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.     

Evaluation of tomato genotypes for resistance to whitefly (Bemisia tabaci Gennadius) and tomato leaf curl virus in eastern India

Tomato production in the tropics is threatened by whitefly infestation and tomato leaf curl virus (ToLCV) causing severe economic losses. No stable resistance to these biotic challenges has been identified in eastern India. Therefore, initial screening of 19 advance breeding lines of tomato was carried out during the year 2016–17. Based on the whitefly population per leaf and tomato leaf curl disease severity, eight tomato genotypes were selected for final screening during the year 2017–18. Morphological leaf traits and biochemical parameters in tomato leaf were assessed in selected genotypes and considered as potential mediators of resistance. Significant variation was observed for whitefly infestation and ToLCV disease severity among the tomato genotypes tested. Higher leaf trichome density with narrow and thinner leaves and higher total phenol content in leaf emerged as reliable morphological and biochemical markers for early selection of tomato genotype resistant to whitefly and ToLCV disease. The resistance of tomato genotypes 2016/Res-1, 2015/Res-5, 2014/Res-1 and 2014/Res-4 to both whitefly and ToLCV disease is based on antixenotic properties and they could be utilized in future breeding to enhance stable resistance against these biotic challenges.     

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.     

Tomato leaf curl geminivirus associated with cantaloupe yellow leaf disease in Thailand

Geminivirus associated with yellow leaf disease of cantaloupe plants was detected using polymerase chain reaction (PCR) with geminivirus-specific degenerate primers which anneal within the AC1 ORF (replication initiator protein gene) and the AV1 ORF (coat protein gene). A DNA fragment of 1.2 kbp was amplified, cloned and sequenced. The 32-base stem loop region was found in the amplified fragment. This included the conserved nonanucleotide sequence TAATATTAC present in all geminiviruses. The nucleotide sequence of the intergenic region (IR) was compared with 28 whitefly-transmitted geminiviruses. The geminivirus associated with yellow leaf disease of cantaloupe plants showed 96.2% sequence identity with DNA A of tomato leaf curl geminivirus from India (ToLCV-In2). These data suggest that cantaloupe yellow leaf disease was caused by ToLCV.     

A novel shaggy-like kinase interacts with the Tomato leaf curl virus pathogenicity determinant C4 protein

Tomato leaf curl virus-Australia (ToLCV) C4 protein has been shown to be associated with virus pathogenesis. Here, we demonstrate that C4 acts as a suppressor of gene silencing. To understand the multifunctional role of C4, a novel shaggy-like kinase (SlSK) from tomato, which interacts with ToLCV C4 in a yeast two-hybrid assay, was isolated and interaction between these proteins was confirmed in vitro and in planta. Using deletion analysis of C4, a 12 amino acid region in the C-terminal part of C4 was identified which was shown to be essential for its binding to SlSK. We further demonstrate that this region is not only important for the interaction of C4 with SlSK, but is also required for C4 function to suppress gene silencing activity and to induce virus symptoms in a PVX system. The potential significance of ToLCV C4 and SlSK interaction is discussed.     

Genetic variability of Cotton leaf curl betasatellite in Northern India

Cotton is an important crop and its production is affected by various disease pathogens. Monopartite begomovirus associated betasatellites cause Cotton leaf curl disease (CLCuD) in Northern India. In order to access the occurrence and genetic variability of Cotton leaf curl betasatellites, an extensive field survey was conducted in states of Rajasthan, Punjab and Haryana. We selected the betasatellite sequence for analysis as they are reported as important for disease severity and sequence variability. Based on the field observations, the disease incidence ranged from 30% to 80% during the survey. Full genome and DNA β were amplified from various samples while no amplicon was obtained in some samples. The nucleotide sequence homology ranged from 90.0% to 98.7% with Cotton leaf curl virus (CLCuV), 55.2–55.5% with Bhendi yellow vein mosaic virus, 55.8% with Okra leaf curl virus and 51.70% with Tomato leaf curl virus isolates. The lowest similarity (47.8%) was found in CLCuV-Sudan isolate. Phylogenetic analysis showed that analyzed isolates formed a close cluster with various CLCuV isolates reported earlier. The analysis results show sequence variation in Cotton leaf curl betasatellite which could be the result of recombination. The results obtained by genome amplification and sequence variability indicate that some new variants are circulating and causing leaf curl disease in Rajasthan, Punjab and Haryana.Abbreviations: CLCuD, Cotton leaf curl disease; CLCuV, Cotton leaf curl virus; PCR, polymerase chain reaction; SCR, satellite conserved region     

