Antagonism of Cucumber green mottle mosaic virus against Tomato leaf curl New Delhi virus in zucchini and cucumber

Tomato leaf curl New Delhi begomovirus (ToLCNDV) (genus Begomovirus, family Begomoviridae) and Cucumber green mottle mosaic tobamovirus (CGMMV) (genus Tobamovirus, family Virgaviridae) cause diseases in cucurbit crops and are of increasing importance in many parts of the world. Both virus species belong to different families and have different modes of transmission, but share common hosts. We examined single and mixed infections of these viruses in cucumber and zucchini. Cucumber plants single-infected with CGMMV and co-infected with ToLCNDV, produced identical tobamovirus-specific symptoms, and had reduced growth and number of fruits when compared with single ToLCNDV infections. Zucchini infected with CGMMV remained symptomless but when infected with ToLCNDV only, most developed severe begomovirus-specific symptoms, and had reduced vegetative development and less fruits. Fewer zucchini plants with ToLCNDV co-infected with CGMMV produced symptoms than those infected with ToLCNDV only. When inoculated with CGMMV, this tobamovirus accumulated at similar rates in single and mixed infections with ToLCNDV in cucumber as well as zucchini, whereas the begomovirus accumulated significantly less when co-infected with CGMMV. The results suggest the existence of an antagonistic effect of CGMMV against ToLCNDV accumulation in cucumber. Such effect would also explain similar differences in viral loads, the vegetative and reproductive development, and the reduced symptom expression in zucchini.     

Host-delivered RNA interference in tomato for mediating resistance against Meloidogyne incognita and Tomato leaf curl virus

Plant Cell, Tissue and Organ Culture (PCTOC) - Tomato is a key vegetable crop cultivated in nearly all agricultural regions of the world. It is a protective food very rich in vitamin A and C....     

The nuclear shuttle protein of Tomato leaf curl New Delhi virus is a pathogenicity determinant

The role of the movement protein (MP) and nuclear shuttle protein (NSP) in the pathogenicity of Tomato leaf curl New Delhi virus (ToLCNDV), a bipartite begomovirus, was studied. Both genes were expressed in Nicotiana benthamiana, Nicotiana tabacum, and Lycopersicon esculentum plants with the Potato virus X (PVX) expression vector or by stable transformation of gene constructs under the control of the 35S promoter in N. tabacum. No phenotypic changes were observed in any of the three species when the MP was expressed from the PVX vector or constitutively expressed in transgenic plants. Expression of the ToLCNDV NSP from the PVX vector in N. benthamiana resulted in leaf curling that is typical of the disease symptoms caused by ToLCNDV in this species. Expression of NSP from PVX in N. tabacum and L. esculentum resulted in a hypersensitive response (HR), demonstrating that the ToLCVDV NSP is a target of host defense responses in these hosts. The NSP, when expressed as a transgene under the control of the 35S promoter, resulted in necrotic lesions in expanded leaves that initiated from a point and then spread across the leaf. The necrotic response was systemic in all the transgenic plants. Deletion of 100 amino acids from the C terminus did not compromise the HR response, suggesting that this region has no role in HR. Deletion of 60 or 100 amino acids from the N terminus of NSP abolished the HR response, suggesting that these sequences are required for the HR response. These findings demonstrate that the ToLCNDV NSP is a pathogenicity determinant as well as a target of host defense responses.     

Molecular dissection of Tomato leaf curl virus resistance in tomato line TY172 derived from Solanum peruvianum

Tomato yellow leaf curl virus (TYLCV) is devastating to tomato (Solanum lycopersicum) crops and resistant cultivars are highly effective in controlling the disease. The breeding line TY172, originating from Solanum peruvianum, is highly resistant to TYLCV. To map quantitative trait loci (QTLs) controlling TYLCV resistance in TY172, appropriate segregating populations were analyzed using 69 polymorphic DNA markers spanning the entire tomato genome. Results show that TYLCV resistance in TY172 is controlled by a previously unknown major QTL, originating from the resistant line, and four additional minor QTLs. The major QTL, we term Ty-5, maps to chromosome 4 and accounts for 39.7–46.6% of the variation in symptom severity among segregating plants (LOD score 33–35). The minor QTLs, originated either from the resistant or susceptible parents, were mapped to chromosomes 1, 7, 9 and 11, and contributed 12% to the variation in symptom severity in addition to Ty-5.     

