Your search keyword '"tobacco mosaic virus"' showing total 1,034 results

1. Convenient site-selective protein coupling from bacterial raw lysates to coenzyme A-modified tobacco mosaic virus (TMV) by Bacillus subtilis Sfp phosphopantetheinyl transferase.

Author

Geiger, Fania, Wendlandt, Tim, Berking, Tim, Spatz, Joachim P., and Wege, Christina

Subjects

*TOBACCO mosaic virus, *BACILLUS subtilis, *ESCHERICHIA coli, *PEPTIDES, *PROTEINS, *TRANSFERASES, *LUCIFERASES

Abstract

A facile enzyme-mediated strategy enables site-specific covalent one-step coupling of genetically tagged luciferase molecules to coenzyme A-modified tobacco mosaic virus (TMV-CoA) both in solution and on solid supports. Bacillus subtilis surfactin phosphopantetheinyl transferase Sfp produced in E. coli mediated the conjugation of firefly luciferase N-terminally extended by eleven amino acids forming a 'ybbR tag' as Sfp-selective substrate, which even worked in bacterial raw lysates. The enzymes displayed on the protein coat of the TMV nanocarriers exhibited high activity. As TMV has proven a beneficial high surface-area adapter template stabilizing enzymes in different biosensing layouts in recent years, the use of TMV-CoA for fishing ybbR-tagged proteins from complex mixtures might become an advantageous concept for the versatile equipment of miniaturized devices with biologically active proteins. It comes along with new opportunities for immobilizing multiple functionalities on TMV adapter coatings, as desired, e.g., in handheld systems for point-of-care detection. [Display omitted] • CoA-modified tobacco mosaic virus (TMV): facile enzymatic luciferase coupling. • Convenient, efficient one-pot reaction: Sfp installs peptide ybbR-tagged luciferase. • Orthogonal conjugation of active ybbR-Luc to TMV-CoA works also on solid surfaces. • Process can be eased and speeded up by using target protein in raw cell extract. • Prospects: Sfp-enabled versatile enzyme coupling to TMV-CoA adapters on biochips?! [ABSTRACT FROM AUTHOR]

Published

2023

2. Designer-length palladium nanowires can be templated by the central channel of tobacco mosaic virus nanorods.

Author

Shah, Sachin N., Saunders, Keith, Thuenemann, Eva C., Evans, David J., and Lomonossoff, George P.

Subjects

*TOBACCO mosaic virus, *NANORODS, *NANOELECTROMECHANICAL systems, *SYNTHESIS of nanowires, *PALLADIUM, *NANOWIRES

Abstract

We have developed methods for the templated synthesis of palladium nanowires (Pd NWs) within the central channel of tobacco mosaic virus (TMV) nanorods of various lengths. We show that uniform 4 nm diameter Pd NWs can be produced by selective growth within these channels by including the capping reagent, poly(vinyl-pyrrolidone) (PVP 30K) and reducing the metal precursor to metallic palladium with ascorbic acid. The length of the Pd NWs can be controlled either by varying the length of the nanorod templates and/or through alterations to the reaction conditions. We have also demonstrated bimetallic gold (Au)-palladium (Pd) in-situ metallization of TMV nanorods resulting in the production of Pd NWs 6 nm gold nanoparticles attached to their ends. The materials produced have many potential applications in the construction of nanoscale devices. [Display omitted] • Synthesis of 4 nm diameter palladium nanowires was achieved using TMV nanorods as a template. • Designer various length TMV nanorods specify the length of Pd nanowires. • Poly(vinyl-pyrrolidone) directs the formation of crystalline Pd nanowires. • Reaction temperature increment by 10 °C drastically increases the length of Pd nanowire. • Gold-palladium nanowires was synthesized in one step reaction. [ABSTRACT FROM AUTHOR]

Published

2022

3. The phylogeographic history of tomato mosaic virus in Eurasia.

Author

Xu, Yuting, Zhang, Shuling, Shen, Jianguo, Wu, Zujian, Du, Zhenguo, and Gao, Fangluan

Subjects

*TOBACCO mosaic virus, *MOSAIC viruses, *TOMATO farming, *MIDDLE East respiratory syndrome, *PHYLOGEOGRAPHY

Abstract

Tomato mosaic virus (ToMV) is a tobamovirus affecting solanaceous crops worldwide. The process of its emergence, however, is poorly understood. Here, Bayesian phylogenetic framework was employed to reconstruct the phylogeography of ToMV in Eurasia. The results showed that the ToMV in Europe, Middle East and East Asia has been evolving at a rate of 4.05 × 10−4 substitutions/site/year (95% credibility interval 2.43 × 10−4 – 5.62 × 10−4). Their most recent common ancestor (MRCA), most probably first appeared in Europe, was dated to around 1757 Common Era. The first introduction of ToMV into Middle East occurred in 1920s, with Europe as the source, while the first introduction of ToMV into East Asia occurred shortly afterwards, with Middle East as the source. From about 1950 onwards, inter-regional migrations of ToMV between Europe, Middle East and East Asia have been common. Overall, these data provide a glimpse into the phylogeographic history of ToMV in Eurasia. • Tomato mosaic virus (ToMV) in Eurasia first appeared in around 1757 CE in Europe. • ToMV has evolving at a mean rate of 4.05 × 10−4 substitutions/site/year. • ToMV dispersal pattern in Eurasia corelates with the cultivation history of tomato in this region. [ABSTRACT FROM AUTHOR]

Published

2021

4. Plant SNAREs SYP22 and SYP23 interact with Tobacco mosaic virus 126 kDa protein and SYP2s are required for normal local virus accumulation and spread.

Author

Ibrahim, Amr, Yang, Xiaohua, Liu, Chengke, Cooper, Kimberly D., Bishop, Bethany A., Zhu, Min, Kwon, Soonil, Schoelz, James E., and Nelson, Richard S.

Subjects

*TOBACCO mosaic virus, *NICOTIANA benthamiana, *ARABIDOPSIS proteins, *VIRAL proteins, *PLANT proteins, *GENE silencing

Abstract

Viral proteins often interact with multiple host proteins during virus accumulation and spread. Identities and functions of all interacting host proteins are not known. Through a yeast two-hybrid screen an Arabidopsis thaliana Qa-SNARE protein [syntaxin of plants 23 (AtSYP23)], associated with pre-vacuolar compartment and vacuolar membrane fusion activities, interacted with Tobacco mosaic virus (TMV) 126 kDa protein, associated with virus accumulation and spread. In planta , AtSYP23 and AtSYP22 each fused with mCherry, co-localized with 126 kDa protein-GFP. Additionally, A. thaliana and Nicotiana benthamiana SYP2 proteins and 126 kDa protein interacted during bimolecular fluorescence complementation analysis. Decreased TMV accumulation in Arabidopsis plants lacking SYP23 and in N. benthamiana plants subjected to virus-induced gene silencing (VIGS) of SYP2 orthologs was observed. Diminished TMV accumulation during VIGS correlated with less intercellular virus spread. The inability to eliminate virus accumulation suggests that SYP2 proteins function redundantly for TMV accumulation, as for plant development. • TMV 126 kDa protein interacts with plant SNAREs SYP22 and 23. • TMV requires SYP2 family member(s) for normal virus accumulation and spread. • SYP2 requirement for TMV spread supports involvement of vacuole in TMV life cycle. [ABSTRACT FROM AUTHOR]

Published

2020

5. Bayesian phylodynamic analysis reveals the dispersal patterns of tobacco mosaic virus in China.

Author

Gao, Fangluan, Liu, Xiaowei, Du, Zhenguo, Hou, Han, Wang, Xiaoyan, Wang, Fenglong, and Yang, Jinguang

Subjects

*TOBACCO mosaic virus, *BAYESIAN analysis, *COMPARATIVE genomics, *GENE flow

Abstract

Tobacco mosaic virus (TMV) is widespread in China and causes considerable economic losses to tobacco production. The molecular epidemiology of this virus is, however, poorly understood. In this study, we sequenced the genomes of 51 TMV isolates from five tobacco-producing regions in China and investigated the dispersal patterns of this virus. Our phylogenetic analysis showed that TMV might have been introduced to China in the early 1900s, probably first to southwest China. However, TMV then moved to the north of the country, where it expanded. The north became the main seeding region for the subsequent movements of the virus within China. The north-to-south movement of TMV coincides with a shift of major tobacco-producing areas from north to south in this century, suggesting a link between human activities and the dispersal of TMV in China. • TMV was introduced into the Southwest producing region of China before its spread through the country. • Gene flow has occurred between TMV populations, generally along a north-to-south axis in China. • Demographic expansions of TMV in China are potentially linked to tobacco production. [ABSTRACT FROM AUTHOR]

Published

2019

6. Disruption of a stem-loop structure located upstream of pseudoknot domain in Tobacco mosaic virus enhanced its infectivity and viral RNA accumulation.

