Genetic and Phenotypic Variation of the Pepper golden mosaic virus Complex

ABSTRACT Three isolates of the bipartite begomovirus Pepper golden mosaic virus (PepGMV) were characterized for genomic and biological properties. The complete nucleotide sequences of the DNA-A and DNA-B components were determined from infectious clones of PepGMV-Serrano (PepGMV-Ser), PepGMV-Mosaic (PepGMV-Mo), and PepGMV-Distortion (PepGMV-D). Nucleotide sequence identity among PepGMV components ranged from 91 to 96% for DNA-A and from 84 to 99% for DNA-B, with each PepGMV component most closely related to the corresponding component of Cabbage leaf curl virus (CaLCV). However, phylogenetic relationships among begomovirus components were incongruent because DNA-A of PepGMV and CaLCV share an inferred evolutionary history distinct from that of DNA-B. The cloned components of PepGMV-Ser, -Mo, and -D were infectious by biolistic inoculation to pepper but differed in symptom expression: PepGMV-Ser exhibited a bright golden mosaic, PepGMV-Mo produced a yellow-green mosaic, and PepGMV-D caused only a mild mosaic and foliar distortion followed by a "recovery" phenotype in which leaves developing after initial symptom expression appeared normal. Differences in symptoms also were observed on tomato, tobacco, and Datura stramonium. Progeny virus derived from clones of PepGMV-Ser and -Mo were transmitted from pepper to pepper by the B biotype of Bemisia tabaci; progeny virus derived from PepGMV-D clones was not transmissible by the B biotype. Reassortant genomes derived from heterologous DNA components of the three isolates were infectious in all possible pairwise combinations, with symptom phenotype in pepper determined by the DNA-B component. Collectively, these results indicate that the three virus isolates examined may be considered distinct strains of PepGMV that have the capacity to exchange genetic material.     

Interactions Between Geminiviruses in a Naturally Occurring Mixture: Pepper huasteco virus and Pepper golden mosaic virus

ABSTRACT Pepper huasteco virus (PHV) and Pepper golden mosaic virus (PepGMV) are found in mixtures in many horticultural crops in Mexico. This combination constitutes an interesting, naturally occurring model system to study several aspects of virus-virus interactions. Possible interactions between PHV and PepGMV were studied at four levels: symptom expression, gene expression, replication, and movement. In terms of symptom expression, the interaction was shown to be host-dependent because antagonism was observed in pepper, whereas synergism was detected in tobacco and Nicotiana benthamiana. PHV and PepGMV did not generate viable pseudorecombinant viruses; however, their replication is increased during mixed infections. An asymmetric complementation in movement was observed because PHV was able to support the systemic movement of PepGMV A whereas PepGMV did not support the systemic distribution of PHV A. Heterologous transactivation of both coat protein promoters also was detected. Several conclusions can be drawn from these experiments. First, viruses coinfecting the same plant can interact at several levels (replication, movement) and in different manners (synergism, antagonism); some interactions might be host dependent; and natural mixed infections could be a potential source of geminivirus variability by generating viable tripartite combinations that could facilitate recombination events.     

Synergistic Disease in Pepper Caused by the Mixed Infection of Cucumber mosaic virus and Pepper mottle virus

ABSTRACT The occurrence of more than one virus species in a single plant is not uncommon in cultivated and native plant species. A mixed virus infection may lead to greater disease severity than individual viral components and this is sometimes referred to as a synergistic disease. Although, in some cases, synergism has been demonstrated for various plant growth parameters such as plant height, weight, and yield, proof of synergy typically has not been demonstrated for symptom severity when the mixed virus infection was not lethal. We demonstrated synergy in bell pepper plants co-infected with Cucumber mosaic virus (CMV) and Pepper mottle virus (PepMoV) relative to each virus alone for stem height (two of three trials) and aboveground fresh weight (one of three trials) using factorial analysis and Abbott's equation for synergy. This approach allowed affirmation of the type of response (i.e., synergistic rather than antagonistic) and statistical proof of synergy. A detailed evaluation of symptom severity for each viral treatment revealed three phases associated with host plant developmental stages. A numerical symptom severity rating scale was developed and used in each of two equations to demonstrate statistical proof for synergy based on symptom severity for co-infected plants. Virus accumulation in noninoculated leaves was determined by enzyme-linked immunosorbent assay. In singly infected plants, CMV titers declined in mildly symptomatic leaves representing later stages of plant development, but titers increased in similar leaves of co-infected plants. In contrast, PepMoV titers did not differ in singly or co-infected plants.     

