Field Evaluation of Tomato Hybrids Engineered with Tomato spotted wilt virus Sequences for Virus Resistance, Agronomic Performance, and Pollen-Mediated Transgene Flow

ABSTRACT Tomato hybrids obtained from homozygous progeny of line 30-4, engineered for Tomato spotted wilt virus (TSWV) resistance, were tested under field conditions in two locations with their corresponding nontransgenic hybrids. No transgenic hybrid became infected, but 33 to 50% of plants of each nontransgenic hybrid became infected with a severe reduction of marketable fruit production. The transgenic hybrids conformed to the standard agronomic characteristics of the corresponding nontransgenic ones. Fruit were collected from the nontransgenic plots included in the experimental field and from border rows, and seed were used to estimate the flow of the transgene via pollen. No transgene flow was detected in the protected crops; however, in the open field experiment, 0.32% of tomato seedlings were found to contain the genetic modification. Immunity to TSWV infection in 30-4 hybrids was confirmed in laboratory conditions using mechanical inoculation and grafting. Thrips inoculation in leaf discs of line 30-4 demonstrated that TSWV replication was inhibited at the primary infection site but not in leaf discs of a commercial hybrid containing the naturally occurring resistance gene Sw-5. Due to the high economic value of tomato crops worldwide and the importance of TSWV, the engineered resistance described here is of practical value for breeding into cultivars of commercial interest, because it could be combined with naturally occurring resistance, thus greatly reducing the ability of the virus to develop resistance-breaking strains.     

Occurrence of Tomato infectious chlorosis virus (TICV) in Jordan

A new disease on tomato ( Lycopersicon esculentum L.) caused by Tomato infectious chlorosis virus (TICV) has been detected for the first time in Jordan. Disease symptoms consisted of interveinal yellowing areas in older leaves followed by generalized yellowing. Using specific primers, Tomato infectious chlorosis virus was detected in symptomatic plants by RT-PCR. The amplified fragment (416 bp) was cloned and sequenced. Results of sequence analysis showed that the Jordanian isolate of TICV shared high nucleotide similarity (> 98%) with two other isolates from Japan and France. The distribution of TICV has been investigated in four regions in the Jordan Valley by non-radioactive dot blot hybridization. Data from the study showed high incidence of the disease in all surveyed regions. In addition, the expected size of the coat protein gene of TICV could be amplified from two symptomatic weeds species, Chenopodium album and Chenopodium murale , indicating that these weeds are natural hosts for the virus.     

Synergistic Interaction Between Tomato chlorosis virus and Tomato spotted wilt virus Results in Breakdown of Resistance in Tomato

ABSTRACT Multiple viral infections frequently are found in single plants of cultivated and wild hosts in nature, with unpredictable pathological consequences. Synergistic reactions were observed in mixed infections in tomato plants doubly infected with the positive-sense and phloem-limited single-stranded RNA (ssRNA) crinivirus Tomato chlorosis virus (ToCV) and the negative-sense ssRNA tospovirus Tomato spotted wilt virus (TSWV). Synergism in a tomato cultivar susceptible to both viruses resulted in a rapid death of plants. A pronounced enhancement of ToCV accumulation mediated by TSWV co-infection was observed with no evident egress of ToCV from phloem tissues. No consistent alteration of TSWV accumulation was detected. More remarkable was the synergism observed in tomato cultivars which carry the Sw-5 resistance gene, which are resistant to TSWV. Pre-infection with ToCV resulted in susceptibility to TSWV, whereas co-inoculations did not. This suggested that a threshold level or a time lapse is needed for ToCV to interfere or downregulate the defense response in the TSWV-resistant plants.     