Author

Guo, Song and Wong, Sek-Man

Subjects

*TOBACCO mosaic virus, *COAT proteins (Viruses), *HAIRPIN (Genetics), *NICOTIANA benthamiana, *VIRAL replication

Abstract

A predicted stem-loop structure of 25 nucleotides, located in the coat protein (CP) gene and 3′-UTR sequences of Tobacco mosaic virus (TMV), was validated previously (Guo et al., 2015). In this study, both disrupted stem-loop and nucleotide deletion mutants of TMV replicated more rapidly in Nicotiana benthamiana protoplasts. The TMV mutant with a complete mirrored stem-loop structure showed similar level of viral RNA accumulation as TMV. Recovering the stem-loop structure also resulted in a similar replication level as TMV. All these mutants induced necrosis in N. benthamiana and assembled into typical rigid rod-shaped virions. TMV mutant without the stem-loop structure induced more local lesions in Chenopodium quinoa. When the putative stem-loop structure in Tomato mosaic virus (ToMV) was disrupted, the mutant also showed an enhanced virus replication. This suggests that the stem-loop structure of TMV is a new cis -acting element with a role in virus replication. [ABSTRACT FROM AUTHOR]

Published

2018

7. Validation of reference genes for quantifying changes in gene expression in virus-infected tobacco.

Author

Baek, Eseul, Yoon, Ju-Yeon, and Palukaitis, Peter

Subjects

*GENE expression in viruses, *TOBACCO diseases & pests, *POTATO virus X, *UBIQUITIN-conjugating enzymes, *RIBOSOMAL proteins

Abstract

To facilitate quantification of gene expression changes in virus-infected tobacco plants, eight housekeeping genes were evaluated for their stability of expression during infection by one of three systemically-infecting viruses (cucumber mosaic virus, potato virus X, potato virus Y) or a hypersensitive-response-inducing virus (tobacco mosaic virus; TMV) limited to the inoculated leaf. Five reference-gene validation programs were used to establish the order of the most stable genes for the systemically-infecting viruses as ribosomal protein L25 > β-Tubulin > Actin, and the least stable genes Ubiquitin-conjugating enzyme (UCE) < PP2A < GAPDH. For local infection by TMV, the most stable genes were EF1α > Cysteine protease > Actin, and the least stable genes were GAPDH < PP2A < UCE. Using two of the most stable and the two least stable validated reference genes, three defense responsive genes were examined to compare their relative changes in gene expression caused by each virus. [ABSTRACT FROM AUTHOR]

Published

2017

8. Tobacco mosaic virus infection disproportionately impacts phloem associated translatomes in Arabidopsis thaliana and Nicotiana benthamiana.

Author

Collum, Tamara D. and Culver, James N.

Subjects

*TOBACCO mosaic virus, *ARABIDOPSIS thaliana, *NICOTIANA benthamiana, *PHLOEM, *RNA interference, *PLASMODESMATA

Abstract

In this study we use vascular specific promoters and a translating ribosome affinity purification strategy to identify phloem associated translatome responses to infection by tobacco mosaic virus (TMV) in systemic hosts Arabidopsis thaliana ecotype Shahdara and Nicotiana benthamiana . Results demonstrate that in both hosts the number of translatome gene alterations that occurred in response to infection is at least four fold higher in phloem specific translatomes than in non-phloem translatomes. This finding indicates that phloem functions as a key responsive tissue to TMV infection. In addition, host comparisons of translatome alterations reveal both similarities and differences in phloem responses to infection, representing both conserved virus induced phloem alterations involved in promoting infection and virus spread as well as host specific alterations that reflect differences in symptom responses. Combined these results suggest phloem tissues play a disproportion role in the mediation and control of host responses to virus infection. [ABSTRACT FROM AUTHOR]

Published

2017

9. A heterologous prime-boosting strategy with replicating Vaccinia virus vectors and plant-produced HIV-1 Gag/dgp41 virus-like particles.

Author

Meador, Lydia R., Kessans, Sarah A., Kilbourne, Jacquelyn, Kibler, Karen V., Pantaleo, Giuseppe, Roderiguez, Mariano Esteban, Blattman, Joseph N., Jacobs, Bertram L., and Mor, Tsafrir S.

Subjects

*VACCINIA, *HIV-1 glycoprotein 120, *IMMUNOGLOBULIN G, *GENETIC vectors, *VIRAL replication

Abstract

Showing modest efficacy, the RV144 HIV-1 vaccine clinical trial utilized a non-replicating canarypox viral vector and a soluble gp120 protein boost. Here we built upon the RV144 strategy by developing a novel combination of a replicating, but highly-attenuated Vaccinia virus vector, NYVAC-KC, and plant-produced HIV-1 virus-like particles (VLPs). Both components contained the full-length Gag and a membrane anchored truncated gp41 presenting the membrane proximal external region with its conserved broadly neutralizing epitopes in the pre-fusion conformation. We tested different prime/boost combinations of these components in mice and showed that the group primed with NYVAC-KC and boosted with both the viral vectors and plant-produced VLPs have the most robust Gag-specific CD8 T cell responses, at 12.7% of CD8 T cells expressing IFN-γ in response to stimulation with five Gag epitopes. The same immunization group elicited the best systemic and mucosal antibody responses to Gag and dgp41 with a bias towards IgG1. [ABSTRACT FROM AUTHOR]

Published

2017

10. Bioinformatic and mutational analysis of ophiovirus movement proteins, belonging to the 30K superfamily.

Author

Borniego, María Belén, Karlin, David, Peña, Eduardo José, Robles Luna, Gabriel, and García, María Laura

Subjects

*VIRAL mutation, *PLANT viruses, *BIOINFORMATICS, *TOBACCO mosaic virus, *VIRAL proteins, *RNA viruses

Abstract

Ophioviridae is a family of segmented, negative-sense, single-stranded RNA plant viruses. We showed that their cell-to-cell movement protein (MP) is an isolated member of the 30K MP superfamily with a unique structural organization. All 30K MPs share a core domain that contains a nearly-invariant signature aspartate. We examined its role in the MP of Citrus psorosis virus (CPsV) and Mirafiori lettuce big-vein virus (MiLBVV). Alanine substitution of this aspartate prevented plasmodesmata accumulation of MP MiLBVV , while MP CPsV was not affected. The capacity of ophiovirus MPs to increase the plasmodesmata size exclusion limit and non-cell autonomous protein feature was abolished in both mutants. To investigate the role of the signature aspartate in cell-to-cell movement, we constructed a new movement-deficient Tobacco mosaic virus vector used for trans-complementation assays. We showed that both ophiovirus MP mutants lack the cell-to-cell movement capacity, confirming that this signature aspartate is essential for viral cell-to-cell movement. [ABSTRACT FROM AUTHOR]

Published

2016

11. Properties of satellite tobacco mosaic virus phenotypes expressed in the presence and absence of helper virus.

Author

Sivanandam, Venkatesh, Mathews, Deborah, and Rao, A.L.N.

Subjects

*TOBACCO mosaic virus, *GENE expression in viruses, *HELPER viruses, *AGROBACTERIUM, *NICOTIANA benthamiana, *GENETIC transcription, *VIRAL replication, *VIRUSES

Abstract

In this study, we assembled an Agrobacterium -based transient expression system for the ectopic expression of Satellite tobacco mosaic virus (STMV) (+) or (−) transcripts and their biological activity was confirmed when Nicotiana benthamiana plants were co-expressed with helper Tobacco mosaic virus replicase. Characterization of STMV in the presence and absence of its HV revealed: (i) HV-dependent expression of STMV (+) in N. benthamiana , but not in N. tabacum , generated a replication-deficient but translation and encapsidation competent variant lacking the highly conserved 3′ 150 nucleotides (nt) (STMVΔ150); (ii) mutational analysis demonstrated that a conserved 3′ stem-loop structure in wild type and STMVΔ150 located between nt 874 and 897 is essential for translation of CP; (iii) helper virus-independent expression of CP from wt STMV was competent for the assembly of empty aberrant virion-like particles; whereas, CP translated from STMVΔ150 resulted in disorganized CP aggregates suggesting a role for the 3′tRNA-like structure in STMV assembly. [ABSTRACT FROM AUTHOR]

Published

2015

12. Finding our roots and celebrating our shoots: Plant virology in Virology, 1955–1964.

Author

Scholthof, Karen-Beth G.

Subjects

*PLANT viruses, *VIROLOGISTS, *MOSAIC viruses, *LIFE sciences, *SURVEYS, *ELECTRON microscopes

Abstract

To celebrate the sixtieth anniversary of Virology a survey is made of the plant viruses, virologists and their institutions, and tools and technology described in the first decade of plant virus publications in Virology . This was a period when plant viruses increasingly became tools of discovery as epistemic objects and plant virology became a discipline discrete from plant pathology and other life sciences. [ABSTRACT FROM AUTHOR]

Published

2015

13. Plants, viruses and the environment: Ecology and mutualism.

Author

Roossinck, Marilyn J.

Subjects

*TOBACCO mosaic virus, *MUTUALISM (Biology), *VIRAL ecology, *VIRAL transmission, *WILD plants

Abstract

Since the discovery of Tobacco mosaic virus nearly 120 years ago, most studies on viruses have focused on their roles as pathogens. Virus ecology takes a different look at viruses, from the standpoint of how they affect their hosts׳ interactions with the environment. Using the framework of symbiotic relationships helps put the true nature of viruses into perspective. Plants clearly have a long history of relationships with viruses that have shaped their evolution. In wild plants viruses are common but usually asymptomatic. In experimental studies plant viruses are sometimes mutualists rather than pathogens. Virus ecology is closely tied to the ecology of their vectors, and the behavior of insects, critical for transmission of many plant viruses, is impacted by virus–plant interactions. Virulence is probable not beneficial for most host–virus interactions, hence commensal and mutualistic relationships are almost certainly common, in spite of the paucity of literature on beneficial viruses. [ABSTRACT FROM AUTHOR]

Published

2015

14. Evolution of plant virus movement proteins from the 30K superfamily and of their homologs integrated in plant genomes.