Marker assisted gene pyramiding for enhanced Tomato leaf curl virus disease resistance in tomato cultivars

The present research is aimed towards molecular marker assisted pyramiding Tomato leaf curl virus (ToLCV) disease resistance genes into two ToLCV susceptible tomato (Solanum lycopersicum L.) cvs. Pbc and H-86 (resistance genes recipient parents). Resistance gene donors were EC-538408 (Solanum chilense) and EC-520061 (S. peruvianum) in the case of cv. Pbc, and EC-520061 (S. peruvianum) and H-24 (S. lycopersicum) in the case of cv. H-86. A ToLCV resistance gene associated co-dominant simple sequence repeat (SSR) marker SSR-218 was used to discriminate between homozygotes and heterozygotes at the seedling stage prior to pollination, which enabled the rejection of nontarget back crosses and pyramiding progenies of the crosses PbcxEC-520061 and H-86xEC-520061, whereas SSR-306 was used for the cross PbcxEC-538408. Ty-2 gene cleaved amplified polymorphic sequences (CAPS) marker was used for the cross H-86xH-24. Out of 279 pyramiding progenies of the cross PbcxEC-538408/PbcxEC-520061, total 91 plants showed the presence of both resistance allele 1 and 2 along with both susceptibility alleles, and in 243 pyramiding progenies of the cross H-86xEC-520061/H-86xH-24, total 82 plants showed the presence of both resistance allele 1 and Ty-2 along with both susceptible alleles. The pyramiding lines that carried both pyramided resistance genes were resistant to tomato leaf curl disease throughout its life cycle.     

Inoculation of cucumber,melon and zucchini varieties with Tomato leaf curl New Delhi virus and evaluation of infection using different detection methods

The disease caused by Tomato leaf curl New Delhi virus (ToLCNDV), which is naturally transmitted by the whitefly Bemisia tabaci, causes important economic losses in cucurbit crops. The availability of simple and efficient inoculation protocols and detection methods is necessary for screening varieties and germplasm collections as well as for breeding populations. We evaluated the infectivity of ToLCNDV inocula prepared using three different buffers for mechanical sap inoculation in a susceptible variety of zucchini. We found that inoculum prepared with buffer III, which contains polyvinylpyrrolidone, is highly efficient for mechanical inoculation, with 100% of plants displaying severe symptoms 21 days post‐inoculation. Using this buffer, we mechanically inoculated 19 commercial varieties of cucurbit crops (six of cucumber, six of melon and seven of zucchini), evaluated the evolution of symptoms and diagnosed infection using nine different ToLCNDV detection methods (four based on serology, four based on molecular hybridization and one based on PCR detection). The results revealed that all varieties are susceptible, although cucumber varieties display less severe symptoms than those of melon or zucchini. All detection methods were highly efficient (more than 85% of plants testing positive) in melon and zucchini, but in cucumber, the percentage of positive plants detected with serology and molecular hybridization methods ranged from 20.4% with Squash leaf curl virus (SLCV) antiserum, to 78.5% with DNA extract hybridization. Overall, the best detection results were obtained with PCR, with 92.6%, 92.4% and 98.4% cucumber, melon and zucchini plants, respectively, testing positive. When considering the overall results in the three crops, the best serology and molecular hybridization methods were those using Watermelon chlorotic stunt virus (WmCSV) antiserum and DNA extract, respectively. The inoculation methodology developed and the information on detection methods are of great relevance for the selection and breeding of varieties of cucurbit crops that are tolerant or resistant to ToLCNDV.     

Genotyping selection for resistance against tomato yellow leaf curl virus (TYLCV) conferred by Ty-1 and Ty-3 genes in tomato

The tomato yellow leaf curl virus (TYLCV), transmitted by whitefly, causes major disease losses to tomato crops in tropical and subtropical regions of the world. Several genes conferring resistance to TYLCV, mainly Ty-1 and Ty-3 genes, have been introgressed to cultivated tomato (Solanum lycopersicum) from the wild relative species Solanum chilense. By combining bulked segregant analysis and amplified fragment length polymorphisms (AFLP), several AFLP markers closely linked to Ty-1 and Ty-3 genes were identified from the resistant breeding line TZ841-4. Cloning and sequencing of the selected AFLP fragments allowed us to develop codominant cleaved amplified polymorphic sequence and dominant sequence characterized amplified region markers closely linked to Ty-1. In addition, Ty-3-linked allelic-specific markers have been discriminated by a quantitative real-time PCR protocol. Taken together, these markers constitute useful tools for marker-assisted selection breeding programs to improve genetic resistance to TYLCV, and also to initiate map-based cloning approaches to isolate the resistance genes.     