Differential Role of Tomato Gemini Virus and Cucumovirus in Plant Organogenesis

Phenotypic symptom development in plants due to viral infection is believed to be a result of developmental defects caused by regulation of gene expression by viral suppressors. Since viral suppressors of viruses differentially regulate small RNAs (siRNA and miRNA), viral pathogenicity and symptom development in the host cannot apply universally. In present study, we demonstrated the differential effects of presence of two viruses (Tomato leaf curl virus and Cucumber mosaic virus) in organogenesis of two separate hosts (tomato and tobacco). Presence of ToLCV in the tomato explants severely affected the tomato organogenesis leading to sharp decrease in the survival percentage and severe developmental defects. On the other hand presence of CMV in the tobacco explants had not shown much effect in tobacco organogenesis as well as survival percentage. This study has not only highlighted our basic understanding of host-virus interactions in terms of viral suppressors and symptom development, but also provide an alternative way of maintaining and reviving viral cultures in vitro.     

Identification and comparative analysis of microRNAs from tomato varieties showing contrasting response to ToLCV infections

Increasing incidence of viral infections in crop plants adversely affects their growth and yield. Tomato (Solanum lycopersicum) is considered to be a favorite host for viruses with over 50 species of begomoviruses naturally infecting this crop. Tomato leaf curl virus (ToLCV) is among the most widespread and devastating begomoviruses affecting tomato production. microRNAs (miRs) have been established as key regulators of gene expression and plant development. The miR pathways are disturbed during infection by viruses. Thus, comprehension of regulatory miR networks is crucial in understanding the effect of viral pathogenicity. To identify key miRs involved in ToLCV infection, a high throughput approach involving next generation sequencing was employed. Healthy and infected leaf tissues of two tomato varieties, differing in their susceptibility to ToLCV infection were analyzed. NGS data analysis followed by computational predictions, led to identification of 91 known miRs, 15 novel homologs and 53 novel miRs covering two different varieties of tomato, susceptible (Pusa Ruby) and tolerant (LA1777) to ToLCV infection. The cleaved targets of these miRs were identified using online available degradome libraries from leaf, flower and fruit of tomato and showed their involvement in various biological pathways through KEGG Orthology. With detailed comparative profiling of expression pattern of these miRs, we could associate the specific miRs with the resistant and infected genotypes. This study depicted that in depth analysis of miR expression patterns and their functions will help in identification of molecules that can be used for manipulation of gene expression to increase crop production and developing resistance against diseases.     

Genetic diversity of Bemisia tabaci cryptic species in Nigeria and their relationships with endosymbionts and acquired begomoviruses

Bemisia tabaci is a species complex of at least 44 cryptic species with a worldwide distribution. It is a serious pest of many crop plants as well as a successful vector of at least 100 begomoviruses. Using B. tabaci collected from cassava and tomato fields in the southwestern and north central regions of Nigeria, we determined nucleotide sequences from the mitochondrial cytochrome c oxidase subunit I (COI) of 23 B. tabaci samples, the 16S and 23S ribosomal DNA of endosymbionts, and the coat protein gene of geminiviruses ingested by the whiteflies. The COI analysis identified three different genetic groups including the indigenous Sub-Saharan Africa 1 subgroup 1 (SSA1-SG1) and 5 (SSA1-SG5, which was most prevalent), and an invasive cryptic species (Mediterranean). SSA1 was infected by five known secondary endosymbionts, Arsenophonus, Cardinium, Hamiltonella, Rickettsia, and Wolbachia, and co-infections with two or three endosymbionts were common. Five begomoviruses, okra enation leaf curl virus, squash leaf curl China virus, tobacco curly shoot virus, tomato leaf curl New Delhi virus, and tomato yellow leaf curl virus, were detected from 43.5% of the B. tabaci samples. However, cassava mosaic disease that causes devastating cassava yield losses was not detected in this study. This study improves the current understanding of the genetic diversity of B. tabaci cryptic species, and it reveals their relationships with endosymbionts and geminiviruses in the cassava and tomato fields of Nigeria.     