红花黄萎病病原菌鉴定

番茄斑萎病毒Tomato spotted wilt virus （TSWV）是我国进境植物检疫性有害生物,近年来相继在国内一些省份发现。利用 TSWV 的通用引物 NF302／NR575对从山东烟台地区收集的15份疑似感染番茄斑萎病毒病的番茄样品进行检测;进一步对特异引物 TSWV-NF2037／TSWV-NR2825扩增的 TSWV 的 N 基因序列克隆、测序,并对 N 基因片段编码氨基酸进行遗传距离及系统发育分析。结果表明,15份疑似样品中有4个样品扩增得到 TSWV 病毒片段;基于 N 基因序列分析发现,山东 TSWV 番茄分离物与云南 TSWV 番茄分离物（AEI70836．1）的遗传距离最近,为0．8％,且与云南 TSWV 番茄分离物聚为一支。这是山东地区首次利用分子标记证实番茄斑萎病毒病的危害。     

4种番茄病毒多重RT-PCR检测及应用

<正>番茄是全世界栽培最为普遍的果菜之一,2011年世界番茄栽培面积约805万亩,年产量约3 773万t,我国是世界番茄种植大国之一,2011年面积96667公顷,产量约679万t,随着番茄种植面积不断扩大,番茄病毒病的危害逐年加重~([1])。世界范围内番茄除了已有的TMV抗病资源与育成的抗     

Biological and molecular characterization of tomato spotted wilt virus (TSWV) resistance-breaking isolates from Argentina

Tomato spotted wilt virus (TSWV) has been present in Argentina since 1938 and had limited sweet pepper and tomato production until the introduction of resistant cultivars bearing Tsw and Sw-5b genes. However, the wide use of TSWV-resistant pepper plants in La Plata Horticultural Belt (LPHB) triggered the emergence of resistance-breaking isolates (RB), increasing the economic impact of TSWV in pepper. This work characterized 11 natural RB pepper isolates from LPHB that have overcome the Tsw resistance gene in Capsicum sp. but are unable to break the Sw-5b-mediated resistance in tomato. Phylogenetic analysis of the N gene showed that the LPHB isolates are most closely related to isolates from Asia, indicating that Argentine TSWV isolates might have emerged from the Asian continent. The NSs sequence analysis reinforces the hypothesis that the appearance of an RB phenotype is a consequence of a number of different single amino acid substitutions spread along the NSs gene that lead to multiple independent evolutionary events. These results provide information on the current situation of the tospovirus–pepper/tomato pathosystems in LPHB, which represents a fundamental prerequisite to include these RB isolates in future screening programmes in order to select new and durable sources of resistance to TSWV in pepper.     

Nucleocapsid Gene-Mediated Transgenic Resistance Provides Protection Against Tomato spotted wilt virus Epidemics in the Field

ABSTRACT Transformation of plants with the nucleocapsid (N) gene of Tomato spotted wilt tospovirus (TSWV) provides resistance to disease development; however, information is lacking on the response of plants to natural inoculum in the field. Three tobacco cultivars were transformed with the N gene of a dahlia isolate of TSWV (TSWV-D), and plants were evaluated over several generations in the greenhouse. The resistant phenotype was more frequently observed in 'Burley 21' than in 'KY-14' or 'K-326', but highly resistant 'Burley 21' transgenic lines were resistant to only 44% of the heterologous TSWV isolates tested. Advanced generation (R(3) and R(4)) transgenic resistant lines of 'Burley 21' and a 'K-326' F(1) hybrid containing the N genes of two TSWV isolates were evaluated in the field near Tifton, GA, where TSWV is endemic. Disease development was monitored by symptom expression and enzyme-linked immunosorbent assay (ELISA) analysis. Whereas incidence of TSWV infection in 'Burley 21' susceptible controls was 20% in 1996 and 62% in 1997, the mean incidence in transgenic lines was reduced to 4 and 31%, respectively. Three transgenic 'Burley 21' lines were identified that had significantly lower incidence of disease than susceptible controls over the two years of the study. In addition, the rate of disease increase at the onset of the 1997 epidemic was reduced for all the 'Burley 21' transgenic lines compared with the susceptible controls. The 'K-326' F(1) hybrid was as susceptible as the 'K-326' nontransformed control. ELISA analysis demonstrated that symptomless plants from the most resistant 'Burley 21' transgenic lines accumulated detectable nucleocapsid protein, whereas symptomless plants from more susceptible lines did not. We conclude that transgenic resistance to TSWV is effective in reducing incidence of the disease in the field, and that accumulation of transgene protein may be important in broad-spectrum resistance.     

