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Understanding the seedborne nature of plant viruses is essential for developing disease control strategies and is impactful to the seed market. Here, we investigated seed transmissibility of tomato leaf curl New Delhi virus-cucumber isolate (ToLCNDV-CB) and -oriental melon isolate (ToLCNDV-OM) in cucumber and seed transmissibility of tomato leaf curl Taiwan virus (ToLCTV) and tomato yellow leaf curl Thailand virus (TYLCTHV) in tomato. Parent plants were inoculated using agroinfiltration with virus infectious clones, and virus infection was confirmed by PCR with virus-specific primers. ToLCNDV-CB and ToLCNDV-OM were detected in different parts of the female and male flowers and the fruits of cucumbers. ToLCNDV-CB and ToLCNDV-OM were also detected in cucumber seed coats and seedlings with an infection rate higher than 79%. Similar results were observed with ToLCTV and TYLCTHV as they were detected in different parts of the female and male flowers and fruits of three tomato cultivars. ToLCTV and TYLCTHV were also detected in tomato seed coats and seedlings with an infection rate higher than 36%. In addition, pollen-mediated transmission assays of these four begomoviruses were conducted with pollen derived from virus-infected plants to healthy plants. Results showed that ToLCNDV-CB and ToLCNDV-OM were detected in cross-pollinated cucumber progenies with an infection rate higher than 70%. ToLCTV and TYLCTHV were also detected in cross-pollinated tomato progenies with an infection rate higher than 77%. Our results indicated that ToLCNDV, ToLCTV, and TYLCTHV can be transmitted via seeds or pollens of cucumber and tomato plants. To our knowledge, this is the first report documenting the pollen-mediated transmission of begomoviruses.
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Begomovirus , Cucumis sativus , Solanum lycopersicum , Begomovirus/genética , Taiwán , Semillas , PolenRESUMEN
[This corrects the article DOI: 10.1371/journal.ppat.1007288.].
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Murraya exotica L., commonly known as orange jasmine, is an evergreen shrub belonging to the Rutaceae family. It has long been used as traditional Chinese medicine for treating abdominal pain, toothache, scabies, and other disorders (Liu et al. 2018). M. exotica is widely grown as a garden bush in Taiwan. A prokaryotic pathogen, 'Candidatus Liberibacter asiaticus' (Damsteegt et al. 2010), reportedly could infect M. exotica, but there is no reported phytoplasma disease in M. exotica. In June 2020, M. exotica plants exhibiting witches'-broom (WB), leaf yellowing, and small leaves (Fig. s1) were observed in a horticultural landscaping field in Taichung City, Taiwan. It was estimated that more than 70% of M. exotica plants within a single area were affected. DNA was extracted separately from petioles of five symptomatic and one asymptomatic plants using a modified CTAB method (Echevarría-Machado et al. 2005) and used for nested PCR with two universal primers, P1 (Deng and Hiruki 1991)/P7 (Schneider et al. 1995) followed by R16F2n/R16R2 (Gundersen and Lee 1996) to amplify a 1.2-kb 16S rRNA fragment. PCR was also conducted by primers, rp(I)F1A/rp(I)R1A to amplify a partial ribosomal protein S3 and L22 (rplV-rpsC) fragment (Lee et al. 2004). Expected 1.2-kb bands were amplified from DNA extracted from all symptomatic plants, whereas no bands were amplified from that of the asymptomatic plant. The amplicons were cloned, sequenced with an ABI 3730 automatic sequencer (Applied Biosystems, Hammonton, NJ, USA) in Biotechnology Centre DNA-sequencing facility at National Chung Hsing University (NCHU) and deposited in GenBank. BLAST analysis revealed that 16S rDNA sequences (MZ373297 and MZ373298) shared 100% identity to each other and both shared 99.4% identity with those of several phytoplasma strains, e.g., rapeseed phyllody phytoplasma (CP055264), Brassica sp. phyllody phytoplasma (MN877914), Plumbago auriculata leaf yellowing phytoplasma (MN239504), and aster yellows phytoplasma (MK992774), which all belonging to the 16SrI group, by using the CLUSTAL W Methods of MegAlign program (DNASTAR, Inc., Madison, WI, USA). Further analysis using iPhyClassifier tool (https://plantpathology.ba.ars.usda.gov) indicated that the virtual restriction fragment length polymorphism (RFLP) patterns derived from the 16S rDNA F2nR2 fragment of the M. exotica WB phytoplasma was most similar to the reference pattern of the 16SrI-B subgroup, with a pattern similarity coefficient of 0.97 and shared 99.3% sequence identity to 'Candidatus Phytoplasma asteris' (M30790). The partial rplV-rpsC gene sequence (OM275408) showed 99.7% of sequence identities to those of rapeseed phyllody phytoplasma (CP055264), plum witches'-broom phytoplasma (MH061366) and oilseed rape phytoplasma (KX551965), by using the CLUSTAL W Methods of MegAlign program. Taken together, we concluded that the phytoplasma strain associated with M. exotica WB disease was a strain belonging to a 16SrI. To the best of our knowledge, this is the first report of M. exotica being infected by a phytoplasma in the aster yellows group, and M. exotica may also serve as an intermediate reservoir host to other plants, e.g., wax apple, periwinkle and roselle, of 16SrI phytoplasma.