Recovery from Cucurbit leaf crumple virus (family Geminiviridae, genus Begomovirus) infection is an adaptive antiviral response associated with changes in viral small RNAs

A strong recovery response occurs in cantaloupe (Cucumis melo) and watermelon (Citrullus lanatus) infected with the bipartite begomovirus Cucurbit leaf crumple virus (CuLCrV). This response is characterized by initially severe symptoms, which gradually become attenuated (almost symptomless). An inverse relationship was detected between viral DNA levels and recovery, indicating that recovered tissues had reduced viral titers. Recovered tissues also were resistant to reinfection with CuLCrV; i.e., recovered leaves reinoculated with the virus did not develop symptoms or have an increased level of viral DNA. In contrast, infection of CuLCrV-recovered leaves with the RNA virus, Cucumber mosaic virus (CMV), disrupted recovery, resulting in the development of severe disease symptoms (more severe than those induced by CMV or CuLCrV alone) and increased CuLCrV DNA levels. Small RNAs with homology to CuLCrV DNA were detected in recovered and nonrecovered tissues; as well as in phloem exudates from infected, but not uninfected plants. Levels of these small RNAs were positively correlated with viral titer; thus, recovered tissues had lower levels than symptomatic tissues. In addition, viral DNA from a host that undergoes strong recovery (watermelon) was more highly methylated compared with that from a host that undergoes limited recovery (zucchini). Furthermore, inoculation of CuLCrV-infected zucchini with a construct expressing an inverted repeat of the CuLCrV common region enhanced recovery and reduced viral symptoms and viral DNA levels in newly emerged leaves. Taken together, these results suggest that recovery from CuLCrV infection is an adaptive antiviral defense mechanism, most likely mediated by gene silencing.     

Genetic diversity and mixed infections of begomoviruses infecting tomato, pepper and cucurbit crops in Nicaragua

Begomoviruses were detected in Nicaraguan fields of tomato ( Lycopersicon esculentum ) and adjacently growing plants of pepper ( Capsicum annuum ), chilli pepper ( C . baccatum ), cushaw ( Cucurbita argyrosperma ) and Mexican fireplant ( Euphorbia heterophylla ) using polymerase chain reaction (PCR) and universal begomovirus primers. All tomato and Mexican fireplant plants showing symptoms were infected with begomoviruses, while only 30–46% of the pepper, chilli pepper and cushaw plants showing symptoms tested virus-positive. No begomoviruses were found in potato. The virus species were provisionally identified by sequencing 533 bp of the viral coat protein gene ( AV1 ). Tomato severe leaf curl virus (ToSLCV), Tomato leaf curl Sinaloa virus (ToLCSinV) and Pepper golden mosaic virus (PepGMV) were found to infect both tomato and pepper. A new provisional species designated Tomato leaf curl Las Playitas virus (ToLCLPV) was detected in a tomato plant. Squash yellow mottle virus (SYMoV) and PepGMV were found in cucurbits, the latter for the first time in this host. Euphorbia mosaic virus (EuMV) was detected in Mexican fireplant. Sequencing of a larger number of PCR-amplified clones from selected plants revealed intraspecific viral sequence variability, and also multiple begomovirus infections which could represent up to three species in a single tomato or cushaw plant. Phylogenetic grouping of virus sequences did not correlate with the host of origin.     