Author

Mushegian, Arcady R. and Elena, Santiago F.

Subjects

*TOBACCO mosaic virus, *PLANT viruses, *VIRAL evolution, *VIRAL proteins, *PLANT genomes, *MESSENGER RNA

Abstract

Homologs of Tobacco mosaic virus 30K cell-to-cell movement protein are encoded by diverse plant viruses. Mechanisms of action and evolutionary origins of these proteins remain obscure. We expand the picture of conservation and evolution of the 30K proteins, producing sequence alignment of the 30K superfamily with the broadest phylogenetic coverage thus far and illuminating structural features of the core all-beta fold of these proteins. Integrated copies of pararetrovirus 30K movement genes are prevalent in euphyllophytes, with at least one copy intact in nearly every examined species, and mRNAs detected for most of them. Sequence analysis suggests repeated integrations, pseudogenizations, and positive selection in those provirus genes. An unannotated 30K-superfamily gene in Arabidopsis thaliana genome is likely expressed as a fusion with the At1g37113 transcript. This molecular background of endopararetrovirus gene products in plants may change our view of virus infection and pathogenesis, and perhaps of cellular homeostasis in the hosts. [ABSTRACT FROM AUTHOR]

Published

2015

15. The length of an internal poly(A) tract of hibiscus latent Singapore virus is crucial for its replication.

Author

Niu, Shengniao, Cao, Shishu, Huang, Li-Jing, Tan, Kelvin Chee-Leong, and Wong, Sek-Man

Subjects

*HIBISCUS, *VIRAL replication, *COAT proteins (Viruses), *BIOACCUMULATION, *TOBACCO mosaic virus, *NECROSIS

Abstract

Hibiscus latent Singapore virus (HLSV) mutants were constructed to study roles of its internal poly(A) tract (IPAT) in viral replication and coat protein (CP) expression. Shortening of the IPAT resulted in reduced HLSV RNA accumulation and its minimal length required for HLSV CP expression in plants was 24 nt. Disruption of a putative long range RNA-RNA interacting structure between 5′ and 3′ untranslated regions of HLSV-22A and −24A resulted in reduced viral RNA and undetectable CP accumulation in inoculated leaves. Replacement of the IPAT in HLSV with an upstream pseudoknot domain (UPD) of Tobacco mosaic virus (TMV) or insertion of the UPD to the immediate downstream of a 24 nt IPAT in HLSV resulted in drastically reduced viral RNA replication. Plants infected with a TMV mutant by replacement of the UPD with 43 nt IPAT exhibited milder mosaic symptoms without necrosis. We have proposed a model for HLSV replication. [ABSTRACT FROM AUTHOR]

Published

2015

16. Comparison of the Oilseed rape mosaic virus and Tobacco mosaic virus movement proteins (MP) reveals common and dissimilar MP functions for tobamovirus spread.

Author

Niehl, Annette, Pasquier, Adrien, Ferriol, Inmaculada, Mély, Yves, and Heinlein, Manfred

Subjects

*MOSAIC viruses, *TOBACCO mosaic virus, *TOBAMOVIRUSES, *VIRAL transmission, *PLASMODESMATA, OILSEED plant diseases & pests

Abstract

Abstract: Tobacco mosaic virus (TMV) is a longstanding model for studying virus movement and macromolecular transport through plasmodesmata (PD). Its movement protein (MP) interacts with cortical microtubule (MT)-associated ER sites (C-MERs) to facilitate the formation and transport of ER-associated viral replication complexes (VRCs) along the ER–actin network towards PD. To investigate whether this movement mechanism might be conserved between tobamoviruses, we compared the functions of Oilseed rape mosaic virus (ORMV) MP with those of MPTMV. We show that MPORMV supports TMV movement more efficiently than MPTMV. Moreover, MPORMV localizes to C-MERs like MPTMV but accumulates to lower levels and does not localize to larger inclusions/VRCs or along MTs, patterns regularly seen for MPTMV. Our findings extend the role of C-MERs in viral cell-to-cell transport to a virus commonly used for functional genomics in Arabidopsis. Moreover, accumulation of tobamoviral MP in inclusions or along MTs is not required for virus movement. [Copyright &y& Elsevier]

Published

2014

17. Presence of poly(A) and poly(A)-rich tails in a positive-strand RNA virus known to lack 3׳ poly(A) tails.

Author

Li, Weimin, Zhang, Yongqiang, Zhang, Chao, Pei, Xinwu, Wang, Zhixing, and Jia, Shirong

Subjects

*POSITIVE-strand RNA viruses, *TOBACCO mosaic virus, *NUCLEOTIDES, *ADENOSINES, *NUCLEIC acids, *EXORIBONUCLEASES

Abstract

Abstract: Here we show that Tobacco mosaic virus (TMV), a positive-strand RNA virus known to end with 3׳ tRNA-like structures, does possess a small fraction of gRNA bearing polyadenylate tails. Particularly, many tails are at sites corresponding to the 3׳ end of near full length gRNA, and are composed of poly(A)-rich sequences containing the other nucleotides in addition to adenosine, resembling the degradation-stimulating poly(A) tails observed in all biological kingdoms. Further investigations demonstrate that these polyadenylated RNA species are not enriched in chloroplasts. Silencing of cpPNPase, a chloroplast-localized polynucleotide polymerase known to not only polymerize the poly(A)-rich tails but act as a 3׳ to 5׳ exoribonuclease, does not change the profile of polyadenylate tails associated with TMV RNA. Nevertheless, because similar tails were also detected in other phylogenetically distinct positive-strand RNA viruses lacking poly(A) tails, such kind of polyadenylation may reflect a common but as-yet-unknown interface between hosts and viruses. [Copyright &y& Elsevier]

Published

2014

18. The use of tobacco mosaic virus and cowpea mosaic virus for the production of novel metal nanomaterials.

Author

Love, Andrew J., Makarov, Valentine, Yaminsky, Igor, Kalinina, Natalia O., and Taliansky, Michael E.

Subjects

*TOBACCO mosaic virus, *COWPEA mosaic virus, *NANOSTRUCTURED materials, *VIRUS morphology, *SURFACE chemistry, *CAPSIDS

Abstract

Abstract: Due to the nanoscale size and the strictly controlled and consistent morphologies of viruses, there has been a recent interest in utilizing them in nanotechnology. The structure, surface chemistries and physical properties of many viruses have been well elucidated, which have allowed identification of regions of their capsids which can be modified either chemically or genetically for nanotechnological uses. In this review we focus on the use of such modifications for the functionalization and production of viruses and empty viral capsids that can be readily decorated with metals in a highly tuned manner. In particular, we discuss the use of two plant viruses (Cowpea mosaic virus and Tobacco mosaic virus) which have been extensively used for production of novel metal nanoparticles (<100nm), composites and building blocks for 2D and 3D materials, and illustrate their applications. [Copyright &y& Elsevier]

Published

2014

19. Biodistribution, pharmacokinetics, and blood compatibility of native and PEGylated tobacco mosaic virus nano-rods and -spheres in mice.

Author

Bruckman, Michael A., Randolph, Lauren N., VanMeter, Allen, Hern, Stephen, Shoffstall, Andrew J., Taurog, Rebecca E., and Steinmetz, Nicole F.

Subjects

*PHARMACOKINETICS, *BLOOD cells, *BIOCOMPATIBILITY, *POLYETHYLENE glycol, *TOBACCO mosaic virus, *NANORODS

Abstract

Abstract: Understanding the pharmacokinetics, blood compatibility, biodistribution and clearance properties of nanoparticles is of great importance to their translation to clinical application. In this paper we report the biodistribution and pharmacokinetic properties of tobacco mosaic virus (TMV) in the forms of 300×18nm2 rods and 54nm-sized spheres. The availability of rods and spheres made of the same protein provides a unique scaffold to study the effect of nanoparticle shape on in vivo fate. For enhanced biocompatibility, we also considered a PEGylated formulation. Overall, the versions of nanoparticles exhibited comparable in vivo profiles; a few differences were noted: data indicate that rods circulate longer than spheres, illustrating the effect that shape plays on circulation. Also, PEGylation increased circulation times. We found that macrophages in the liver and spleen cleared the TMV rods and spheres from circulation. In the spleen, the viral nanoparticles trafficked through the marginal zone before eventually co-localizing in B-cell follicles. TMV rods and spheres were cleared from the liver and spleen within days with no apparent changes in histology, it was noted that spheres are more rapidly cleared from tissues compared to rods. Further, blood biocompatibility was supported, as none of the formulations induced clotting or hemolysis. This work lays the foundation for further application and tailoring of TMV for biomedical applications. [Copyright &y& Elsevier]

