Tomato chlorosis virus p22 interacts with NbBAG5 to inhibit autophagy and regulate virus infection

Tomato chlorosis virus (ToCV) is a member of the genus Crinivirus in the family Closteroviridae. It has a wide host range and wide distribution, causing serious harm to the vegetable industry. The autophagy pathway plays an important role in plant resistance to virus infection. Viruses and plant hosts coevolve in defence and antidefence processes around autophagy. In this study, the interaction between ToCV p22 and Nicotiana benthamiana B-cell lymphoma2-associated athanogenes5 Nicotiana benthamiana (NbBAG5) was examined. Through overexpression and down-regulation of NbBAG5, results showed that NbBAG5 could negatively regulate ToCV infection. NbBAG5 was found to be localized in mitochondria and can change the original localization of ToCV p22, which is colocalized in mitochondria. NbBAG5 inhibited the expression of mitophagy-related genes and the number of autophagosomes, thereby regulating viral infection by affecting mitophagy. In summary, this study demonstrated that ToCV p22 affects autophagy by interacting with NbBAG5, established the association between viral infection, BAG proteins family, and the autophagy pathway, and explained the molecular mechanism by which ToCV p22 interacts with NbBAG5 to inhibit autophagy to regulate viral infection.     

Screening additional wild tomatoes for resistance to the whitefly-borne tomato yellow leaf curl virus

Plants of 25 wild Lycopersicon accessions were screened in the greenhouse for resistance to the whitefly-borne tomato yellow leaf curl virus (TYLCV). High levels of resistance were detected in 7 of 9 accessions of L. peruvianum and in all 5 accessions of L. chilense tested. In contrast, plants of 7 accessions of L. hirsutum and 3 of 4 accessions of L. pimpinellifolium were highly susceptible. Plants of accession CIAS 27 (L. pimpinellifolium) showed moderate resistance to TYLCV.     

Induced systemic resistance to tomato leaf curl virus and increased yield in tomato by plant growth promoting rhizobacteria under field conditions

The talc-based formulation of two Pseudomonas fluorescens strains (Pf1 and VPT10) and its mixture (with and without chitin) were tested against tomato leaf curl virus in tomato under greenhouse and field conditions. The mean percentage of tomato leaf curl virus infected plants were significantly lower (25%) with less symptom severity and delayed symptom expression up to nine additional days in Pseudomonas with chitin (VPT10 + chitin) treated tomato plants compared to non-bacterised control plants upon challenge inoculation with tomato leaf curl virus. Tomato leaf curl virus was partially purified and antiserum was developed. Using the antiserum the tomato leaf curl virus was detected in symptomatic leaves and in whitefly vector through direct antigen coating enzyme linked immunosorbent assay which revealed the low virus titre in Pseudomonas treated plants (VPT10 + chitin) and insect vector compared to untreated tomato plants. The results indicate the potentiality of plant growth promoting rhizobacteria strains and talc-powder formulations in the effective management of this tomato leaf curl virus in tomato under field conditions.     

The contribution of tomato and alternative host plants to tomato leaf curl virus inoculum pressure in different areas of South India

Indian tomato leaf curl virus (ToLCV) (Geminiviridae: Sub-group III) was detected both in field-collected and laboratory-reared B. tabaci using a triple-antibody sandwich enzyme-linked immunosorbent assay (TAS-ELISA). ToLCV was detected in six of the 10 group samples of field collected B. tabaci. ToLCV was also identified in 13 weed species commonly found in Karnataka, both by symptom expression and TAS-ELISA. ToLCV from c. 61% of infected plants was transmitted successfully to tomato by B. tabaci. Tomato plots were planted at three locations on the University of Agricultural Sciences Campus, Bangalore. Indian tomato leaf curl virus disease (ToLCVD) incidence increased most rapidly when the tomato plot was situated adjacent to an older ToLCVD-infected tomato field. When the plots were positioned in a dryland or a wetland area, at least 500 m away from any infected tomato fields, the ToLCVD incidence increased less rapidly, although in all sites it was 100% by 11 wk after transplanting. The numbers of B. tabaci caught on yellow traps in all sites increased during weeks 1–3 after transplanting and thereafter remained at between 10–15 adults trap^-1 24 h^_1. Adult numbers recorded on tomato plants by direct counts remained approximately constant at 2–4 adults plant“”¹. Tomato fields were planted in three taluks (administrative areas) of Karnataka, that had different current and previous histories of tomato production. ToLCVD incidence increased most and least rapidly, respectively, in Kolar taluk where tomato is grown continuously and Doddaballapur tuluk where tomato was grown in the area for the first time. In Malur tuluk, where tomato was grown discontinuously (once a year), the incidence of ToLCVD increased at an intermediate rate. Weed host-plant species growing near the experimental sites had averages of between 1.5–10.0 B. tabaci nymphs per plant, whereas the tomato plants had only 0.3 nymphs per plant. The percentage parasitism of B. tabaci nymphs on tomato and weed species, respectively, was 0.7% and 2–6%. Nymphs and pupae were parasitised by an Encarsia sp. and Eretmocerus mundus Mercet. The relevance and implications of these findings for the epidemiology and management of ToLCVD in Karnataka State, South India is discussed.     