Yellowing disease in zucchini squash produced by mixed infections of Cucurbit yellow stunting disorder virus and Cucumber vein yellowing virus

Zucchini squash is host to Cucurbit yellow stunting disorder virus (CYSDV), a member of the genus Crinivirus, and Cucumber vein yellowing virus (CVYV), a member of the genus Ipomovirus, both transmitted by the whitefly Bemisia tabaci. Field observations suggest the appearance of new symptoms observed on leaves of zucchini squash crops when both viruses were present. When infected during controlled experiments with CYSDV only, zucchini plants showed no obvious symptoms and the virus titer decreased between 15 and 45 days postinoculation (dpi), after which it was no longer detected. CVYV caused inconspicuous symptoms restricted to vein clearing on some of the apical leaves and the virus accumulated progressively between 15 and 60 dpi. Similar accumulations of virus followed single inoculations with the potyvirus Zucchini yellow mosaic virus (ZYMV) and plants showed severe stunting, leaf deformation, and mosaic yellowing. However, in mixed infections with CYSDV and CVYV, intermediate leaves showed chlorotic mottling which evolved later to rolling, brittleness, and complete yellowing of the leaf lamina, with exception of the veins. No consistent alteration of CVYV accumulation was detected but the amounts of CYSDV increased ≈100-fold and remained detectable at 60 dpi. Such synergistic effects on the titer of the crinivirus and symptom expression were not observed when co-infected with ZYMV.     

The Helper Component-Proteinase of Sweet potato feathery mottle virus Facilitates Systemic Spread of Potato virus X in Ipomoea nil

ABSTRACT When Ipomoea nil was coinfected with Sweet potato feathery mottle virus (SPFMV), a member of the genus Potyvirus, and Potato virus X (PVX) typical symptoms caused by PVX were observed on those by SPFMV on the first upper true leaves at 14 days postinoculation (dpi). On the other hand, no PVX-induced symptoms were observed on the first upper true leaves at 14 dpi when plants were infected with PVX alone. In the case of coinfection with PVX and SPFMV, PVX RNA was detected not only in the inoculated cotyledonary leaves but also in the first upper true leaves at 14 dpi. In the case of single infection with PVX, PVX RNA was detected in the inoculated cotyledonary leaves but not in the first upper true leaves at 14 dpi. The accumulation of SPFMV remained unchanged, regardless of whether the inoculum consisted of SPFMV alone or a mixture of SPFMV and PVX. Although recombinant PVX engineered to express the helper component-proteinase (HC-Pro) of SPFMV (PVX.HC) enhanced symptoms severity in Nicotiana benthamiana, PVX.HC induced the synergism characterized by an enhanced viral movement in Ipomoea nil. Immunofluorescence microscopic examination revealed that the HC-Pro was present in phloem of SPFMV-infected I. nil. These results suggest that SPFMV HC-Pro acts as an enhancer of long distance movement for PVX in I. nil.     

黄瓜花叶病毒M株系引致烟草症状恢复的初步研究

 黄瓜花叶病毒M株系在白肋烟上具有典型的症状恢复现象,本研究用提纯病毒和DAS-ELISA建立了CMV-M病毒定量检测方法。研究发现,症状严重程度与叶片中的病毒浓度呈正相关:最早发病的黄化叶每克病组织中病毒可高达790 μg,而恢复叶片上部再发病的花叶症状病叶中每克病组织中病毒也可高达508 μg,恢复叶片中病毒含量很低,每克叶片中最高也没有超过6 μg,仅为发病叶片病毒浓度的1/85~1/135,远低于根和茎中的病毒浓度。RT-PCR和生物学检测结果表明恢复叶片中确实存在具侵染活性的病毒,而且病毒在长达半个月以上一直保持很低浓度。结果表明恢复叶中可能存在有效的病毒防御机制,其具体机理有待进一步研究。     

Two Amino Acid Substitutions in the Coat Protein of Pepper mild mottle virus Are Responsible for Overcoming the L(4) Gene-Mediated Resistance in Capsicum spp

ABSTRACT The Capsicum spp. L genes (L(1) to L(4)) confer resistance to tobamoviruses. Currently, the L(4) gene from Capsicum chacoense is the most effective resistance gene and has been used widely in breeding programs in Japan which have developed new resistant cultivars against Pepper mild mottle virus (PMMoV). However, in 2004, mild mosaic symptoms began appearing on the leaves of commercial pepper plants in the field which possessed the L(4) resistance gene. Serological and biological assays on Capsicum spp. identified the causal virus strain as a previously unreported pathotype, P(1,2,3,4). PMMoV sequence analysis of the virus and site-directed mutagenesis using a PMMoV-J of the P(1,2) pathotype revealed that two amino acid substitutions in the coat protein, Gln to Arg at position 46 and Gly to Lys at position 85, were responsible for overcoming the L(4) resistance gene.     