Published

2014

20. Plant SNAREs SYP22 and SYP23 interact with Tobacco mosaic virus 126 kDa protein and SYP2s are required for normal local virus accumulation and spread

Author

Bethany A Bishop, Richard S. Nelson, Min Zhu, James E. Schoelz, Xiaohua Yang, Amr Ibrahim, Soon Il Kwon, Chengke Liu, and Kimberly D. Cooper

Subjects

viruses, Two-hybrid screening, Arabidopsis, Nicotiana benthamiana, Biology, Virus, 03 medical and health sciences, Bimolecular fluorescence complementation, Viral Proteins, Virology, Tobacco, Tobacco mosaic virus, Arabidopsis thaliana, Gene Silencing, 030304 developmental biology, Plant Diseases, 0303 health sciences, Arabidopsis Proteins, Qa-SNARE Proteins, fungi, 030302 biochemistry & molecular biology, food and beverages, biology.organism_classification, Cell biology, Tobacco Mosaic Virus, mCherry, Protein Binding

Abstract

Viral proteins often interact with multiple host proteins during virus accumulation and spread. Identities and functions of all interacting host proteins are not known. Through a yeast two-hybrid screen an Arabidopsis thaliana Qa-SNARE protein [syntaxin of plants 23 (AtSYP23)], associated with pre-vacuolar compartment and vacuolar membrane fusion activities, interacted with Tobacco mosaic virus (TMV) 126 kDa protein, associated with virus accumulation and spread. In planta, AtSYP23 and AtSYP22 each fused with mCherry, co-localized with 126 kDa protein-GFP. Additionally, A. thaliana and Nicotiana benthamiana SYP2 proteins and 126 kDa protein interacted during bimolecular fluorescence complementation analysis. Decreased TMV accumulation in Arabidopsis plants lacking SYP23 and in N. benthamiana plants subjected to virus-induced gene silencing (VIGS) of SYP2 orthologs was observed. Diminished TMV accumulation during VIGS correlated with less intercellular virus spread. The inability to eliminate virus accumulation suggests that SYP2 proteins function redundantly for TMV accumulation, as for plant development.

Published

2020

21. Barley stripe mosaic virus: Structure and relationship to the tobamoviruses.

Author

Kendall, Amy, Williams, Dewight, Bian, Wen, Stewart, Phoebe L., and Stubbs, Gerald

Subjects

*MOSAIC viruses, *TOBAMOVIRUSES, *HORDEIVIRUSES, *ELECTRON microscopy, *COAT proteins (Viruses), *VIROLOGY

Abstract

Abstract: Barley stripe mosaic virus (BSMV) is the type member of the genus Hordeivirus, rigid, rod-shaped viruses in the family Virgaviridae. We have used fiber diffraction and cryo-electron microscopy to determine the helical symmetry of BSMV to be 23.2 subunits per turn of the viral helix, and to obtain a low-resolution model of the virus by helical reconstruction methods. Features in the model support a structural relationship between the coat proteins of the hordeiviruses and the tobamoviruses. [Copyright &y& Elsevier]

Published

2013

22. Ophioviruses CPsV and MiLBVV movement protein is encoded in RNA 2 and interacts with the coat protein.

Author

Robles Luna, Gabriel, Peña, Eduardo José, Borniego, María Belén, Heinlein, Manfred, and Garcia, Maria Laura

Subjects

*COAT proteins (Viruses), *PLANT viruses in host plants, *LETTUCE, *VIRAL genetics, *GENE expression in viruses, *NICOTIANA benthamiana, *TOBACCO mosaic virus

Abstract

Abstract: Citrus psorosis virus (CPsV) and Mirafiori lettuce big-vein virus (MiLBVV), members of the Ophioviridae family, have segmented negative-sense single-stranded RNA genomes. To date no reports have described how ophioviruses spread within host plants and/or the proteins involved in this process. Here we show that the 54K protein of CPsV is encoded by RNA 2 and describe its subcellular distribution. Upon transient expression in Nicotiana benthamiana epidermal cells the 54K protein, and also its 54K counterpart protein of MiLBVV, localize to plasmodesmata and enhance GFP cell-to-cell diffusion between cells. Both proteins, but not the coat proteins (CP) of the respective viruses, functionally trans-complement cell-to-cell movement-defective Potato virus X (PVX) and Tobacco mosaic virus (TMV) mutants. The 54K and 54K proteins interact with the virus-specific CP in the cytoplasm, suggesting a potential role of CP in ophiovirus movement. This is the first study characterizing the movement proteins (MP) of ophioviruses. [Copyright &y& Elsevier]

Published

2013

23. Translation elongation factor 1B (eEF1B) is an essential host factor for Tobacco mosaic virus infection in plants

Author

Hwang, JeeNa, Oh, Chang-Sik, and Kang, Byoung-Cheorl

Subjects

*ELONGATION factors (Biochemistry), *TOBACCO mosaic virus, *VIRUS diseases of plants, *GENE silencing, *NICOTIANA benthamiana, *COAT proteins (Viruses), *RNA polymerases, *VIRAL proteins

Abstract

Abstract: Identifying host factors provides an important clue to understand virus infection. We selected 10 host factor candidate genes and each gene was silenced in Nicotiana benthamiana (N. benthamiana) to investigate their roles in virus infection. The resulting plants were infected with Tobacco mosaic virus (TMV). The accumulation of viral coat protein and the spread of virus were greatly reduced in the plants that eukaryotic translation elongation factor 1A (eEF1A) or 1B (eEF1B) was silenced. These results suggest both eEF1A and eEF1B are required for TMV infection. We also tested for interactions between the eEFs and viral proteins of TMV. Both eEF1A and eEF1B proteins interacted directly with the methyltransferase (MT) domain of the TMV RNA-dependent RNA polymerase (RdRp). eEF1A and eEF1B also interacted with each other in vivo. Our data suggest that eEF1B may be a component of the TMV replication complex which interacts with MT domain of TMV RdRp and eEF1A. [Copyright &y& Elsevier]

Published

2013

24. Guanylylation-competent replication proteins of Tomato mosaic virus are disulfide-linked

Author

Nishikiori, Masaki, Meshi, Tetsuo, and Ishikawa, Masayuki

Subjects

*TOBACCO mosaic virus, *REPLICATION protein A, *RNA, *BROME mosaic virus, *CUCUMBER mosaic virus, *DISULFIDES, *CYSTEINE

Abstract

Abstract: The 130-kDa and 180-kDa replication proteins of Tomato mosaic virus (ToMV) covalently bind guanylate and transfer it to the 5′ end of RNA to form a cap. We found that guanylylation-competent ToMV replication proteins are in membrane-bound, disulfide-linked complexes. Guanylylation-competent replication proteins of Brome mosaic virus and Cucumber mosaic virus behaved similarly. To investigate the roles of disulfide bonding in the functioning of ToMV replication proteins, each of the 19 cysteine residues in the 130-kDa protein was replaced by a serine residue. Interestingly, three mutant proteins (C179S, C186S and C581S) failed not only to be guanylylated, but also to bind to the replication template and membranes. These mutants could trans-complement viral RNA replication. Considering that ToMV replication proteins recognize the replication templates, bind membranes, and are guanylylated in the cytoplasm that provides a reducing condition, we discuss the roles of cysteine residues and disulfide bonds in ToMV RNA replication. [Copyright &y& Elsevier]

Published

2012

25. Cis-acting element (SL1) of Potato virus X controls viral movement by interacting with the NbMPB2Cb and viral proteins

Author

Cho, Sang-Yun, Cho, Won Kyong, Choi, Hong-Soo, and Kim, Kook-Hyung

Subjects

*POTATO virus X, *TOBACCO mosaic virus, *VIRAL proteins, *MICROBIAL protoplasts, *MESSENGER RNA, *RNA viruses, *PROTEIN-protein interactions

Abstract

Abstract: A number of candidate tobacco proteins that bind to cis-acting elements (SL1 RNAs) of Potato virus X (PVX) have been identified in previous studies. We further characterized TMV-MP30 binding protein 2C (MPB2C) homologous protein. We isolated NbMPB2Cb from Nicotiana benthamiana and confirmed the interaction of NbMPB2Cb with SL1 RNAs in vitro. The mRNA level of NbMPB2Cb was increased upon infection by PVX and Tobacco mosaic virus. The movement of PVX was reduced by overexpression of NbMPB2Cb and increased by silenced of NbMPB2Cb. In contrast, PVX RNA accumulation was not significantly altered in protoplasts. Protein–protein interaction assays showed that NbMPB2Cb interacts with PVX movement-associated proteins. PVX infection altered the subcellular localization of NbMPB2Cb from microtubules to endoplasmic reticulum. These data suggest that the NbMPB2Cb negatively affects PVX movement by interacting with SL1 RNAs and movement-associated proteins of PVX and by re-localizing in response to PVX infection. [Copyright &y& Elsevier]

Published

2012

26. The Rice stripe virus pc4 functions in movement and foliar necrosis expression in Nicotiana benthamiana

Author

Zhang, Chao, Pei, Xinwu, Wang, Zhixing, Jia, Shirong, Guo, Shiwei, Zhang, Yongqiang, and Li, Weimin

Subjects

*NICOTIANA benthamiana, *VIRUS diseases of plants, *TOBACCO mosaic virus, *NECROSIS, *CELL motility, *VIRAL proteins

Abstract

Abstract: The Rice stripe virus (RSV) pc4 has been determined as the viral movement protein (MP). In this study, the pc4 gene was cloned into a movement-deficient Tobacco mosaic virus (TMV). The resulting hybrid TMV-pc4, in addition to spreading cell to cell in Nicotiana tabacum, moved systemically and induced foliar necrosis in Nicotiana benthamiana, indicating novel functions of the RSV MP. A systematic alanine-scanning mutagenesis study established the region K122–D258 of the pc4 substantially associated with cell-to-cell movement, and mutants by replacement of KGR122–124, D135, ED170–171, ER201–202, EFE218–220 or ELD256–258 with alanine(s) no longer moved cell to cell. However, only one amino acid group KGR122–124 was linked with long-distance movement. The region D17–K33 was recognized as a crucial domain for leaf necrosis response, and mutagenesis of DD17–18 or RK32–33 greatly attenuated necrosis. The overall data suggested manifold roles of the pc4 during the RSV infection in its experimental host N. benthamiana. [Copyright &y& Elsevier]

Published

2012

27. Association of the Tobacco mosaic virus 126kDa replication protein with a GDI protein affects host susceptibility

Author

Kramer, Sabrina R., Goregaoker, Sameer P., and Culver, James N.