Assessment of the effectiveness of Ty genes in tomato against tomato leaf curl Bangalore virus

Tomato leaf curl Bangalore virus (ToLCBaV), a monopartite begomovirus transmitted by the whitefly Bemisia tabaci, has become a major constraint in tomato production in the Indian subcontinent. Earlier breeding efforts in India led to the adoption of tomato cultivars carrying the resistance gene Ty-2. However, it has been observed recently that such cultivars/hybrids are susceptible to begomoviruses. This requires the identification of additional or new sources of resistance against ToLCBaV. The present study was undertaken to assess the effectiveness of several Ty genes in providing resistance against infection by ToLCBaV. The kinetics of virus multiplication in different Ty resistance gene stocks of tomato were estimated and compared using quantitative PCR data. Accumulation of viral genomic units and symptom severity were lower in tomato lines carrying Ty-3 and Ty-2 + Ty-3 compared with those carrying Ty-2 alone. All tested lines carrying Ty-2 showed typical tomato leaf curl disease symptoms. Tomato lines carrying Ty-2 + ty-5 and ty-5 + Ty-6 combinations had a significantly higher disease severity index and viral genomic units compared to those carrying Ty-3 and Ty-2 + Ty-3 at 30 days postinoculation. The accumulation level of ToLCBaV genomic units serves as a good indicator for resistance selection along with other parameters of disease. We present here a comprehensive overview of the effectiveness of Ty-2, Ty-3, and ty-5 alone as well as the combinations Ty-2 + Ty-3 and Ty-2 + ty-5 against ToLCBaV.     

不同番茄品种对5种植物双生病毒的抗病性鉴定

 由粉虱传双生病毒引起的番茄曲叶病［1］在我国最初仅分布在海南、云南、广东和广西,自2006年上海市和浙江省先后在番茄上发现番茄黄化曲叶病毒（Tomato yellow leaf curl virus,TYLCV）以来,该病害蔓延迅速,在多个省份的番茄上暴发成灾［2］。引起番茄曲叶病害的病原较复杂,在我国其主要病原为TYLCV、中国番木瓜曲叶病毒（Papaya leaf curl China virus, PaLCuCNV）、中国番茄黄化曲叶病毒(Tomato yellow leaf curl China virus, TYLCCNV)、泰国番茄黄化曲叶病毒（Tomato yellow leaf curl Thailand virus, TYLCTHV）和台湾番茄曲叶病毒（Tomato leaf curl Taiwan virus, ToLCTWV）［2~5］,而浙江省的主要病原为TYLCV和ToLCTWV。选育抗病品种是防治番茄黄化曲叶病最有效的手段。了解番茄品种对不同双生病毒的抗性,对因地制宜布局抗病品种具有重要意义。浙杂502、浙粉701、浙粉702是浙江省大规模种植的番茄品种,为了解这些品种对上述5种病毒的抗性,本研究利用5种病毒的侵染性克隆,在人工接种条件下,综合评定分析这3个番茄品种的抗病指标。     

Biological and molecular analyses of the acibenzolar-S-methyl-induced systemic acquired resistance in flue-cured tobacco against Tomato spotted wilt virus