长时间低温处理有助于加强黄瓜花叶病毒CMV-BF 2b基因的多态性

将被黄瓜花叶病毒CMV-BF株系侵染的三生烟(Nicotiana tabacum var.Samsun NN)的不同单株分成两组分别置于高温(30±5℃)和低温(10±5℃)条件下,观察和分析CMV-BF侵染30、80 d时植株的症状表现及CMV2b基因的序列变异规律。结果表明:侵染30d时,在高温环境中的植株表现出畸形叶片较多、病毒症状较严重的现象,而低温培养的植株细弱,部分叶片大面积白化;2b基因DNA序列的多态性也以高温处理组略高于低温组,但差异未达到显著水平。侵染80 d时,高温组植株的病毒症状有所恢复,畸形叶片减少,而低温组植株除白化现象更严重外,畸形叶片增多;2b基因的多态性以低温处理组明显高于高温组,且达到显著水平(P0.05)。因此,长时间低温处理有助于加强CMV-BF2b基因的多态性,而且2b基因的多态性可能与植株的病毒症状表现相关。     

Salicylic Acid Suppresses Potato virus Y Isolate N:O-Induced Symptoms in Tobacco Plants

ABSTRACT The effects of salicylic acid (SA) and 1-aminocyclopropane-1-carboxylic acid (ACC) on the systemic development of symptoms induced by a severe isolate of Potato virus Y group N:O (PVY(N:O)) in tobacco were investigated. Upon inoculation, the systemic development of symptoms in tobacco plants could be divided into three stages: virus incubation stage, rapid symptom-progress stage, and partial recovery and symptom-shifting stage. Treatment of seedlings with SA delayed the virus-induced necrosis in stems by 1 to 2 days. SA, not ACC, also significantly suppressed the symptom severity in stems. However, neither SA nor ACC treatment affected the partial recovery phenotype exhibited in the latterly emerged upper parts of the plants. Further analysis indicated that the accumulation of PVY was retarded by SA at the early stage of infection, and the effects were more profound in stems than leaves. Peroxidase (POX) activity and pathogenesis-related (PR) genes PR-1a and PR-1b were enhanced by PVY infection. SA not only increased POX activity in stems and PR genes in stems and leaves of mock-inoculated plants, but also elevated the activity of POX in both leaves and stems and the expression of PR-1a in leaves of PVY-infected plants. Together, the results suggest that systemic acquired resistance plays a key role in suppressing PVY(N:O)-induced symptom development through SA-mediated and ethylene-independent pathways. The symptom suppression was correlated with reduced replication/ accumulation of virus at the early stage of infection. The results also suggest that neither SA nor ethylene plays a role in the recovery phenotype.     

侵染四川辣椒的番茄斑萎病毒和辣椒轻斑驳病毒的小RNA测序检测及鉴定

 调查发现四川省汶川县当地辣椒的病毒病严重且症状多样,病样粗提液摩擦接种辣椒、矮牵牛和三生烟,出现辣椒系统性花叶焦枯和茎尖坏死,指示植物表现局部枯斑。对3个不同症状的病果进行sRNA深度测序鉴定,发现均含有番茄斑萎病毒(Tomato spotted wilt virus,TSWV)和辣椒轻斑驳病毒(Pepper mild mottle virus,PMMoV)。通过RT-PCR技术进行验证,结果显示所有病样的果皮和部分新鲜种子以及回接寄主的病叶均检测到TSWV和PMMoV,表明该地辣椒病毒病是由TSWV和PMMoV复合侵染引起。这是TSWV侵染四川辣椒的首次报道。分别基于TSWV N基因序列和PMMoV CP基因序列构建系统发育树,汶川分离物TSWV-WC(MK468469)与贵州分离物(KP684518)亲缘关系最近,PMMoV-WC(MK408614)与北京分离物(AY859497)亲缘关系最近。推测该地辣椒病毒病可能与品种引进有关。     