Biology and interactions of two distinct monopartite begomoviruses and betasatellites associated with radish leaf curl disease in India

Background

Emerging whitefly transmitted begomoviruses are major pathogens of vegetable and fibre crops throughout the world, particularly in tropical and sub-tropical regions. Mutation, pseudorecombination and recombination are driving forces for the emergence and evolution of new crop-infecting begomoviruses. Leaf curl disease of field grown radish plants was noticed in Varanasi and Pataudi region of northern India. We have identified and characterized two distinct monopartite begomoviruses and associated beta satellite DNA causing leaf curl disease of radish (Raphanus sativus) in India.

Results

We demonstrate that RaLCD is caused by a complex of two Old World begomoviruses and their associated betasatellites. Radish leaf curl virus-Varanasi is identified as a new recombinant species, Radish leaf curl virus (RaLCV) sharing maximum nucleotide identity of 87.7% with Tomato leaf curl Bangladesh virus-[Bangladesh:2] (Accession number AF188481) while the virus causing radish leaf curl disease-Pataudi is an isolate of Croton yellow vein mosaic virus-[India] (CYVMV-IN) (Accession number AJ507777) sharing 95.8% nucleotide identity. Further, RDP analysis revealed that the RaLCV has a hybrid genome, a putative recombinant between Euphorbia leaf curl virus and Papaya leaf curl virus. Cloned DNA of either RaLCV or CYVMV induced mild leaf curl symptoms in radish plants. However, when these clones (RaLCV or CYVMV) were individually co-inoculated with their associated cloned DNA betasatellite, symptom severity and viral DNA levels were increased in radish plants and induced typical RaLCD symptoms. To further extend these studies, we carried out an investigation of the interaction of these radish-infecting begomoviruses and their associated satellite, with two tomato infecting begomoviruses (Tomato leaf curl Gujarat virus and Tomato leaf curl New Delhi virus). Both of the tomato-infecting begomoviruses showed a contrasting and differential interaction with DNA satellites, not only in the capacity to interact with these molecules but also in the modulation of symptom phenotypes by the satellites.

Conclusion

This is the first report and experimental demonstration of Koch's postulate for begomoviruses associated with radish leaf curl disease. Further observations also provide direct evidence of lateral movement of weed infecting begomovirus in the cultivated crops and the present study also suggests that the exchange of betasatellites with other begomoviruses would create a new disease complex posing a serious threat to crop production.     

Begomoviruses Associated with Leaf Curl Disease of Tomato in Java,Indonesia*

We report that several begomoviruses are associated with tomato leaf curl disease in Java, Indonesia. Tomato plants with leaf curl symptoms were collected from Bandung (west Java), Purwokerto (central Java), Magelang (central Java) and Malang (east Java) of Indonesia, the major tomato‐growing areas of the country. Viruses were detected using the polymerase chain reaction (PCR), with universal primers for the genus Begomovirus. PCR‐amplified fragments were cloned and sequenced. Based on sequence comparisons and phylogenetic analyses, the viruses were divided into three groups. With respect to amino acid (aa) identities of the N‐terminal halves of the coat proteins compared in this study, group I was most closely related to Ageratum yellow vein virus (AYVV) (97%), Ageratum yellow vein China virus‐[Hn2] (AYVCNV‐[Hn2]) (96%) and Ageratum yellow vein virus‐[Taiwan] (AYVV‐[Tai]) (95%), and ageratum‐infecting begomovirus from Java (99%). Group II had high sequence identity with a tentative species of tomato leaf curl Java virus (ToLCJAV) (96% aa) for the CP. Group III was most closely related to a proposed species of Pepper yellow leaf curl Indonesia virus (PepYLCIDV) (90% aa identity) by its partial CP sequence.     

Evidence for a Founder Effect After Introduction of <Emphasis Type="Italic">Tomato Yellow Leaf Curl Virus</Emphasis>–Mild in an Insular Environment

Evolution of Tomato yellow leaf curl virus–Mild (TYLCV-Mld[RE]) (family Geminiviridae, genus Begomovirus) was monitored in La Réunion island from its first upsurge in 1997 until 2004. Two genome fragments, one comprising partial C4 and C1 open reading frames (ORFs), and the other comprising part of the V1 and V2 ORFs and part of the intergenic region were sequenced in 111 isolates. The very low initial diversity of TYLCV-Mld[RE] in La Réunion was followed by a quasi-linear increase in genetic diversity across years. In addition, the population effective size of TYLCV-Mld[RE] has undergone a sudden increase from 2001 to 2004, which is consistent with a founder effect due to the introduction of a small number of virus individuals in an insular environment. Surprisingly, one nucleotide substitution introducing a premature stop codon in the C4 ORF was observed in an increasing number of isolates in the population of TYLCV-Mld[RE] over time, contrasting with the other substitutions which were observed at low frequencies. This substitution which shortens the C4 protein by four amino acids may therefore have been selected during TYLCV-Mld[RE] evolution. [Reviewing Editor: Dr. Nicolas Galtier]     