Subjects

*TOBACCO mosaic disease, *TOBACCO mosaic virus, *VIRAL replication, *PLANT virus genetics, *ENZYME inhibitors, *CYTOPLASM, *GENETIC code

Abstract

Abstract: An interaction between the Tobacco mosaic virus (TMV) 126kDa replication protein and a host-encoded Rab GDP dissociation inhibitor (GDI2) was identified and investigated for its role in infection. GDI proteins are essential components of vesicle trafficking pathways. TMV infection alters the localization of GDI2 from the cytoplasm to ER-associated complexes. Partial silencing of GDI2 results in significant increases in the number of TMV infection foci observed in inoculated tissues. However, GDI2 silencing does not affect TMV accumulation at the infection site, cell-to-cell movement, or susceptibility of the host to mechanical inoculation. Furthermore, increases in the number of successful infection foci were specific to TMV and correlated with the appearance of vesicle-like rearrangements in the vacuolar membrane. Tissue infiltrations with brefeldin A, an inhibitor of vesicle trafficking, also enhanced host susceptibility to TMV. Combined these findings suggest that the 126kDa–GDI2 interaction alters vesicle trafficking to enhance the establishment of an infection. [Copyright &y& Elsevier]

Published

2011

28. Trastuzumab-binding peptide display by Tobacco mosaic virus

Author

Frolova, Olga Y., Petrunia, Igor V., Komarova, Tatiana V., Kosorukov, Vyacheslav S., Sheval, Eugene V., Gleba, Yuri Y., and Dorokhov, Yuri L.

Subjects

*TOBACCO mosaic virus, *TRASTUZUMAB, *POTATO virus X, *PEPTIDES, *BREAST cancer, *CANCER cell proliferation, *VIRAL replication, *VIRAL proteins, *PREVENTION

Abstract

Abstract: Human epidermal growth factor receptor-2 (HER2/neu) is a target for the humanized monoclonal antibody trastuzumab. Recently, trastuzumab-binding peptides (TBP) of HER2/neu that inhibit proliferation of breast cancer cells were identified. We have now studied conditions of efficient assembly in vivo of Tobacco mosaic virus (TMV)-based particles displaying TBP on its surface. The system is based on an Agrobacterium-mediated co-delivery of binary vectors encoding TMV RNA and coat protein (CP) with TBP in its C-terminal extension into plant leaves. We show how the fusion of amino acid substituted TBP (sTBP) to CP via a flexible peptide linker can improve the manufacturability of recombinant TMV (rTMV). We also reveal that rTMV particles with exposed sTBP retained trastuzumab-binding capacity but lost an anti-HER2/neu immunogenic scaffold function. Mouse antibodies against rTMV did not recognize HER2/neu on surface of human SK-BR-3 cells. [ABSTRACT FROM AUTHOR]

Published

2010

29. A novel two-component Tobacco mosaic virus-based vector system for high-level expression of multiple therapeutic proteins including a human monoclonal antibody in plants

Author

Roy, Gourgopal, Weisburg, Sangeetha, Rabindran, Shailaja, and Yusibov, Vidadi

Subjects

*TOBACCO mosaic virus, *MONOCLONAL antibodies, *GENE expression, *GENETIC vectors, *VIRAL replication, *RNA

Abstract

Abstract: Expression of multiple therapeutic proteins from Tobacco mosaic virus (TMV)-based vectors was not successful when plants were coinoculated with a mixture of two TMV vectors engineered to express two foreign genes individually. Here, we have engineered and developed a defective RNA (dRNA)-based TMV vector (dRT-V) that utilizes two components of the same virus, with the dRNA component depending on the helper virus for replication. Agrobacterium-mediated coinoculation of Nicotiana benthamiana plants with both components of the dRT-V resulted in high-level expression of a human growth hormone and a lichenase-fused lethal factor protein of Bacillus anthracis. Furthermore, both heavy and light chains were expressed and assembled into a monoclonal antibody (mAb) specific to the protective antigen of B. anthracis, and the average yield of the purified antibody obtained was 120mg/kg of fresh tissue. Our data suggest that dRT-V has a potential for rapid, cost-effective, large-scale manufacturing of multiple therapeutic proteins including mAbs in response to any biological emergencies. [ABSTRACT FROM AUTHOR]

Published

2010

30. Helicase ATPase activity of the Tobacco mosaic virus 126-kDa protein modulates replicase complex assembly

Author

Wang, Xiao, Kelman, Zvi, and Culver, James N.

Subjects

*TOBACCO mosaic virus, *DNA helicases, *ADENOSINE triphosphatase, *VIRAL proteins, *RNA viruses, *VIRAL replication, *MOLECULAR virology

Abstract

Abstract: Mutations disrupting helicase domain motifs of the Tobacco mosaic virus 126/183-kDa proteins were investigated for their effect on replicase function and assembly. These mutations inhibited virus replication but did not affect 126-kDa induced N gene resistance or RNAi suppression. However, in vivo expressed 126-kDa motif mutants yielded two distinct cytoplasmic phenotypes that correlated with ATPase activity. Specifically, ATPase active 126-kDa proteins produced small cytoplasmic bodies that resembled the ovoid granular-like bodies found early in virus infection while 126-kDa proteins defective in ATPase activity produced large tubule containing cytoplasmic bodies similar to those observed late in infection. Additional studies indicate that the helicase ATPase activity resides predominantly within monomer and dimer helicase forms and that motifs affecting ATPase activity induce alterations in helicase assembly. Combined these findings indicate that helicase ATPase activity modulates the progression of replicase complex assembly and maturation. [Copyright &y& Elsevier]

Published

2010

31. The Tobacco etch virus P3 protein forms mobile inclusions via the early secretory pathway and traffics along actin microfilaments

Author

Cui, Xiaoyan, Wei, Taiyun, Chowda-Reddy, R.V., Sun, Guangyu, and Wang, Aiming

Subjects

*TOBACCO mosaic virus, *CYTOPLASMIC filaments, *POTYVIRUSES, *MEMBRANE proteins, *NICOTIANA benthamiana, *ENDOPLASMIC reticulum, *VIRAL replication, *RNA viruses, *ACTIN

Abstract

Abstract: Plant potyviruses encode two membrane proteins, 6K and P3. The 6K protein has been shown to induce virus replication vesicles. However, the function of P3 remains unclear. In this study, subcellular localization of the Tobacco etch virus (TEV) P3 protein was investigated in Nicotiana benthamiana leaf cells. The TEV P3 protein localized on the endoplasmic reticulum (ER) membrane and formed punctate inclusions in association with the Golgi apparatus. The trafficking of P3 to the Golgi was mediated by the early secretory pathway. The Golgi-associated punctate structures originated from the ER exit site (ERES). Deletion analyses identified P3 domains required for the retention of P3 at the Golgi. Moreover, the P3 punctate structure was found to traffic along the actin filaments and colocalize with the 6K-containing replication vesicles. Taken together, these data support previous suggestions that P3 may play dual roles in virus movement and replication. [Copyright &y& Elsevier]

Published

2010

32. Identification of domains of the Tomato spotted wilt virus NSm protein involved in tubule formation, movement and symptomatology

Author

Li, Weimin, Lewandowski, Dennis J., Hilf, Mark E., and Adkins, Scott

Subjects

*VIRUS identification, *VIRAL proteins, *TOMATO spotted wilt virus disease, *PLANT protoplasts, *ORGANELLE formation, *SYMPTOMS, *AMINO acid sequence, *TOBACCO mosaic virus

Abstract

Abstract: Deletion and alanine-substitution mutants of the Tomato spotted wilt virus NSm protein were generated to identify domains involved in tubule formation, movement and symptomatology using a heterologous Tobacco mosaic virus expression system. Two regions of NSm, G19-S159 and G209-V283, were required for both tubule formation in protoplasts and cell-to-cell movement in plants, indicating a correlation between these activities. Three amino acid groups, D154, EYKK205–208 and EEEEE284–288 were linked with long-distance movement in Nicotiana benthamiana. EEEEE284–288 was essential for NSm-mediated long-distance movement, whereas D154 was essential for tubule formation and cell-to-cell movement; indicating separate genetic controls for cell-to-cell and long-distance movement. The region I57-N100 was identified as the determinant of foliar necrosis in Nicotiana benthamiana, and mutagenesis of HH93–94 greatly reduced necrosis. These findings are likely applicable to other tospovirus species, especially those within the ‘New World’ group as NSm sequences are highly conserved. [Copyright &y& Elsevier]

Published

2009

33. Lettuce infectious yellows virus-encoded P26 induces plasmalemma deposit cytopathology

Author

Stewart, Lucy R., Medina, Vicente, Sudarshana, Mysore R., and Falk, Bryce W.