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Transgenic approaches employing RNA interference (RNAi) strategies have been successfully applied to generate desired traits in plants; however, variations between RNAi transgenic siblings and the ability to quickly apply RNAi resistance to diverse cultivars remain challenging. In this study, we assessed the promoter activity of a cauliflower mosaic virus 35S promoter (35S) and a phloem-specific promoter derived from rice tungro bacilliform virus (RTBV) and their efficacy to drive RNAi against the endogenous glutamate-1-semialdehyde aminotransferase gene (GSA) that acts as a RNAi marker, through chlorophyll synthesis inhibition, and against tomato yellow leaf curl Thailand virus (TYLCTHV), a begomovirus (family Geminiviridae) reported to be the prevalent cause of tomato yellow leaf curl disease (TYLCD) in Taiwan. Transgenic Nicotiana benthamiana expressing hairpin RNA of GSA driven by either the 35S or RTBV promoter revealed that RTBV::hpGSA induced stronger silencing along the vein and more uniformed silencing phenotype among its siblings than 35S::hpGSA. Analysis of transgenic N. benthamiana, 35S::hpTYLCTHV, and RTBV::hpTYLCTHV revealed that, although 35S::hpTYLCTHV generated a higher abundance of small RNA than RTBV::hpTYLCTHV, RTBV::hpTYLCTHV transgenic plants conferred better TYLCTHV resistance than 35S::hpTYLCTHV. Grafting of wild-type (WT) scions to TYLCTHV RNAi rootstocks allowed transferable TYLCTHV resistance to the scion. A TYLCTHV-inoculation assay showed that noninfected WT scions were only observed when grafted to RTBV::hpTYLCTHV rootstocks but not 35S::hpTYLCTHV nor WT rootstocks. Together, our findings demonstrate an approach that may be widely applied to efficiently confer TYLCD resistance.
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Begomovirus , Resistencia a la Enfermedad , Plantas Modificadas Genéticamente , Regiones Promotoras Genéticas , Solanum lycopersicum , Begomovirus/fisiología , Resistencia a la Enfermedad/genética , Solanum lycopersicum/genética , Solanum lycopersicum/virología , Floema/genética , Regiones Promotoras Genéticas/genética , ARN/genéticaRESUMEN
Salicylic acid (SA) is a key phytohormone that mediates a broad spectrum of resistance against a diverse range of viruses; however, the downstream pathway of SA governed antiviral immune response remains largely to be explored. Here, we identified an orchid protein containing A20 and AN1 zinc finger domains, designated Pha13. Pha13 is up-regulated upon virus infection, and the transgenic monocot orchid and dicot Arabidopsis overexpressing orchid Pha13 conferred greater resistance to different viruses. In addition, our data showed that Arabidopsis homolog of Pha13, AtSAP5, is also involved in virus resistance. Pha13 and AtSAP5 are early induced by exogenous SA treatment, and participate in the expression of SA-mediated immune responsive genes, including the master regulator gene of plant immunity, NPR1, as well as NPR1-independent virus defense genes. SA also induced the proteasome degradation of Pha13. Functional domain analysis revealed that AN1 domain of Pha13 is involved in expression of orchid NPR1 through its AN1 domain, whereas dual A20/AN1 domains orchestrated the overall virus resistance. Subcellular localization analysis suggested that Pha13 can be found localized in the nucleus. Self-ubiquitination assay revealed that Pha13 confer E3 ligase activity, and the main E3 ligase activity was mapped to the A20 domain. Identification of Pha13 interacting proteins and substrate by yeast two-hybrid screening revealed mainly ubiquitin proteins. Further detailed biochemical analysis revealed that A20 domain of Pha13 binds to various polyubiquitin chains, suggesting that Pha13 may interact with multiple ubiquitinated proteins. Our findings revealed that Pha13 serves as an important regulatory hub in plant antiviral immunity, and uncover a delicate mode of immune regulation through the coordination of A20 and/or AN1 domains, as well as through the modulation of E3 ligase and ubiquitin chain binding activity of Pha13.