Tomato spotted wilt virus (TSWV) is an economically important virus of flue-cured tobacco. Activation of systemic acquired resistance (SAR) by acibenzolar-S-methyl (ASM) in flue-cured tobacco was studied under greenhouse conditions by challenge inoculation with a severe isolate of TSWV. ASM restricted virus replication and movement, and as a result reduced systemic infection. Activation of resistance was observed within 2 days after treatment with ASM and a high level of resistance was observed at 5 days onward. Expression of the pathogenesis-related (PR) protein gene, PR-3, and different classes of PR proteins such as PR-1, PR-3, and PR-5 were detected at 2 days post-ASM treatment which inversely correlated with the reduction in the number of local lesions caused by TSWV. Tobacco plants treated with increased quantities of ASM (0.25, 0.5, 1.0, 2.0, and 4.0 g a.i./7,000 plants) showed increased levels of SAR as indicated by the reduction of both local and systemic infections by TSWV. The highest level of resistance was at 4 g a.i., but this rate of ASM also caused phytotoxicity resulting in temporary foliar spotting and stunting of plants. An inverse correlation between the TSWV reduction and phytotoxicity was observed with the increase of ASM concentration. ASM at the rate of 1 to 2 g a.i./7,000 plants activated a high level of resistance and minimized the phytotoxicity. Use of gibberellic acid in combination with ASM reduced the stunting caused by ASM. Present findings together with previous field experiments demonstrate that ASM is a potential option for management of TSWV in flue-cured tobacco.     

The competence of four thrips species to transmit and replicate four tospoviruses

The tospoviruses Tomato spotted wilt virus (TSWV), Tomato chlorotic spot virus (TCSV), Groundnut ringspot virus (GRSV) and Chrysanthemum stem necrosis virus (CSNV) are well-known pathogens on tomato in Brazil. The thrips species Frankliniella occidentalis , F. schultzei , Thrips tabaci and T. palmi were studied for their competence to transmit these tospoviruses. Frankliniella occidentalis transmitted all four tospoviruses with different efficiencies. Frankliniella schultzei transmitted TCSV, GRSV and CSNV. Although F. schultzei has been reported as a vector of TSWV, the F. schultzei population in the present study did not transmit the TSWV isolate used. A population of T. tabaci known to transmit Iris yellow spot virus (onion isolate) did not transmit any of the studied tospoviruses, and nor did T. palmi . Replication of these tospoviruses could be demonstrated by ELISA, not only in the thrips species that could transmit them, but also in those that could not. The results strongly suggest that competence to transmit is regulated not only by the initial amount of virus acquired and replication, but also by possible barriers to virus circulation inside the thrip's body.     

Acquisition of Tomato spotted wilt virus by Adults of Two Thrips Species

ABSTRACT Only larval thrips that acquire Tomato spotted wilt virus (TSWV), or adults derived from such larvae, transmit the virus. Nonviruliferous adults can ingest virus particles while feeding on TSWV-infected plants, but such adult thrips have not been shown to transmit TSWV. Immunofluorescence microscopy was used to show that thrips 1, 5, 10, and 20 days after adult emergence (DAE) fed on TSWV-infected plants acquired TSWV with virus replication and accumulation occurring in both epithelial and muscle cells of Frankliniella fusca (tobacco thrips [TT]) and F. occidentalis (western flower thrips [WFT]), as indicated by immunodetection of the nonstructural (NSs) protein encoded by the small RNA and the nucleocapsid (N) protein, respectively. Adult WFT acquired TSWV more efficiently than TT. There was no significant effect of insect age on TSWV acquisition by TT. In contrast, acquisition by adult WFT at 1 and 5 DAE was higher than acquisition at 10 and 20 DAE. Subsequent transmission competence of adult cohorts was studied by vector transmission assays. All adult thrips tested that had an acquisition access period as an adult were unable to transmit the virus. These results indicate the susceptibility of adult TT and WFT to infection of midgut cells by TSWV and subsequent virus replication and confirm earlier studies that adult thrips that feed on virus-infected plants do not transmit the virus. The role of a tissue barrier in TSWV movement and infection from midgut muscle cells to the salivary glands is discussed.     