Subjects

*PHYTOPLASMAS, *CELL membranes, *CELLULAR pathology, *PLANT cells & tissues, *VIRAL genetics, *TOBACCO mosaic virus, *GREEN fluorescent protein

Abstract

Abstract: Lettuce infectious yellows virus (LIYV) encodes a 26 kDa protein (P26) previously shown to associate with plasmalemma deposits (PLDs), unique LIYV-induced cytopathologies located at the plasmalemma over plasmodesmata pit fields in companion cells and phloem parenchyma. To further characterize the relationship of P26 and PLDs, we assessed localization and cytopathology induction of P26 expressed from either LIYV or a heterologous Tobacco mosaic virus (TMV) vector using green fluorescent protein (GFP) fusions, immunofluorescence microscopy, biochemical fractionation, and transmission electron microscopy (TEM). TEM analyses demonstrated that P26 not only associated with, but induced formation of PLDs in the absence of other LIYV proteins. Interestingly, PLDs induced by P26-expressing TMV were no longer confined to phloem cells. Putative P26 orthologs from two other members of the genus Crinivirus which do not induce conspicuous PLDs exhibited fractionation properties similar to LIYV P26 but were not associated with any PLD-like cytopathology. [Copyright &y& Elsevier]

Published

2009

34. A conserved binding site within the Tomato golden mosaic virus AL-1629 promoter is necessary for expression of viral genes important for pathogenesis

Author

Tu, Jun and Sunter, Garry

Subjects

*TOBACCO mosaic virus, *NUCLEAR matrix, *PROMOTERS (Genetics), *ARABIDOPSIS

Abstract

Abstract: We have identified a nine base pair sequence in Tomato golden mosaic virus that is required for binding of nuclear proteins from tobacco and Arabidopsis to viral DNA. The sequence is located within the promoter for a 0.7 kb complementary sense mRNA (AL-1629). Mutation of the binding site results in a two- to six-fold reduction in the accumulation of AL-1629 mRNA, leading to reduced AL2 and AL3 gene expression. Viral sequences located immediately adjacent to the core binding site appear to influence AL2 and AL3 expression, but retain some binding affinity to a soluble host protein(s). The ability of a nuclear protein(s) to bind sequences within the AL-1629 promoter correlates with efficient viral DNA replication, as mutation of these sequences results in reduced viral DNA levels. Analysis of begomo- and curtoviruses indicates extensive conservation of this binding site, which suggests a common mechanism regulating expression of two viral genes involved in replication and suppression of host defense responses. [Copyright &y& Elsevier]

Published

2007

35. Tobacco mosaic virus defective RNAs expressing C-terminal methyltransferase domain sequences are severely impaired in long-distance movement in Nicotiana benthamiana

Author

Knapp, Elisabeth, Achor, Diann, and Lewandowski, Dennis J.

Subjects

*TOBACCO mosaic virus, *TOBAMOVIRUSES, *GENE expression, *METHYLTRANSFERASES

Abstract

Abstract: Tobamovirus replicase proteins, which function in replication and gene expression, are also implicated in viral cell-to-cell and long-distance movement. The role(s) of Tobacco mosaic virus (TMV) 126-/183-kDa replicase protein in the complex movement process are not understood due to lack of systems that can separate the multiple steps involved. We previously developed a bipartite TMV-defective RNA (dRNA) system to dissect the role of the N-terminal methyltransferase (MT) domain in accumulation and cell-to-cell movement of dRNAs [Knapp, E., Danyluk, G.M., Achor, D., Lewandowski, D.J., 2005. A bipartite Tobacco mosaic virus–defective RNA (dRNA) system to study the role of the N-terminal methyltransferase domain in cell-to-cell movement of dRNAs. Virology 341, 47–58]. In the current study we analyzed long-distance movement of dRNAs in the presence of helper virus in Nicotiana benthamiana. dRNAs expressing ∼50% of the MT domain (ΔHinc151) moved long-distances in more than half of the plants. dRNAs expressing ∼90% of the MT domain sequences (ΔCla151) predominantly failed to accumulate in upper leaves. The helper virus moved systemically when inoculated alone or with a dRNA. In inoculated leaves, more ΔHinc151-induced infection foci spread adjacent to class V veins compared to those of ΔCla151. Consequently, ΔHinc151 infected more class V veins than ΔCla151. ΔCla151 was only detected in bundle sheath cells, whereas ΔHinc151 could accumulate in bundle sheath and phloem parenchyma cells of class V veins. However, the latter accumulation pattern did not always result in systemic accumulation of ΔHinc151, suggesting that factors in addition to those affecting cell-to-cell movement played a role in long-distance movement. [Copyright &y& Elsevier]

Published

2007

36. Assembly of trans-encapsidated recombinant viral vectors engineered from Tobacco mosaic virus and Semliki Forest virus and their evaluation as immunogens

Author

Smith, Mark L., Corbo, Tina, Bernales, Jacqueline, Lindbo, John A., Pogue, Gregory P., Palmer, Kenneth E., and McCormick, Alison A.

Subjects

*RNA viruses, *VACCINES, *ANIMAL cell biotechnology, *SEMLIKI Forest virus

Abstract

Abstract: RNA virus vectors are attractive vaccine delivery agents capable of directing high-level gene expression without integration into host cell DNA. However, delivery of non-encapsidated RNA viral vectors into animal cells is relatively inefficient. By introducing the tobacco mosaic virus (TMV) origin of assembly into the RNA genome of Semliki Forest virus (SFV), we generated an SFV expression vector that could be efficiently packaged (trans-encapsidated) in vitro by purified TMV coat protein (CP). Using cellular assays, pseudovirus disassembly, RNA replication and reporter gene expression were demonstrated. We also evaluated the immune response to trans-encapsidated recombinant SFV carrying a model antigen gene (β-galactosidase) in C57/B6 mice. Relative to RNA alone, vector encapsidation significantly improved the humoral and cellular immune responses. Furthermore, reassembly with recombinant TMV CPs permitted the display of peptide epitopes on the capsid surface as either genetic fusions or through chemical conjugation, to complement the immunoreactivity of the encapsidated RNA genetic payload. The SFV vector/TMV CP system described provides an alternative nucleic acid delivery mechanism that is safe, easy to manufacture in vitro and that also facilitates the generation of unique nucleic acid/protein antigen compositions. [Copyright &y& Elsevier]

Published

2007

37. Validation of reference genes for quantifying changes in gene expression in virus-infected tobacco

Author

Ju-Yeon Yoon, Peter Palukaitis, and Eseul Baek

Subjects

0301 basic medicine, viruses, Potyvirus, Genes, Plant, Cucumovirus, Virus, Cucumber mosaic virus, 03 medical and health sciences, Tubulin, Virology, Plant virus, Reference genes, Tobacco, Tobacco mosaic virus, Genes, Essential, biology, Gene Expression Profiling, fungi, food and beverages, Reference Standards, Potato virus X, biology.organism_classification, Housekeeping gene, Potexvirus, 030104 developmental biology, Potato virus Y

Abstract

To facilitate quantification of gene expression changes in virus-infected tobacco plants, eight housekeeping genes were evaluated for their stability of expression during infection by one of three systemically-infecting viruses (cucumber mosaic virus, potato virus X, potato virus Y) or a hypersensitive-response-inducing virus (tobacco mosaic virus; TMV) limited to the inoculated leaf. Five reference-gene validation programs were used to establish the order of the most stable genes for the systemically-infecting viruses as ribosomal protein L25β-TubulinActin, and the least stable genes Ubiquitin-conjugating enzyme (UCE)PP2AGAPDH. For local infection by TMV, the most stable genes were EF1αCysteine proteaseActin, and the least stable genes were GAPDHPP2AUCE. Using two of the most stable and the two least stable validated reference genes, three defense responsive genes were examined to compare their relative changes in gene expression caused by each virus.