Structure of the tomato bushy stunt virus: a model for protein-RNA interaction

The structure of tomato bushy stunt virus has been investigated by neutron small-angle scattering. Data were collected in aqueous solutions containing various amounts of D₂O, and the radial distribution of both protein and RNA could be computed. The main feature of that distribution is the clustering of protein into two concentric shells separated by about 30 Å, where the density is so low that the polypeptide chain must be extended. Most of the RNA is located between these two protein shells. The implications of that structure for protein-RNA interactions are discussed.     

Selection for virus resistance in tomato exposed to tissue culture procedures

Protocols elaborated with the objective of achieving valuable material for selection procedure of variants with virusresistance traits in tomato genotypes are presented. Preliminary results are demonstrated in the domain of testing for variability in somaclones obtained through indirect adventitous organogenesis initiated on leaf explants of cultivated tomato (Lycopersicon esculentum Mill.). Somaclones were grown in greenhouse conditions and variation of their symptoms upon infection with tomato mosaic (ToMV) or cucumber mosaic (CMV) respectively was observed. Tests for resistance to the local isolates of the above cited viruses were performed using enzyme linked immunosorbent assay and back inoculation onto diagnostic plants. Screening data are presented. Desirable variants were selected from cultivars ‘Moneymaker’, ‘Potentat’ and ‘Rutgers’. Some of the ‘Moneymaker’ somaclones exhibited increased tolerance to cucumber mosaic virus, a few seemed to be even fully resistant though most were susceptible as donor plants. The most favourable somaclonal lines are actually further tested and monitored for changes in horticultural characteristics. The described procedure of searching for resistance trait in specific pathogen-free (SPF) plants regenerated from infected tissue looks promising and thus can serve as aid in attaining appropriate objectives of breeding programme. Additionaly experiments were initiated to obtain somaclones from cultivars ‘Beta’, ‘Krakus’ and Stevens Rodade hybrid via regeneration of isolated protoplasts. To this end the callus stage was obtained from all donors.     

番茄玉米间套作对烟粉虱的屏障效应及控制番茄黄化曲叶病毒病的效果

为探讨番茄与玉米间套作对烟粉虱的趋避效应及控制番茄黄化曲叶病毒病的效果,设置番茄品种‘金山511'以固定株行距与玉米品种‘先玉335'分别以10、20、30 cm的播种株距进行间作套种,调查3种栽培方式对烟粉虱屏障效应及黄化曲叶病毒病发生的影响。结果表明: 与番茄单作相比,玉米植株建立起的自然屏障使番茄生长环境相对稳定,玉米播种株距为10、20、30 cm时,番茄植株在6:00—20:00的平均温度分别降低3.01、2.26和1.45 ℃,平均相对湿度分别提高13.0%、8.8%、6.0%,平均光照强度分别降低26.1%、20.4%和14.5%;在每日的高温时段可显著降低番茄温度,提高湿度,减少光照强度,有效缓解强光、高温和干旱等有利于病毒病发生的不良环境条件,且在玉米播种距离为10 cm时效果最好。番茄间作玉米对烟粉虱有趋避效应,能抑制番茄黄化曲叶病毒病的发生,玉米株距为10、20、30 cm时,烟粉虱虫口数分别比单作减少88.7%、82.0%、73.9%,对病毒病的抑制作用呈减弱趋势,间作病情指数分别显著降低67.3%、59.4%和44.5%。玉米/番茄间作的种植模式有利于番茄植株生长和坐果,可提升番茄产量,玉米种植密度越高,效果越好,本试验条件下以玉米种植株距10 cm效果最好。     