黑龙江地区番茄斑萎病毒的鉴定及其部分生物学特征分析

近年来,番茄斑萎病毒Tomato spotted wilt tospovirus (TSWV)在我国多个地区发生严重危害。本研究采用小RNA深度测序和RT-PCR相结合的方法对采自黑龙江的番茄病毒病样品中的病毒进行了鉴定。提取番茄样品的RNA并构建小RNA文库进行测序,数据分析发现比对至TSWV基因组的reads数占比对到病毒核酸总reads数的92.64%,表明侵染此番茄样品的病原物可能是TSWV。利用RT-PCR方法进一步确定侵染此番茄样品的病毒为TSWV,将其命名为TSWV-HLJ1。对TSWV-HLJ1的核苷酸序列进行分析并构建系统进化树,结果表明TSWV-HLJ1与TSWV云南甜椒分离物(TSWV-YNgp)的亲缘关系最近。介体传毒试验表明,西花蓟马可将TSWV-HLJ1传播感染健康寄主植物。摩擦接种试验表明,TSWV黑龙江分离物能够侵染本氏烟、辣椒和番茄。这是我国首次报道在黑龙江地区发现TSWV的危害。     

广东西瓜上检测到甜瓜黄斑病毒

在广东发现了可能被番茄斑萎病毒属(Tospovirus)病毒侵染的西瓜,采用ELISA和RT-PCR法对该西瓜病样进行了检测,西瓜病叶粗汁液不与番茄斑萎病毒(Tomato spotted wilt virus,TSWV)和西瓜银斑驳病毒(Watermelon silver mottle virus,WSMoV)的血清发生反应;利用引物J13/UHP通过RT-PCR可以扩增出约1400 bp的基因片段,该片段包括一个840 bp的核衣壳蛋白ORF,其推导的氨基酸序列与已报道的Melon yellow spot virus(MYSV)NP基因氨基酸序列的同源率都为99%,进化树分析表明侵染广东西瓜的病毒(命名为MYSV-GZ)属于Tospovirus的MYSV血清组。     

Ultrastructural aspects of tomato leaves infected by Tomato torrado virus (ToTV) and co‐infected by other viruses

Optical and electron microscopy studies were carried out to investigate the cytopathology induced in tomato leaves infected by Tomato torrado virus (ToTV), a new picorna‐like virus associated with the ‘Torrado’ disease. Infected leaves, showing typical Torrado disease symptoms were surveyed in commercial greenhouses in the main tomato production areas of Spain. The effect of the co‐infection of ToTV with other viruses which commonly infect tomato crops was also studied. Ultra‐thin sections of ToTV‐infected tomato leaves did not show a strong cellular alteration. However, crystalline arrays of isometric virus‐like particles (VLPs) of 20–30 nm in the inclusion bodies were observed in phloem parenchyma cells of the infected tissues. Tissues co‐infected by ToTV and either Tomato chlorosis virus (ToCV) or Pepino mosaic virus (PepMV) presented more severe cellular alterations. The most deleterious consequences for tomato cells were found in triple infections of ToTV, PepMV and Tomato spotted wilt virus (TSWV), where characteristic cell wall overgrowth was distinguishable, together with a large amount of necrotic cells.     

宁夏设施番茄病毒病病原鉴定

正番茄病毒病是番茄(Solanum lycopersicum)安全生产的主要限制因素,感染番茄作物的病毒种类高达136 种~[1]。小RNA测序和组装技术(small RNA sequencing and assembly, sRSA)已用于不同物种的病毒检测~[2]。Xu等~[2]对采自我国的170个番茄样本进行小RNA深度测序分析,鉴定出22种病毒。其采样地点未包括宁夏回族自治区。宁夏是我国重要的设施番茄生产基地, 2011 年宁夏银川市     

Assessing the susceptibility of chrysanthemum cultivars to tomato spotted wilt virus

Three methods were compared to assess the susceptibility of vegetatively propagated chrysanthemum to tomato spotted wilt tospovirus (TSWV): mechanical and thrips-mediated inoculation of whole plants, and a leaf-disc assay. As symptom expression was often poor or even absent, TSWV infections and subsequent susceptibility to TSWV were determined by ELISA. All 15 chrysanthemum cultivars tested were susceptible to TSWV, irrespective of their degree of vector resistance (based on feeding-scar damage rates). Thrips-mediated inoculation using different numbers of thrips revealed that 100% infection was obtained when plants were challenged by six thrips per plant, whereas 80 and over 50%, respectively, of the plants became infected when inoculated by a single male or female thrips. However, false negatives were scored even after intensive sampling because of erratic, cultivar-specific and time-dependent virus distribution after inoculation in the plants. Labour-intensive samplings and long incubation periods could be overcome by a readily applicable leaf-disc assay. This assay was as reliable as thrips-mediated inoculation of whole plants, and its use is therefore favoured to assess chrysanthemum cultivars for TSWV susceptibility.     