Published

2017

38. Chimeric Flock House virus protein A with endoplasmic reticulum-targeting domain enhances viral replication and virus-like particle trans-encapsidation in plants

Author

Yiyang Zhou and Christopher M. Kearney

Subjects

0301 basic medicine, viruses, Heterologous, Endoplasmic Reticulum, Virus Replication, Viral Proteins, 03 medical and health sciences, Protein Domains, Virus-like particle, Virology, Tobacco, Tobacco mosaic virus, Nodaviridae, Staphylococcal Protein A, Plant Diseases, biology, Tobacco etch virus, Endoplasmic reticulum, food and beverages, RNA, biology.organism_classification, Mitochondria, Protein Transport, 030104 developmental biology, Viral replication, biology.protein, RNA, Viral, Protein A

Abstract

Flock House virus (FHV) RNA can be trans-encapsidated, entirely in planta, by tobacco mosaic virus coat protein to form virus-like particles (VLPs). Vaccination with these VLPs leads to strong antigen expression in mice and immune-activation. We hypothesize that creating an additional cellular site for replication and/or trans-encapsidation might significantly improve the final output of trans-encapsidated product. FHV protein A was engineered to target the endoplasmic reticulum (ER) via a heterologous tobacco etch virus ER-targeting domain, and was expressed in cis or in trans relative to the replicating FHV RNA1. A strong increase in marker gene expression in plants was noted when ER-targeted protein A was supplied in trans. RNA fluorescence in situ hybridization revealed RNA1 replication in both the mitochondria and ER, and total RNA1 accumulation was increased. In support of our hypothesis, VLP yield was increased significantly by the addition of this single genetic component to the inoculum.

Published

2017

39. Modified Tobacco mosaic virus particles as scaffolds for display of protein antigens for vaccine applications

Author

Smith, Mark L., Lindbo, John A., Dillard-Telm, Stephan, Brosio, Paul M., Lasnik, Amanda B., McCormick, Alison A., Nguyen, Long V., and Palmer, Kenneth E.

Subjects

*TOBACCO mosaic virus, *VACCINATION, *PREVENTION of communicable diseases, *GREEN fluorescent protein, *PAPILLOMAVIRUSES, *PLANT viruses

Abstract

Abstract: Display of peptides or proteins in an ordered, repetitive array, such as on the surface of a virus-like particle, is known to induce an enhanced immune response relative to vaccination with the “free” protein antigen. The coat protein of Tobacco mosaic virus (TMV) can accommodate short peptide insertions into the primary sequence, but the display of larger protein moieties as genetic fusions to the capsid protein has not been possible. We employed a randomized library approach to introduce a reactive lysine at the externally located amino terminus of the coat protein, which facilitated biotinylation of the capsid. To characterize display of heterologous proteins on the virion surface, we bound a model antigen (green fluorescent protein (GFP)–streptavidin (SA), expressed and purified from plants) to the biotinylated TMV particles, creating a GFP-SA decorated virus particle. A GFP-SA tetramer loading of 26% was obtained, corresponding to approximately 2200 GFP moieties displayed per intact virion. We evaluated the immunogenicity of GFP decorated virions in both mice and guinea pigs and found augmented humoral IgG titers in both species, relative to unbound GFP-SA tetramer. Next, we fused an N-terminal fragment of the Canine oral papillomavirus L2 protein to streptavidin. With TMV display, the L2 protein fragment was significantly more immunogenic than uncoupled antigen when tested in mice. By demonstrating the presentation of whole proteins, this study expands the utility of TMV as a vaccine scaffold beyond that which is possible by genetic manipulation. [Copyright &y& Elsevier]

Published

2006

40. In vivo interaction between Tobacco mosaic virus RNA-dependent RNA polymerase and host translation elongation factor 1A

Author

Yamaji, Yasuyuki, Kobayashi, Toshihiko, Hamada, Koji, Sakurai, Keitaro, Yoshii, Atsushi, Suzuki, Masashi, Namba, Shigetou, and Hibi, Tadaaki

Subjects

*VIROLOGY, *TOBACCO mosaic virus, *VIRAL replication, *RNA, *RNA polymerases

Abstract

Abstract: Several host translation elongation factors have been suggested to play essential roles in the replication and translation of viral RNAs in plants, animals and bacteria. Here, we show the interaction between eukaryotic translation elongation factor 1A (eEF1A) and Tobacco mosaic virus (TMV) RNA-dependent RNA polymerase (RdRp) in vivo by immunoprecipitation. The tobacco eEF1A interacted not only with 3′-untranslated region (3′-UTR) of TMV RNA but also directly with RdRp without mediation by the 3′-UTR. The methyltransferase domain of TMV RdRp was indicated to be responsible for the interaction with eEF1A in vitro and in yeast. These results suggest that eEF1A is a component of the virus replication complex of TMV. [Copyright &y& Elsevier]

Published

2006

41. The tubule-forming NSm protein from Tomato spotted wilt virus complements cell-to-cell and long-distance movement of Tobacco mosaic virus hybrids

Author

Lewandowski, Dennis J. and Adkins, Scott

Subjects

*TOMATO spotted wilt virus disease, *TOBACCO mosaic virus, *PROTEINS

Abstract

Abstract: A Florida isolate of Tomato spotted wilt virus (TSWV) was able to complement cell-to-cell movement of a movement-defective Tobacco mosaic virus (TMV) vector expressing the jellyfish green fluorescent protein (GFP). To test for complementation of movement in the absence of other TSWV proteins, the open reading frame for the NSm protein was expressed from TMV constructs encoding only the TMV replicase proteins. NSm was expressed from either the coat protein or movement protein subgenomic promoter, creating virus hybrids that moved cell to cell in inoculated leaves of tobacco, providing the first functional demonstration that NSm is the TSWV movement protein. Furthermore, these CP-deficient hybrids moved into upper leaves of Nicotiana benthamiana, demonstrating that NSm can support long-distance movement of viral RNAs. Tubules, characteristic of the NSm protein, were also formed in tobacco protoplasts infected with the TMV–TSWV hybrids. The C-terminus of the NSm protein was shown to be required for movement. TMV–TSWV hybrids expressing NSm and GFP moved within inoculated leaves. Our combination of single-cell and intact plant experiments to examine multiple functions of a heterologous viral protein provides a generalized strategy with wider application to other viruses also lacking a reverse genetic system. [Copyright &y& Elsevier]

Published

2005

42. Subcellular localization of the Triple Gene Block movement proteins of Beet necrotic yellow vein virus by electron microscopy

Author

Erhardt, M., Vetter, G., Gilmer, D., Bouzoubaa, S., Richards, K., Jonard, G., and Guilley, H.

Subjects

*PROTEINS, *VIRUSES, *ELECTRON microscopy, *RNA

Abstract

Abstract: The Triple Gene Block proteins TGBp1, TGBp2, and TGBp3 of Beet necrotic yellow vein virus (BNYVV) are required for efficient cell-to-cell spread of the infection. The TGB proteins can drive cell-to-cell movement of BNYVV in trans when expressed from a co-inoculated BNYVV RNA 3-based ‘replicon’. TGBp2 and TGBp3 expressed from the replicon were nonfunctional in this assay if they were fused to the green fluorescent protein (GFP), but addition of a hemagglutinin (HA) tag to their C-termini did not incapacitate movement. Immunogold labeling of ultrathin sections treated with HA-specific antibodies localized TGBp2-HA and TGBp3-HA to what are probably structurally modified plasmodesmata (Pd) in infected cells. A similar subcellular localization was observed for TGBp1. Large gold-decorated membrane-rich bodies containing what appear to be short fragments of endoplasmic reticulum were observed near the cell periphery. The modified gold-decorated Pd and the membrane-rich bodies were not observed when the TGB proteins were produced individually in infections using the Tobacco mosaic virus P30 protein to drive cell-to-cell movement, indicating that these modifications are specific for TGB-mediated movement. [Copyright &y& Elsevier]

Published

2005

43. Mimicking carboxyterminal phosphorylation differentially effects subcellular distribution and cell-to-cell movement of Tobacco mosaic virus movement protein

Author

Trutnyeva, Kateryna, Bachmaier, Radostina, and Waigmann, Elisabeth

Subjects

*PHOSPHORYLATION, *TOBACCO mosaic virus, *CELL communication, *PROTEINS

Abstract

Abstract: Phosphorylation of Tobacco mosaic virus movement protein (TMV-MP) at three carboxyterminal Ser/Thr sites negatively regulates TMV-MP gating function and viral spread in Nicotiana tabacum but not in Nicotiana benthamiana, indicating a host dependant inactivation strategy. Here, we examine the effect of mimicking carboxyterminal phosphorylation on cell-to-cell transport of TMV-MP protein itself in host plants Nicotiana clevelandii, N. benthamiana, Nicotiana glutinosa and N. tabacum. Since TMV-MP transport function was inactivated only in N. tabacum, this host was chosen to explore the contribution of individual carboxyterminal phosphorylation sites. Selective mimicking of phosphorylation at one site enhances TMV-MP cell-to-cell transport, whereas a negative effect requires mimicking of phosphorylation at two or three sites. Potentially, during viral infection in N. tabacum, MP phosphorylation may occur sequentially: first, MP phosphorylation at a single site might ensure effective viral movement; only thereafter, further phosphorylation events may lead to inactivation of TMV-MP transport function. [Copyright &y& Elsevier]

Published

2005

44. The potyviral suppressor of RNA silencing confers enhanced resistance to multiple pathogens

Author

Pruss, Gail J., Lawrence, Christopher B., Bass, Troy, Li, Qingshun Q., Bowman, Lewis H., and Vance, Vicki

Subjects

*DISEASE resistance of plants, *PATHOGENIC microorganisms, *TOBACCO mosaic virus, *RNA

Abstract

Helper component-protease (HC-Pro) is a plant viral suppressor of RNA silencing, and transgenic tobacco expressing HC-Pro has increased susceptibility to a broad range of viral pathogens. Here we report that these plants also exhibit enhanced resistance to unrelated heterologous pathogens. Tobacco mosaic virus (TMV) infection of HC-Pro-expressing plants carrying the N resistance gene results in fewer and smaller lesions compared to controls without HC-Pro. The resistance to TMV is compromised but not eliminated by expression of nahG, which prevents accumulation of salicylic acid (SA), an important defense signaling molecule. HC-Pro-expressing plants are also more resistant to tomato black ring nepovirus (TBRV) and to the oomycete Peronospora tabacina. Enhanced TBRV resistance is SA-independent, whereas the response to P. tabacina is associated with early induction of markers characteristic of SA-dependent defense. Thus, a plant viral suppressor of RNA silencing enhances resistance to multiple pathogens via both SA-dependent and SA-independent mechanisms. [Copyright &y& Elsevier]

Published

2004

45. A Nuclear Localization Signal and a Membrane Association Domain Contribute to the Cellular Localization of the Tobacco Mosaic Virus 126-kDa Replicase Protein

Author

dos Reis Figueira, Antonia, Golem, Sheetal, Goregaoker, Sameer P., and Culver, James N.