高抗番茄黄化曲叶病毒病番茄新品种浙粉702的选育及抗病性鉴定

高抗黄化曲叶病毒病番茄新品种浙粉702是以自育株系材料T7969F2-19-1-1-3为母本,T4078F2-3-3-3为父本,结合分子标记辅助技术选育的杂交一代粉红大果型番茄品种。母本‘T7969F2-19-1-1-3’系从以色列引进的耐贮运番茄品种‘NEMO-TAMMI’（F1）与抗叶霉病粉红株系材料‘T9179’杂交分离后代中经连续9代单株选择而成。父本‘T4078F2-3-3-3’系从荷兰引进的抗TYLCVD番茄品种‘奇诺亚’（F1）与粉红株系材料‘T9178’杂交分离后代中经连续8代单株选择而成。该品种2011年通过浙江省非主要农作物认定委员会认定。通过对浙粉702园艺性状、产量性状、品质性状和抗病性等进行研究,结果表明：浙粉702 品质优良,早熟,丰产,高抗番茄黄化曲叶病毒病,枯萎病,抗叶霉病和番茄花叶病毒病,适合我国喜食粉果地区种植,平均可达73.83 t.hm-2。     

Negatively supercoiled DNA from plants infected with a single-stranded DNA virus

A method for isolating covalently closed circular double-stranded DNA from plants infected with the geminivirus, tomato golden mosaic virus, is described. Ethidium bromide titration showed this DNA to be negatively supercoiled with a superhelical density of -0.062. The presence of S1 nuclease-sensitive secondary structure in the supercoiled DNA was demonstrated by its conversion to the open circular and linear DNA forms on treatment with this enzyme.     

Tomato yellow leaf curl virus and Tomato leaf curl Taiwan virus Invade South-east Coast of China

An epidemic outbreak of severe yellow leaf curl disease was reported in field grown tomato within Zhejiang Province of China in the autumn–winter cropping season of 2006. A molecular diagnostic survey was carried out based on comparisons of partial and complete viral DNA sequences. Comparison of partial DNA‐A sequences amplified with degenerate primers specific for begomoviruses confirmed the presence of two types of begomoviruses. The complete DNA sequences of five isolates, corresponding to the two types, were determined. Sequence comparisons and phylogenetic analysis revealed that they correspond to two previously identified begomoviruses, Tomato yellow leaf curl virus and Tomato leaf curl Taiwan virus. The satellite DNAβ molecule was not detected in these samples by either PCR or Southern blot hybridization analysis. There has been no previous report of geminivirus disease incidence in Zhejiang Province, indicating that the introduction of these two tomato infecting geminiviruses into the agro‐ecological zone of South‐eastern China is a fairly recent event. The implications for disease control are discussed.     

Transmission of tomato leaf curl geminiviruses by Bemisia tabaci: effects of virus isolate and vector biotype

Cultures of Bemisia tabaci from Ivory Coast (IC), Pakistan (PK) and USA (US B-type) were compared for the frequency with which they transmitted three tomato geminivirus isolates: Indian tomato leaf curl virus from Bangalore (ITmLCV), and tomato yellow leaf curl viruses from Nigeria (TYLCV-Nig) and Senegal (TYLCV-Sen). Frequency of transmission from tomato to tomato depended both on the whitefly culture and the virus isolate. US B-type and IC whiteflies transmitted TYLCV-Sen more frequently than ITmLCV whereas PK whiteflies transmitted ITmLCV more frequently than TYLCV-Sen. US B-type whiteflies transmitted both viruses four to nine times more frequently than IC whiteflies. TYLCV-Nig was transmitted rarely by US B-type and not at all by IC whiteflies. Previous work indicates that the geminivirus coat protein controls vector transmissibility. The differential adaptation of TYLCV-Sen to transmission by US B-type whiteflies and of ITmLCV to PK whiteflies was associated with a large difference in epitope profile of the coat proteins of the two viruses. Also, the readily transmissible TYLCV-Sen differed appreciably in epitope profile from the poorly transmissible TYLCV-Nig, which reached a consistently greater concentration in source tissues but lacked epitope 18. However, the lack of epitope 18 in ITmLCV did not prevent its transmission by US B-type whiteflies. Differences in frequency and specificity of geminivirus transmission by whitefly cultures from different countries therefore were associated with differences among epitope profiles of the coat proteins of the viruses, but the structural features of the proteins that control transmission remain to be determined.     

