ToCV) is a whitefly‐transmitted, phloem‐limited, bipartite Crinivirus. In 2012, severe interveinal symptoms characteristic of ToCV infections were observed in greenhouse tomato plants in the Shandong province of China. High levels of infestation by whiteflies (Bemisia tabaci), which transmit ToCV, were also observed on tomato plants in all the greenhouses investigated. The presence of ToCV was confirmed by specific RT‐PCR either in the sampled plants or in the whiteflies collected from the ventral surface of the leaves of diseased plants. The complete genomic nucleotide sequences (RNA1 and RNA2) of the Shandong isolate of ToCV (ToCV‐SDSG) were determined and analysed. ToCV‐SDSG RNA1 consisted of 8594 nucleotides encompassing four open reading frames (ORFs). ToCV‐SDSG RNA2 consisted of 8242 nucleotides encompassing nine ORFs. Phylogenetic analysis suggests that the Chinese ToCV‐SDSG isolate is most similar to the ToCV‐Florida isolate.     

Development of reverse transcription loop‐mediated isothermal amplification assay for sensitive and rapid detection of Hosta virus X

The one‐step real‐time turbidity loop‐mediated isothermal amplification assay (RealAmp) was developed to detect Hosta virus X (HVX), the most devastating threat to hosta industry. The reaction was performed in a single tube at 63°C for 15 min, and real‐time turbidimetry was used to monitor the amplification results. Specificity and sensitivity analyses demonstrated that this RealAmp method was sensitive as real‐time TaqMan RT‐PCR and about 100‐fold higher than conventional RT‐PCR with no cross‐reaction with other viral pathogens. Field samples detection showed that HVX could be identified effectively with this method. Overall, this RealAmp assay for HVX detection was simple, specific, sensitive, convenient and time‐saving and could assist in the quarantine measures for prevention and control of the disease caused by HVX.     

Expanded Strain‐Specific RT‐PCR Assay for Differential Detection of Currently Known Citrus Tristeza Virus Strains: a Useful Screening Tool

Genotypic characterization of Citrus tristeza virus (CTV) strains has progressed significantly, but their phenotypic expression is poorly established as CTV naturally occurs as mixed‐strain populations. A screening system for the analysis of mixed‐strain populations is required for population studies and the correlation with symptom expression. In this study, a published CTV strain‐specific detection assay was expanded and improved to facilitate detection of currently known CTV strains. Supplementary RT‐PCR assays were developed for two variant groups of the RB strain and the HA16‐5 strain, and assays for the T36 strain and generic CTV detection were improved. The value of the strain‐specific assays was shown by the ability to identify the strain components of two CTV cross‐protecting sources, GFMS35 and LMS6, used in the South African budwood certification scheme and to demonstrate the segregation of strains in budwood source trees.