Three variants of cotton leaf curl begomoviruses with their satellite molecules are associated with cotton leaf curl disease aggravation in New Delhi

Cotton leaf curl disease (CLCuD), caused by monopartite begomoviruses and its satellite molecules, is one of the serious constrains in cultivation of cotton in India. In the present study, five CLCuD-begomovirus and its associated satellite molecules were characterized based on rolling circle amplification and sequencing of complete genome. Sequence analysis showed 82–99 % nucleotide identity among them. The phylogenetic analysis and nt identity matrix determined that of the five CLCuD-begomovirus isolates, three IARI-34, IARI-42 and IARI-50 were members of Cotton leaf curl Multan virus (CLCuMuV)-Rajasthan isolates, designated as CLCuMuV-Rajasthan-34 and two, IARI-30 and IARI-45 of Cotton leaf curl Kokhran virus (CLCuKoV)-Burewala isolates, designated as CLCuKoV-Burewala-45. The present CLCuMuV-Rajasthan-34 is recombinant isolate showing recombination events in IR, C1 and C4 regions of its genome with high probality (P = 9.9 × 10^?10–3.2 × 10^?6). Same species of betasatellite (1371 nt) molecules obtained from both the present isolates was related with cotton leaf curl Multan betasatellite by 89–97 % nt identity. Three alphasatellites (1366–1396 nt) related to Cotton leaf curl Burewala alphasatellite and Gossypium darwinii symptomless alphasatellite by 86 % nt identity were also obtained. This is the first report of appearance of CLCuKoV-Burewala isolate and CLCuD associated alphasatellites in New Delhi. The present study demonstrated that CLCuD in New Delhi is caused by three kinds of variants, two are strains of CLCuMuV and one of CLCuKoV, either by single or mixed infection along with beta- and alpha-satellite molecues.     

侵染广西烟草的中国番茄黄化曲叶病毒及其伴随的卫星DNA分子的基因组特征

从中国广西靖西的烟草病株上分离到病毒分离物G102和G103,用双生病毒特异性引物均扩增出约500bp的片段,两者序列同源性达99%。对G102基因组DNA-A全序列测定表明,其全长为2728个核苷酸,与中国番茄黄化曲叶病毒(TYLCCNV)同源性最高,达96.5%。进一步研究发现,G102和G103都伴随有长为1342个核苷酸的卫星DNA分子(DNAβ),这两个DNAβ分子的全序列与TYLCCNV的DNAβ同源性最高,分别为92.9%和93.4%。这是首次明确广西分离的TYLCCNV也伴随有卫星分子。     

Silencing of a single gene in tomato plants resistant to Tomato yellow leaf curl virus renders them susceptible to the virus

A reverse-genetics approach was applied to identify genes involved in Tomato yellow leaf curl virus (TYLCV) resistance, taking advantage of two tomato inbred lines from the same breeding program—one susceptible (S), one resistant (R—that used Solanum habrochaites as the source of resistance. cDNA libraries from inoculated and non-inoculated R and S plants were compared, postulating that genes preferentially expressed in the R line may be part of the network sustaining resistance to TYLCV. Further, we assumed that silencing genes located at important nodes of the network would lead to collapse of resistance. Approximately 70 different cDNAs representing genes preferentially expressed in R plants were isolated and their genes identified by comparison with public databases. A Permease I-like protein gene encoding a transmembranal transporter was further studied: it was preferentially expressed in R plants and its expression was enhanced several-fold following TYLCV inoculation. Silencing of the Permease gene of R plants using Tobacco rattle virus-induced gene silencing led to loss of resistance, expressed as development of disease symptoms typical of infected susceptible plants and accumulation of large amounts of virus. Silencing of another membrane protein gene preferentially expressed in R plants, Pectin methylesterase, previously shown to be involved in Tobacco mosaic virus translocation, did not lead to collapse of resistance of R plants. Thus, silencing of a single gene can lead to collapse of resistance, but not every gene preferentially expressed in the R line has the same effect, upon silencing, on resistance.     

The C2 protein of tomato leaf curl Taiwan virus is a pathogenicity determinant that interferes with expression of host genes encoding chromomethylases

Tomato (Solanum lycopersicum) is one of the most important crops worldwide and is severely affected by geminiviruses. Tomato leaf curl Taiwan virus (ToLCTWV), belonging to the geminiviruses, was isolated in Taiwan and causes tremendous crop loss. The geminivirus‐encoded C2 proteins are crucial for a successful interaction between the virus and host plants. However, the exact functions of the viral C2 protein of ToLCTWV have not been investigated. We analyzed the molecular function(s) of the C2 protein by transient or stable expression in tomato cv. Micro‐Tom and Nicotiana benthamiana. Severe stunting of tomato and N. benthamiana plants infected with ToLCTWV was observed. Expression of ToLCTWV C2‐green fluorescent protein (GFP) fusion protein was predominately located in the nucleus and contributed to activation of a coat protein promoter. Notably, the C2‐GFP fluorescence was distributed in nuclear aggregates. Tomato and N. benthamiana plants inoculated with potato virus X (PVX)‐C2 displayed chlorotic lesions and stunted growth. PVX‐C2 elicited hypersensitive responses accompanied by production of reactive oxygen species in N. benthamiana plants, which suggests that the viral C2 was a potential recognition target to induce host‐defense responses. In tomato and N. benthamiana, ToLCTWV C2 was found to interfere with expression of genes encoding chromomethylases. N. benthamiana plants with suppressed NbCMT3–2 expression were more susceptible to ToLCTWV infection. Transgenic N. benthamiana plants expressing the C2 protein showed decreased expression of the NbCMT3–2 gene and pNbCMT3–2::GUS (β‐glucuronidase) promoter activity. C2 protein is an important pathogenicity determinant of ToLCTWV and interferes with host components involved in DNA methylation.     