Viruses of vegetable crops in Albania

Field surveys were carried out in the main vegetable-growing areas of Western and Central Albania to evaluate the sanitary status of open-field and protected cultivations of capsicum, tomato, potato, watermelon, cucumber, courgette, aubergine, lettuce, cabbage, chicory, leek and celery. The following viruses were detected: Alfalfa mosaic alfamovirus (AMV), Cucumber mosaic cucumovirus (CMV), Potato Y potyvirus (PVY), Tomato spotted wilt tospovirus (TSWV) and Watermelon mosaic potyvirus 2 (WMV-2). The virus found most frequently was CMV and all the isolates identified were of subgroup IA. AMV was also detected in several areas and all isolates were of subgroup II, suggesting a French origin. Finally, at the time of this survey, TSWV infections appeared to be moderately relevant and absent in protected crops. This is the first documented record of AMV, CMV, PVY, TSWV and WMV-2 in Albania. No infection by Tomato yellow leaf curl begomovirus (TYLCV) or Zucchini yellow mosaic potyvirus (ZYMV) was detected during this survey.     

Phenotypic expression, stability, and inheritance of a recessive resistance to monopartite begomoviruses associated with tomato yellow leaf curl disease in tomato

Tomato-infecting begomoviruses comprise a complex of monopartite and bipartite virus species that cause severe yield and quality losses worldwide. Therefore, the availability of wide spectrum resistance for begomovirus control is desirable. However, limited sources of resistance are available. In this study, three tomato inbred lines with resistance to bipartite begomoviruses of Brazil were tested for resistance to monopartite begomoviruses associated with the tomato yellow leaf curl disease (TYLCD). Stable resistance to Tomato yellow leaf curl virus was observed either by inoculation with Bemisia tabaci or with Agrobacterium tumefaciens using an infectious clone. The resistance resulted in a complete absence of TYLCD symptoms and restricted virus accumulation. Further studies performed with the line '468-1-1-12' indicated that the resistance was also effective against three other virus species associated with TYLCD, indicating wide spectrum resistance of this source. Quantitative genetics analyses suggested that a major recessive locus with epistatic interactions is controlling the resistance to TYLCD in '468-1-1-12', which could facilitate introgression of this trait into elite tomato lines. The resistance was stable under field conditions with high TYLCD pressure. Mild symptoms could be observed in these conditions, and recovery from disease and from virus infection suggested an active host antiviral defense mechanism. The differential reaction of '468-1-1-12' against a number of TYLCD-associated viruses and artificial chimeras between them allowed to identify a region of the virus genome that presumably contains a virus determinant for breaking the resistance to infection observed in '468-1-1-12'.     

Analysis of gene sequences for the nucleocapsid protein from <Emphasis Type="Italic">Tomato spotted wilt virus</Emphasis> for promoting RNA-mediated cross-protection using the <Emphasis Type="Italic">Potato virus X</Emphasis> vector system

Virus interactions between Tomato spotted wilt virus (TSWV) and Potato virus X (PVX) containing the nucleocapsid protein (N) gene sequences were examined to evaluate the capacity of the N gene sequences from TSWV to promote RNA-mediated cross-protection. Plants simultaneously inoculated with TSWV and PVX containing the 3 96bp of the N gene were highly resistant to TSWV infection, whereas no such resistance was observed in plants inoculated with TSWV and PVX containing the 5 96bp. These results suggest that the 3 portion of the N gene has a higher capacity for promoting RNA-mediated cross-protection of TSWV.