Subjects

*LANGERHANS cells, *TOBACCO mosaic virus

Abstract

A transient expression system using onion epidermal cells was used to investigate domains of the Tobacco mosaic virus (TMV) 126-kDa replicase protein involved in cellular localization. Initially, a nuclear localization signal (NLS), identified within the amino-terminus of the 126-kDa protein, was investigated for its functionality using fusion constructs containing the green fluorescent protein (GFP). Fusion of the amino-terminal 70 amino acids of the 126-kDa protein, containing the NLS, to a β-glucuronidase-GFP open reading frame (ORF), directed the accumulation of fluorescence to the nucleus. In contrast, similar constructs lacking the NLS or containing a mutated NLS sequence failed to accumulate within the nucleus. Additional investigations using GFP fusion constructs containing the first 178 or 388 amino acids of the 126-kDa protein also displayed nuclear localization. However, fusion constructs encoding the first 781 amino acids or the entire 126-kDa ORF did not accumulate within the nucleus but instead associated with the endoplasmic reticulum (ER), forming spot-like inclusions. Thus, a dominant ER association domain exists between amino acids 388 and 781 of the 126-kDa protein. Interestingly, a full-length 126-kDa GFP fusion construct encoding a nonfunctional NLS mutation also localized to the ER but did not form inclusions. Furthermore, a TMV mutant containing the same nonfunctional NLS mutation failed to replicate in protoplasts. Together these findings suggest that both the NLS and the ER retention domain contribute to the functional localization of the 126-kDa protein. [Copyright &y& Elsevier]

Published

2002

46. Subcellular Localisation, Protein Interactions, and RNA Binding of Potato mop-top virus Triple Gene Block Proteins

Author

Cowan, G. H., Lioliopoulou, F., Ziegler, A., and Torrance, L.

Subjects

*PLANT viruses, *PROTEIN binding, *TOBACCO mosaic virus

Abstract

Subcellular localisation, protein interactions, and RNA binding of the triple gene block proteins (TGBp) of Potato mop-top virus (PMTV) were studied. The 13-kDa (TGBp2) and 21-kDa (TGBp3) proteins with or without green fluorescent protein fused to their N-terminus, and the 51-kDa protein (TGBp1) were expressed individually from a recombinant Tobacco mosaic virus (TMV) vector. Fluorescent images and Western immunoblotting experiments of recombinant TMV-infected Nicotiana benthamiana cells suggested that TGBp2 and TGBp3 were associated with cellular endomembranes and that TGBp3 was associated with the cell wall, possibly located close to plasmodesmata. In Western blots, TGBp1 was detected in fractions containing the cell wall and those enriched for organelles and membranous structures. Self-interactions were demonstrated with all three proteins in yeast two-hybrid experiments, and a heterologous interaction was found between TGBp2 and TGBp3. No additional heterologous interactions were discovered between the different TGBp and none were detected in an in vitro binding assay. TGBp1 and TGBp2 but not TGBp3 were shown to bind ssRNA in a sequence nonspecific manner. The results support the model where TGBp2 and TGBp3 facilitate delivery and localisation of the ribonucleoprotein complex to the plasmodesmata. However, the process is facilitated by RNA–protein rather than protein:protein interactions between the TGBp1 in complex with viral RNA and membrane-localised TGBp2. [Copyright &y& Elsevier]

Published

2002

47. Erratum to 'Plant SNAREs SYP22 and SYP23 interact with Tobacco mosaic virus 126 kDa protein and SYP2s are required for normal local virus accumulation and spread' [Virology 547 (2020) 57–71]

Author

Min Zhu, Amr Ibrahim, James E. Schoelz, Xiaohua Yang, Kimberly D. Cooper, Bethany A Bishop, Soon Il Kwon, Chengke Liu, and Richard S. Nelson

Subjects

Virology, Tobacco mosaic virus, Biology, Virus

Published

2020

48. Bayesian phylodynamic analysis reveals the dispersal patterns of tobacco mosaic virus in China

Author

Jinguang Yang, Xiaoyan Wang, Xiaowei Liu, Han Hou, Zhenguo Du, Fenglong Wang, and Fangluan Gao

Subjects

China, viruses, Zoology, Bayesian phylogenetics, Genome, Viral, Biology, Virus, 03 medical and health sciences, Phylogenetics, Virology, Tobacco, Tobacco mosaic virus, Phylogeny, 030304 developmental biology, Plant Diseases, 0303 health sciences, Molecular epidemiology, Phylogenetic tree, Geography, fungi, 030302 biochemistry & molecular biology, food and beverages, Bayes Theorem, Plant Leaves, Tobacco Mosaic Virus, Biological dispersal, RNA, Viral

Abstract

Tobacco mosaic virus (TMV) is widespread in China and causes considerable economic losses to tobacco production. The molecular epidemiology of this virus is, however, poorly understood. In this study, we sequenced the genomes of 51 TMV isolates from five tobacco-producing regions in China and investigated the dispersal patterns of this virus. Our phylogenetic analysis showed that TMV might have been introduced to China in the early 1900s, probably first to southwest China. However, TMV then moved to the north of the country, where it expanded. The north became the main seeding region for the subsequent movements of the virus within China. The north-to-south movement of TMV coincides with a shift of major tobacco-producing areas from north to south in this century, suggesting a link between human activities and the dispersal of TMV in China.

Published

2018

49. Disruption of a stem-loop structure located upstream of pseudoknot domain in Tobacco mosaic virus enhanced its infectivity and viral RNA accumulation

Author

Song Guo and Sek-Man Wong

Subjects

0301 basic medicine, viruses, Mutant, Nicotiana benthamiana, Virus Replication, 03 medical and health sciences, Virology, Tobacco, Tobacco mosaic virus, Tomato mosaic virus, Gene, Plant Diseases, biology, Protoplasts, fungi, Inverted Repeat Sequences, food and beverages, Stem-loop, biology.organism_classification, Tobacco Mosaic Virus, 030104 developmental biology, Viral replication, Mutation, RNA, Viral, Capsid Proteins, Pseudoknot

Abstract

A predicted stem-loop structure of 25 nucleotides, located in the coat protein (CP) gene and 3'-UTR sequences of Tobacco mosaic virus (TMV), was validated previously (Guo et al., 2015). In this study, both disrupted stem-loop and nucleotide deletion mutants of TMV replicated more rapidly in Nicotiana benthamiana protoplasts. The TMV mutant with a complete mirrored stem-loop structure showed similar level of viral RNA accumulation as TMV. Recovering the stem-loop structure also resulted in a similar replication level as TMV. All these mutants induced necrosis in N. benthamiana and assembled into typical rigid rod-shaped virions. TMV mutant without the stem-loop structure induced more local lesions in Chenopodium quinoa. When the putative stem-loop structure in Tomato mosaic virus (ToMV) was disrupted, the mutant also showed an enhanced virus replication. This suggests that the stem-loop structure of TMV is a new cis-acting element with a role in virus replication.

Published

2018

50. Finding our roots and celebrating our shoots: Plant virology in Virology, 1955–1964

Author

Karen-Beth G. Scholthof

Subjects

0303 health sciences, viruses, fungi, 030302 biochemistry & molecular biology, food and beverages, Plant Virology, Sucrose gradient, History, 20th Century, Plant Pathology, Biology, Boyce Thompson Institute for Plant Research, Sucrose density gradient centrifugation, Virus Laboratory University of California-Berkeley, Virology, 03 medical and health sciences, Turnip yellow mosaic virus, Plant virus, Electron microscopy, Tobacco mosaic virus, Formative years of plant virology, Rockefeller Institute for Medical Research, 030304 developmental biology

Abstract

To celebrate the sixtieth anniversary of Virology a survey is made of the plant viruses, virologists and their institutions, and tools and technology described in the first decade of plant virus publications in Virology. This was a period when plant viruses increasingly became tools of discovery as epistemic objects and plant virology became a discipline discrete from plant pathology and other life sciences.

Published

2015