First Report of a Croton yellow vein mosaic virus (CYVMV) Associated with Tomato Leaf Curl Disease in India

Leaf curl disease symptoms were observed in tomato crop grown in a tomato field at Matera district of Bahraich, India, in March 2013 with an 85% disease incidence. The infected plants exhibited leaf curl symptoms accompanied with puckering, vein swelling and stunting of the whole plant. PCR carried out with begomovirus coat protein gene and DNA beta‐specific primer sets resulted in positive amplification of ~775 bp and 1.35 kbp, respectively, with all symptom‐bearing plant samples. BLASTn and phylogenetic analyses of CP gene sequences showed highest and close relationship with Croton yellow vein mosaic virus (CYVMV) isolates, while the phylogenetic study of betasatellite sequence showed distinct relationships with other begomovirus associated betasatellites reported from India and abroad. This is a first report of a CYVMV associated with tomato leaf curl disease in India.     

一种强启动子的分离与功能

以棉花曲叶病毒（ＣＬＣｕＶ）侵染的番茄叶片组织总ＤＮＡ为模板,通过ＰＣＲ反应扩增ＣＬＣｕＶ双向启动子片段并插入克隆载体。序列分析和同源性比较表明,克隆的启动子长４３６ｂｐ,与目前发现的４类ＣＬＣｕＶ分离物的启动子序列的同源性最高为９９．３２％。将启动子片段分别以不同方向与ｇｕｓ报告基因和ｎｏｓ终止子融合,构建了瞬时表达载体。通过基因枪法将质粒载体导入烟草（Ｎｉｃｏｔｉａｎａ ｔａｂａｃｕｍ Ｌ．）     

一种强启动子的分离与功能

A bidirectional promoter of cotton leaf curl virus (CLCuV) was obtained from the total of DNA CLCuV infected tomato leaves by polymerase chain reaction, and the amplified DNA fragment was cloned into the vector. DNA sequences analysis and homology comparison with the promotor of four kinds of isolates recently found indicated that the cloned promoter fragment composed of 436 bp was 99.32% homolog was up to in nucleotides with that of the isolates. Transient expression vectors were constructed by fusing the promoter fragment with gus reporter gene and nopaline terminator in different orientation. These constructs were delivered into the tobacco (Nicotiana tabacum L.) and cotton ( Gossypium hirsutum L.) leaf cells for transient expression by particle bombardment. The results indicated that complementary sense promoter was a strong promoter with high activity in leaf mesophyll and vascular tissues, but virion sense promoter was weaker. The experiments suggested that isolated bidirectional promoter, as a novel strong promoter, could be used for dicots and especially cotton genetic transformation.     

Occurrence of whitefly-transmitted geminiviruses in crops in Burkina Faso, and their serological detection and differentiation

Whitefly-transmitted geminiviruses were found to be associated with four diseases of crop plants in Burkina Faso: cassava mosaic, okra leaf curl, tobacco leaf curl and tomato yellow leaf curl. Tomato yellow leaf curl is an economically serious disease, reaching a high incidence in March, following a peak population of the vector whitefly, Bemisia tabaci, in December. Okra leaf curl is also a problem in the small area of okra grown in the dry season but is not important in the main period of okra production in the rainy season. The geminiviruses causing these four diseases, African cassava mosaic (ACMV), okra leaf curl (OLCV), tobacco leaf curl (TobLCV) and tomato yellow leaf curl (TYLCV) viruses, were each detected in field-collected samples by triple antibody sand-wich-ELISA with cross-reacting monoclonal antibodies (MAbs) to ACMV. Epitope profiles obtained by testing each virus isolate with panels of MAbs to ACMV, OLCV and Indian cassava mosaic virus enabled four viruses to be distinguished. ACMV and OLCV had similar but distinguishable profiles. The epitope profile of TobLCV was the same as that of one form of TYLCV (which may be the same virus) and was close to the profile of TYLCV from Sardinia. The other form of TYLCV reacted with several additional MAbs and had an epitope profile close to that of TYLCV from Senegal. Only minor variations within each of these four types of epitope profile were found among geminivirus isolates from Burkina Faso. Sida acuta is a wild host of OLCV.