Tomato lines segregation for resistance to cucumber mosaic virus

15 lines were bred by interspecific hybridisation and I1 to I6 generation of three of them were tested for resistance to CMV. In spite of the selection by CMV resistance in the progenies the number of the resistant plants did not always increase. The progenies having 100 % symptomless plants for two or more consecutive years were not selected in the studied lines. A large spectrum of variations in the percentage of symptomless plants in the progenies per year and the presence of disease and symptomless parts in one plant were established. These results are possibly due to the complex mechanism of inheritance of CMV resistance as well as to the influence of environmental factors on the expression of the resistance observed     

Extreme resistance to cucumber mosaic virus (CMV) in transgenic tomato expressing one or two viral coat proteins

For the production of broad commercial resistance to cucumber mosaic virus (CMV) infection, tomato plants were transformed with a combination of two coat protein (CP) genes, representing both subgroups of CMV. The CP genes were cloned from the CMV-D strain and Italian CMV isolates (CMV-22 of subgroup I and CMV-PG of subgroup II) which have been shown to produce severe disease symptoms. Four plant transformation vectors were constructed: pMON18774 and pMON18775 (CMV-D CP), pMON18831 (CMV-PG CP) and pMON18833 (CMV-22 CP and CMV-PG CP). Transformed R0 plants were produced and lines were selected based on the combination of three traits: CMV CP expression at the R0 stage, resistance to CMV (subgroup I and/or II) infection in growth chamber tests in R1 expressing plants, and single transgene copy, based on R1 segregation. The results indicate that all four vector constructs generated plants with extremely high resistant to CMV infection. The single and double gene vector construct produced plants with broad resistance against strains of CMV from both subgroups I and II at high frequency. The engineered resistance is of practical value and will be applied for major Italian tomato varieties. This revised version was published online in June 2006 with corrections to the Cover Date.     

Transmission of Pepino mosaic virus by the Fungal Vector Olpidium virulentus

Transmission of Pepino mosaic virus (PepMV) by the fungal vector Olpidium virulentus was studied in two experiments. Two characterized cultures of the fungus were used as stock cultures for the assay: culture A was from lettuce roots collected in Castellón (Spain), and culture B was from tomato roots collected in Murcia (Spain). These fungal cultures were maintained in their original host and irrigated with sterile water. The drainage water collected from irrigating these stock cultures was used for watering PepMV‐infected and non‐infected tomato plants to constitute the acquisition–source plants of the assay, which were divided into six different plots: plants containing fungal culture A (non‐infected and PepMV‐infected); plants containing fungal culture B (non‐infected and PepMV‐infected); PepMV‐infected plants without the fungus; and plants non‐infected either with PepMV and the fungus. Thirty‐six healthy plants grouped into six plots, which constituted the virus acquisition–transmission plants of the assay, were irrigated with different drainage waters obtained by watering the different plots of the acquisition–source plants. PepMV was only transmitted to plants irrigated with the drainage water collected from PepMV‐infected plants whose roots contained the fungal culture B from tomato with a transmission rate of 8%. No infection was detected in plants irrigated with the drainage water collected from plots with only a fungus or virus infection. Both the virus and fungus were detected in water samples collected from the drainage water of the acquisition–source plants of the assay. These transmission assays demonstrated the possibility of PepMV transmission by O. virulentus collected from tomato crops.     

A removable virus vector suitable for plant genome editing

Plant genome editing is achieved by the expression of sequence‐specific nucleases (SSNs). RNA virus vector‐mediated expression of SSNs is a promising approach for transgene integration‐free targeted mutagenesis in plants. However, the removal of virus vectors from infected plants is challenging because no antiviral drugs are available against plant viruses. Here, we developed a removable RNA virus vector that carries the target site of tobacco microRNA398 (miR398) whose expression is induced during shoot regeneration. In the inoculated leaves in which expression of miR398 is not induced, insertion of the miR398 target site did not affect the practicability of the virus vector. When shoots were regenerated from the infected leaves, miR398 was expressed and viral RNA was eliminated. The virus vector successfully expressed SSNs in inoculated leaves, from which virus‐free genome‐edited plants were regenerated via tissue culture.     