北京地区辣椒上黄瓜花叶病毒和甜菜西方黄化病毒复合侵染的分子鉴定

辣椒是我国重要的蔬菜和经济作物,受多种病毒危害。2014年在北京市顺义区调查时发现部分种植的辣椒植株上叶片大面积黄化,边缘症状明显,个别植株叶片轻微上卷。提取典型症状样品的总RNA,反转录得到cDNA,分别用黄瓜花叶病毒(Cucumber mosaic virus,CMV)特异引物和马铃薯卷叶病毒属(Polerovirus)通用引物进行PCR检测,CMV特异引物和马铃薯卷叶病毒属通用引物分别扩增得到约650bp和1 400bp的特异条带。测序和核苷酸序列比对表明,其分别与CMV和甜菜西方黄化病毒(Beet western yellows virus,BWYV)序列同源性最高为99%和96%。这是对我国种植的辣椒上发生的CMV和BWYV复合侵染的首次报道。     

Pathogenesis of Alfalfa mosaic virus in Soybean (Glycine max) and Expression of Chimeric Rabies Peptide in Virus-Infected Soybean Plants

ABSTRACT Infection of soybean (Glycine max) plants inoculated with particles of Alfalfa mosaic virus (AlMV) isolate 425 at 12 days after germination was monitored throughout the life cycle of the plant (vegetative growth, flowering, seed formation, and seed maturation) by western blot analysis of tissue samples. At 8 to 10 days after inoculation, the upper uninoculated leaves showed symptoms of virus infection and accumulation of viral coat protein (CP). Virus CP was detectable in leaves, stem, roots, seedpods, and seed coat up to 45 days postinoculation (dpi), but only in the seedpod and seed coat at 65 dpi. No virus accumulation was detected in embryos and cotyledons at any time during infection, and no seed transmission of virus was observed. Soybean plants inoculated with recombinant AlMV passaged from upper uninoculated leaves of infected plants showed accumulation of full-length chimeric AlMV CP containing rabies antigen in systemically infected leaves and seed coat. These results suggest the potential usefulness of plants and plant viruses as vehicles for producing proteins of biomedical importance in a safe and inexpensive manner. Moreover, even the soybean seed coat, treated as waste tissue during conventional processing for oil and other products, may be utilized for the expression of value-added proteins.     

辣椒上烟草轻型绿花叶病毒的鉴定

 辣椒源自南美洲，属于茄科辣椒属（Capsicum L.），为重要经济作物。病毒病是影响辣椒生产的主要病害，侵染辣椒的病毒有40余种［1］，烟草轻型绿花叶病毒（Tobacco mild green mosaic virus, TMGMV）是近年来在辣椒上发生和危害报道较多的病毒之一。TMGMV是McKinney［2］于1935年在烟草属植物（Nicotiana gluanca）上首次发现的，为烟草花叶病毒属（Tobamovirus）成员。除辣椒外，番茄［3］、凤仙花、蓝眼菊和矮牵牛也是TMGMV的自然寄主。     

Patterns in disease progress and the influence of single and multiple viral infections on pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.) growth

The patterns and progress of disease caused by multiple infections of Cucumber mosaic virus (CMV), Pepper mild mottle virus (PMMoV) and Pepper mottle virus (PepMoV) and their effects on growth of pepper plants (Capsicum annuum L.) were investigated in this study. Each virus induced distinct symptoms, but more severe symptoms, including reduced growth rates, were observed when pepper plants were simultaneously infected by more than one virus. When CMV was included in multiple viral inoculations, co-inoculations and sequential inoculations, PepMoV and PMMoV symptoms were observed but the symptoms characteristic of CMV were not masked, even though CMV titre did not increase greatly. In multiple viral infections, PepMoV titre and CMV did not increase significantly, but PMMoV titre gradually increased in most cases. Growth rates of pepper plants were greatly reduced during the 30 to 40-day post-inoculation period under both single-infection and multiple-infection conditions, but multiple viral infections of CMV pre-inoculated peppers were affected to a greater extent. A significant reduction in fruit size and fruit number was observed in single and multiple viral inoculations, and fruit malformation rates were high in CMV single-infection and multiple viral infections with CMV.     