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Inmunidad de la Planta , Proteínas de Plantas/inmunología , Virus de Plantas/inmunología , Virus de Plantas/patogenicidad , Secuencia de Aminoácidos , Antivirales/metabolismo , Arabidopsis/inmunología , Arabidopsis/metabolismo , Arabidopsis/virología , Proteínas de Arabidopsis/genética , Proteínas de Arabidopsis/inmunología , Genes de Plantas , Interacciones Huésped-Patógeno , Modelos Biológicos , Orchidaceae/inmunología , Orchidaceae/metabolismo , Orchidaceae/virología , Inmunidad de la Planta/genética , Inmunidad de la Planta/fisiología , Proteínas de Plantas/química , Proteínas de Plantas/genética , Plantas Modificadas Genéticamente , Unión Proteica , Dominios Proteicos , Ácido Salicílico/metabolismo , Homología de Secuencia de Aminoácido , Ubiquitina/metabolismo , Ubiquitina-Proteína Ligasas/genética , Ubiquitina-Proteína Ligasas/inmunología , Ubiquitina-Proteína Ligasas/metabolismo , Dedos de ZincRESUMEN
Phloem-specific promoter efficiently triggers graft-transmissible RNA interference (gtRNAi). We leveraged a phloem-specific promoter derived from the Rice tungro bacilliform virus, optimizing the RNAi mechanism's efficiency and specificity. Here, we detail the construction of phloem-specific promoter-based gtRNAi system and its application through grafting experiments, demonstrating its effectiveness in inducing tomato yellow leaf curl Thailand virus (TYLCHTV) resistance in non-transgenic scions. This strategy presents a practical application for protecting crops against viruses without genetically modifying the entire plant.
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Begomovirus , Resistencia a la Enfermedad , Floema , Enfermedades de las Plantas , Regiones Promotoras Genéticas , Interferencia de ARN , Floema/virología , Floema/genética , Begomovirus/genética , Resistencia a la Enfermedad/genética , Enfermedades de las Plantas/virología , Enfermedades de las Plantas/genética , Plantas Modificadas Genéticamente/genética , Ingeniería Genética/métodosRESUMEN
Introduction: Begomoviruses are mainly transmitted by whiteflies. However, a few begomoviruses can be transmitted mechanically. Mechanical transmissibility affects begomoviral distribution in the field. Materials and methods: In this study, two mechanically transmissible begomoviruses, tomato leaf curl New Delhi virus-oriental melon isolate (ToLCNDV-OM) and tomato yellow leaf curl Thailand virus (TYLCTHV), and two nonmechanically transmissible begomoviruses, ToLCNDV-cucumber isolate (ToLCNDV-CB) and tomato leaf curl Taiwan virus (ToLCTV), were used to study the effects of virus-virus interactions on mechanical transmissibility. Results: Nicotiana benthamiana and host plants were coinoculated through mechanical transmission with inoculants derived from plants that were mix-infected or inoculants derived from individually infected plants, and the inoculants were mixed immediately before inoculation. Our results showed that ToLCNDV-CB was mechanically transmitted with ToLCNDV-OM to N. benthamiana, cucumber, and oriental melon, whereas ToLCTV was mechanically transmitted with TYLCTHV to N. benthamiana and tomato. For crossing host range inoculation, ToLCNDV-CB was mechanically transmitted with TYLCTHV to N. benthamiana and its nonhost tomato, while ToLCTV with ToLCNDV-OM was transmitted to N. benthamiana and its nonhost oriental melon. For sequential inoculation, ToLCNDV-CB and ToLCTV were mechanically transmitted to N. benthamiana plants that were either preinfected with ToLCNDV-OM or TYLCTHV. The results of fluorescence resonance energy transfer analyses showed that the nuclear shuttle protein of ToLCNDV-CB (CBNSP) and the coat protein of ToLCTV (TWCP) localized alone to the nucleus. When coexpressed with movement proteins of ToLCNDV-OM or TYLCTHV, CBNSP and TWCP relocalized to both the nucleus and the cellular periphery and interacted with movement proteins. Discussion: Our findings indicated that virus-virus interactions in mixed infection circumstances could complement the mechanical transmissibility of nonmechanically transmissible begomoviruses and alter their host range. These findings provide new insight into complex virus-virus interactions and will help us to understand the begomoviral distribution and to reevaluate disease management strategies in the field.