番茄黄化曲叶病毒的快速分子检测

番茄黄化曲叶病毒是当前世界范围内危害番茄生产的毁灭性病害。文章针对番茄黄化曲叶病毒全基因组序列的特异区段自主设计了1对特异性PCR引物(上游引物TYLCV-F:5′-ACGCATGCCTCTAATCCAGTGTA-3′,下游引物TYLCV-R:5′-CCAATAAGGCGTAAGCGTGTAGAC-3′),依据PCR扩增特异片段543 bp的有无可以快速、准确、高效、特异地检测出是否感染了TYLCV病毒,这项技术可以方便地应用到工厂化育苗的带毒性检测、蔬菜大规模生产中植株发病情况的快速检测以及抗病毒育种,从而为蔬菜安全可持续生产提供科技支撑。     

Vectoring of Pepino mosaic virus by bumble‐bees in tomato greenhouses

Pepino mosaic virus (PepMV) has become an important viral disease of greenhouse tomatoes worldwide. The ability of bumble‐bees (Bombus impatiens), used for pollination, to acquire and transmit PepMV was investigated, and the prevalence of PepMV in plants and bumble‐bees in commercial tomato greenhouses was determined. PepMV infection in plants was determined using enzyme‐linked immunosorbent assay, while in bumble‐bees direct real‐time PCR was used. In the first experiment, the bumble‐bees were exposed for 14 days to PepMV‐infected plants. After 14 days, almost all bumble‐bees were PepMV positive both in the hive (78.5 ± 17.5%) and in the flowers (96.3 ± 3.6%). In the second experiment, bumble‐bees were released into a greenhouse with both PepMV‐infected source plants and healthy non‐infected target plants for 14 days. At the end of the experiment, 61.0 ± 19.5% of the bees collected from the hive and 83.3 ± 16.7% of the bees sampled from the flowers were PepMV positive. Bumble‐bees transmitted PepMV from the infected to the healthy non‐infected tomato plants. Two weeks after bumble‐bee release, the virus was detected in leaf, fruit and flower samples of formerly healthy plants. After 6 weeks, the percentage of PepMV positive samples from the target plants increased to 52.8 ± 2.8% of the leaves and 80.6 ± 8.4% of the fruits. In the control greenhouse without bumble‐bees, the target plants did not become infected. Based on the infection levels in flowers, fruits and leaves, the PepMV infection occurred possibly first in the pollinated flowers, and then spread from the fruit that developed from the flowers to other parts of the plant. In commercial greenhouses where PepMV was present, 92–100% of the plants and 88–100% of the bumble‐bees were PepMV positive. No infected plant samples were found in the control commercial greenhouse, but a small number of bumble‐bees (10%) tested PepMV positive.     

Reaction of some tomato cultivars to tomato leaf curl virus and evaluation of the endophytic colonisation with Beauveria bassiana on the disease incidence and its vector,Bemisia tabaci

Tomato line LA1478 and Pusa Ruby were resistant to tomato leaf curl virus (TLCV) disease. They registered higher plant height, number of branches, total phenol content and yield per plant than the other cultivars. Variety Peto 86 was tolerant to the disease while the other popular tomato cultivars, i.e. Ace, Early Pack, Money Maker, Prichard and Strain B were highly susceptible to the disease. Plant height and number of branches per plant revealed significantly positive association with fruit yield per plant. The disease index of TLCV exhibited significant negative correlations with plant height, total phenol content and fruit yield per plant – 0–4 and 5–25 adult whiteflies were observed on resistant susceptible cultivars. In the case of epiphytically colonisation by Beauveria bassiana conidia, not all developing hyphae on the leaf surface penetrated the whitefly cuticle. Many of the germ tubes elongated to a short distance before terminating its growth. On the other hand, the rapid staining of tomato tissues injected with B. bassiana conidial suspension indicates that the entomopathogenic fungus was established inside tomato tissues until the end time of the trial. The direct injection with the spore suspension yielded high post-colonisation, where the fungus was recovered from sites distant from the point of inoculation. This indicates that the fungus has the potential to move throughout the plant tissues. Laboratory bioassay of tomato whitefly feeding on tomato tissues containing B. bassiana conidial spores indicates that plant endophytic colonisation with entomopathogenic fungi may reduce insect survival on these plants. LT₅₀ values of the test diet were between three and four days. The mortality of Bemisia tabaci was high in the case of endophytically colonisation compared to epiphytically one (90.0% compared to 10.0% during three days) for whiteflies fed tomato tissues containing 1.5 × 10⁷ B. bassiana spores/ml. Application of B. bassiana as an artificial endophyte inside tomato plants can be an important component in the integrated control of tomato whiteflies. The endophytic colonising can achieve biocontrol effect based on induced disease resistance in plant tissues. According the available references, this is the first report on B. tabaci controlling by plant endophytic treatment.