Expression of stress-response proteins upon whitefly-mediated inoculation of Tomato yellow leaf curl virus in susceptible and resistant tomato plants

To better understand the nature of resistance of tomato to the whitefly (Bemisia tabaci, B biotype)-transmitted Tomato yellow leaf curl virus (TYLCV), whiteflies and TYLCV were considered as particular cases of biotic stresses and virus resistance as a particular case of successful response to these stresses. Two inbred tomato lines issued from the same breeding program that used Solanum habrochaites as a TYLCV resistance source, one susceptible and the other resistant, were used to compare the expression of key proteins involved at different stages of the plant response with stresses: mitogen-activated protein kinases (MAPKs), cellular heat shock proteins (HSPs, proteases), and pathogenesis-related (PR) proteins. The two biotic stresses-non-viruliferous whitefly feeding and virus infection with viruliferous insects--led to a slow decline in abundance of MAPKs, HSPs, and chloroplast protease FtsH (but not chloroplast protease ClpC), and induced the activities of the PR proteins, beta-1,3-glucanase, and peroxidase. This decline was less pronounced in virus-resistant than in virus-susceptible lines. Contrary to whitefly infestation and virus infection, inoculation with the fungus Sclerotinia sclerotiorum induced a rapid accumulation of the stress proteins studied, followed by a decline; the virus-susceptible and -resistant tomato lines behaved similarly in response to the fungus.     

Hairpin RNA-mediated strategies for silencing of tomato leaf curl virus AC1 and AC4 genes for effective resistance in plants

RNA interference (RNAi) using short interfering RNAs (siRNAs) has been widely explored for the suppression of intracellular viral target mRNAs. On the basis of our previous work with stable silencing of Tomato leaf curl virus, in vivo by the antisense replicase gene (AC1) of the virus and characterizing AC4, as a small RNA regulator, besides its role in pathogenicity, we used four different plasmid vector-based siRNA generation strategies to silence viral genes (AC1 and AC4) of tomato leaf curl viruses. The RNAi target sequence were chosen from DNA A of the Tomato leaf curl virus (ToLCV) on the basis of conserved regions in AC1 with an overlapping sequences of the AC4 gene. Different hairpin RNA-mediated strategies like antisense, self-complementary inverted repeats, intron-spliced hairpin RNAs, and small hairpin RNAs were deployed for efficient and predictable resistance to the viruses. Here we present that appropriately designed siRNAs not only prevents RNAi suppression but also help in developing trait-stable transgenics. These strategies imply that ToLCV rep-driven RNAi, targeting AC4 and conserved viral sequences, provides a promising approach to suppress a wide spectrum ToLCV infection in the tomato.     

Expression of the oligomerization domain of the replication-associated protein (Rep) of Tomato leaf curl New Delhi virus interferes with DNA accumulation of heterologous geminiviruses

The minimal DNA binding domain of the replication-associated protein (Rep) of Tomato leaf curl New Delhi virus was determined by electrophoretic mobility gel shift analysis and co-purification assays. DNA binding activity maps to amino acids 1-160 (Rep-(1-160)) of the Rep protein and overlaps with the protein oligomerization domain. Transient expression of Rep protein (Rep-(1-160)) was found to inhibit homologous viral DNA accumulation by 70-86% in tobacco protoplasts and in Nicotiana benthamiana plants. The results obtained showed that expression of N-terminal sequences of Rep protein could efficiently interfere with DNA binding and oligomerization activities during virus infection. Surprisingly, this protein reduced accumulation of the African cassava mosaic virus, Pepper huasteco yellow vein virus and Potato yellow mosaic virus by 22-48%. electrophoretic mobility shift assays and co-purification studies showed that Rep-(1-160) did not bind with high affinity in vitro to the corresponding common region sequences of heterologous geminiviruses. However, Rep-(1-160) formed oligomers with the Rep proteins of the other geminiviruses. These data suggest that the regulation of virus accumulation may involve binding of the Rep to target DNA sequences and to the other Rep molecules during virus replication.     

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。