Characterization of Distinct Tombusviruses that Cause Diseases of Lettuce and Tomato in the Western United States

A soilborne disease of lettuce, associated with necrosis and dieback, has been found with increasing frequency in California and Arizona over the last 10 years. An isometric virus, serologically related to Tomato bushy stunt virus (TBSV), was consistently isolated from lettuce plants with these disease symptoms. Back-inoculation to healthy lettuce plants and subsequent reisolation of the virus from symptomatic lettuce leaves suggested that this virus was the causal agent of this disease. A tombusvirus was also associated with a necrosis disease of greenhouse-grown tomatoes in Colorado and New Mexico. Complementary DNA representing the 3' end of viral genomic RNAs recovered from diseased lettuce and tomato plants had identical nucleotide sequences. However, these sequences were divergent (12.2 to 17.1%) from sequences of the previously described strains of TBSV, Petunia asteroid mosaic virus (PAMV), Artichoke mottled crinkle virus, and Carnation Italian ringspot virus. Additional tombusvirus isolates were recovered from diseased lettuce and tomato plants and these were most closely related to the TBSV-cherry strain (synonymous with PAMV) and to Cucumber necrosis virus based on comparison of 3'-end sequences (0.1 to 0.6% and 4.8 to 5.1% divergence, respectively). Western blot analysis revealed that the new tombusvirus isolated from diseased lettuce and tomato plants in the western United States is serologically distinct from previously described tombusvirus species and strains. Based on genomic and serological properties, we propose to classify this virus as a new tombusvirus species and name it Lettuce necrotic stunt virus.     

大豆花叶病毒引发大豆不同症状的生理特性比较

以接种3个SMV株系后分别表现无症状、花叶和坏死症状的大豆品系浙A8901为材料,研究3类症状叶片的生理指标差异,包括细胞超微结构、H_2O_2积累、水杨酸(SA)含量、光合作用及细胞病毒含量。结果表明:无症状叶片细胞中除叶绿体片层结构轻微扭曲外,其它细胞结构未见异常;CeCl_3标记H_2O_2电镜观察,发现H_2O_2仅在细胞壁外侧少量积累;在接种1d后SA含量较对照显著升高。花叶症状叶片细胞中出现髓鞘状结构和多泡体结构,核膜边缘有染色质凝集现象;细胞壁外侧观察到较多H_2O_2的积累;SA含量在接种后第2 d较对照显著增加。坏死症状叶片中细胞变形严重,细胞器解体,在细胞壁外侧和细胞质中均观察到H_2O_2的大量积累;接种后第2 d SA含量较对照显著增加。三类症状叶片的光合速率、最大光能转化效率(Fv/Fm)和实际光量子效率(ΦPSⅡ)的测定发现,与对照相比均无显著变化。     

转CP基因线辣椒对CMV和CMV-RNA的抗病性比较

 本试验以转化CMV-CP和TMV-CP基因线辣椒纯合系作试材,比较了接种CMV粒体和CMV-RNA后的发病特点和叶片中的病毒含量。结果表明:转化线辣椒不仅能抵抗CMV粒体的侵染,而且还能抵抗CMV-RNA的侵染。不论接种CMV粒体或CMV-RNA,CP(+)线辣椒的系统症状都延迟出现,显症株率和病害严重度级别大幅度降低,病毒增殖和运转受到抑制,接种叶片与新生叶片中的病毒含量明显减低。这一结果证实CMV-RNA不能克服线辣椒由CP基因介导的抗病性。