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Begomoviruses belonging to the family Geminiviridae are plant-infecting DNA viruses. Begomoviral movement protein (MP) has been reported to be required for virus movement, host range determination, and symptom development. In the present study, the FK506-binding protein (FKBP)-type peptidyl-prolyl cis-trans isomerase (NbFKPPIase) of Nicotiana benthamiana was identified by a yeast two-hybrid screening system using the MP of tomato leaf curl New Delhi virus (ToLCNDV) oriental melon (OM) isolate (MPOM ) as bait. Transient silencing of the gene encoding NbFKPPIase increased replication of three test begomoviruses, and transient overexpression decreased viral replication, indicating that NbFKPPIase plays a role in defence against begomoviruses. However, infection of N. benthamiana by ToLCNDV-OM or overexpression of the gene encoding MPOM drastically reduced the expression of the gene encoding NbFKPPIase. Fluorescence resonance energy transfer analysis revealed that MPOM interacted with NbFKPPIase in the periphery of cells. Expression of the gene encoding NbFKPPIase was induced by salicylic acid but not by methyl jasmonate or ethylene. Moreover, the expression of the gene encoding NbFKPPIase was down-regulated in response to 6-benzylaminopurine and up-regulated in response to gibberellin or indole-3-acetic acid, suggesting a role of NbFKPPIase in plant development. Transcriptome analysis and comparison of N. benthamiana transient silencing and overexpression of the gene encoding MPOM led to the identification of several differentially expressed genes whose functions are probably associated with cell cycle regulation. Our results indicate that begomoviruses could suppress NbFKPPIase-mediated defence and biological functions by transcriptional inhibition and physical interaction between MP and NbFKPPIase to facilitate infection.
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Begomovirus , Solanum lycopersicum , Begomovirus/genética , Isomerasa de Peptidilprolil , Enfermedades de las Plantas , Proteínas de Unión a Tacrolimus , Nicotiana/genética , Replicación ViralRESUMEN
A non-antibiotic based selection system using L-lysine as selection agent and the lysine racemase (lyr) as selectable marker gene for plant transformation was established in this study. L-lysine was toxic to plants, and converted by Lyr into D-lysine which would subsequently be used by the transgenic plants as nitrogen source. Transgenic tobacco and Arabidopsis plants were successfully recovered on L-lysine medium at efficiencies of 23 and 2.4%, respectively. Phenotypic characterization of transgenic plants clearly revealed the expression of normal growth and developmental characteristics as that of wild-type plants, suggesting no pleiotropic effects associated with the lyr gene. The specific activity of Lyr in transgenic tobacco plants selected on L: -lysine ranged from 0.77 to 1.06 mU/mg protein, whereas no activity was virtually detectable in the wild-type plants. In addition, the composition of the free amino acids, except aspartic acid, was not affected by the expression of the lyr gene in the transgenic tobacco plants suggesting very limited interference with endogenous amino acid metabolism. Interestingly, our findings also suggested that the plant aspartate kinases may possess an ability to distinguish the enantiomers of lysine for feedback regulation. To our knowledge, this is the first report to demonstrate that the lysine racemase selectable marker system is novel, less controversial and inexpensive than the traditional selection systems.