The symptom difference induced by <Emphasis Type="Italic">Tobacco mosaic virus</Emphasis> and <Emphasis Type="Italic">Tomato mosaic virus</Emphasis> in tobacco plants containing the <Emphasis Type="Italic">N</Emphasis> gene is determined by movement protein gene

Tobacco mosaic virus (TMV) and Tomato mosaic virus (ToMV) are two closely related viruses in the genus Tobamovirus, but they induce obviously different sizes of necrotic lesions in tobacco plants containing the N gene. Comparison of the symptoms produced by TMV, ToMV and a chimaeric virus (T/OMP), in which the TMV movement protein (MP) gene was replaced by the ToMV MP gene, showed T/OMP caused necrotic lesions that were similar in size to those of ToMV in tobacco plants containing the N gene. The coat protein and MP of the three viruses accumulated in planta with similar levels, and the replication level of TMV and T/OMP in protoplasts also had no difference. Comparison of the activities of defense-related enzymes (PAL, POD and PPO) induced by the three viruses also showed that the variability of enzyme activity induced by T/OMP was similar to that induced by TMV, but different from that induced by ToMV. The results indicate that the size difference of necrotic lesions induced by TMV and ToMV in tobacco plants containing the N gene results from the functional difference of their MP genes.     

Detection of tobacco mosaic virus and tomato mosaic virus in pepper seeds by enzyme linked immunosorbent assay (ELISA)

Pepper seed samples were tested for the infection of tobacco mosaic virus (TMV) and tomato mosaic virus (ToMV) by enzyme linked immunosorbent assay (ELISA). Out of 26 pepper seed samples tested, 17 were infected with TMV and ToMV in ELISA. About 34.7% of pepper seed samples were found to be healthy. Infections of TMV or ToMV were recorded to be 61.53% and 11.5%, respectively of the total tested seed samples.     

The Effects of Aspirin and Polyacrylic Acid on the Multiplication and Spread of TMV in Different Cultivars of Tobacco with and without the N-gene

Aspirin treatment of leaves of Nicotiana tabacum cv. Samsun at 20°C induced PR-proteins and reduced the amount of tobacco mosaic virus (TMV) accumulated 7 days after inoculation. However, at 32°C both the amount of PR-proteins induced and the reduction of TMV accumulated were less. Polyacrylic acid did not induce PR-proteins, and caused little or no reduction in the amount of TMV accumulated at 20°C. In cv. Samsun NN at 32°C. aspirin induced the PR-proteins and reduced the spread of TMV to surrounding tissue as treasured by the size of lesions produced on subsequent transfer to 20°C. Polyacrylic acid did not induce PR-proteins in Samsun NN and had no effect on the spread of TMV. In cv. Xanthi-ne, at 32°C aspirin and polyacrylic acid induced PR-proteins and reduced the spread of TMV. At 35°C, polyacrylic acid induced little or no PR-proteins and did not affect the spread of TMV.     

A cDNA from tobacco codes for an inhibitor of virus replication (IVR)-like protein

We have shown previously that localization of tobacco mosaic virus (TMV) in tobacco is associated with a ca. 23 kDa protein that inhibits replication of several plant viruses. This protein, named inhibitor of virus replication (IVR), was purified from the medium of TMV-inoculated protoplasts derived from Nicotiana tabacum cv. Samsun NN. IVR was shown to be present also in induced-resistant leaf tissue of N. tabacum cv. Samsun NN. We prepared an expression cDNA library from such induced-resistant tissue and screened it with a polyclonal antibody raised against the IVR protein. A 1016 bp clone (named NC330) containing a 597 bp open reading frame, coding for a 21.6 kDa polypeptide, was isolated. The NC330 clone hybridized with RNA from induced-resistant tissue from N. tabacum cv. Samsun NN but not with RNA from non-induced tissue. Likewise, it did not hybridize with RNA from infected or uninfected tissue of N. tabacum cv. Samsun nn. Similarly, the NC330 cloned probe hybridized with the RT-PCR products from RNA of the induced-resistant tissue only. In Southern blot hybridization the NC330 DNA probe detected several genomic DNA fragments in both N. tabacum cv. Samsun NN and Samsun nn. The size of the DNA fragments differed in Samsun NN and Samsun nn. We suggest that DNA encoding the IVR-like protein is present in resistant and susceptible N. tabacum genotypes, but is expressed only in NN. We have inserted the NC330 into the expression vector pET22b and a 21.6 kDa protein was produced in Escherichia coli that reacted in immunoblots with the IVR antibody. This protein greatly reduced replication of TMV in N. tabacum cv. Samsun nn leaf disk assays.     

An early tobacco mosaic virus-induced oxidative burst in tobacco indicates extracellular perception of the virus coat protein

Induction of reactive oxygen species (ROS) was observed within seconds of the addition of exogenous tobacco mosaic virus (TMV) to the outside of tobacco (Nicotiana tabacum cv Samsun NN, EN, or nn) epidermal cells. Cell death was correlated with ROS production. Infectivity of the TMV virus was not a prerequisite for this elicitation and isolated coat protein (CP) subunits could also elicit the fast oxidative burst. The rapid induction of ROS was prevented by both inhibitors of plant signal transduction and inhibitors of NAD(P)H oxidases, suggesting activation of a multi-step signal transduction pathway. Induction of intracellular ROS by TMV was detected in TMV-resistant and -susceptible tobacco cultivars isogenic for the N allele. The burst was also detected with strains of virus that either elicit (ToMV) or fail to elicit (TMV U1) N' gene-mediated responses. Hence, early ROS generation is independent or upstream of known genetic systems in tobacco that can mediate hypersensitive responses. Analysis of other viruses and TMV CP mutants showed marked differences in their ability to induce ROS showing specificity of the response. Thus, initial TMV-plant cell interactions that lead to early ROS induction occur outside the plasma membrane in an event requiring specific CP epitopes.     

Detection of Tobacco mosaic virus and Tomato mosaic virus in pepper and tomato by multiplex RT-PCR

Aims: To develop a highly sensitive and rapid protocol for simultaneous detection and differentiation of Tobacco mosaic virus (TMV) and Tomato mosaic virus (ToMV) in pepper and tomato. In this study, we use the multiplex PCR technique to detect dual infection of these two viruses. Methods and Results: A multiplex RT–PCR method consisting of one‐tube reaction with two primer pairs targeted to replicase genes was developed to simultaneously detect TMV and ToMV in seed samples of pepper and tomato. Specific primers were designed from conserved regions of each of the virus genomes, and their specificity was confirmed by sequencing PCR products. RT–PCR detected up to 10^?6 dilution of total RNA extracted from infected leaves. Multiplex RT–PCR revealed the presence of both TMV and ToMV in three of 18 seed samples of tomato and one of 18 seed samples of pepper. Conclusions: The multiplex PCR assay was a cost effective, quick diagnostic technique, which was helpful in differentiating TMV and ToMV accurately. Significance and Impact of the Study: The multiplex PCR assay described in this study is a valuable tool for plant pathology and basic research studies. This method may facilitate better recognition and distinction of TMV and ToMV in both pepper and tomato.     

烟草—TMV相互作用中质膜NADPH氧化酶的组装

比较 Ｎ Ｎ 烟草（与烟草花叶病毒（ Ｔ Ｍ Ｖ）发生非亲和相互作用）和普通烟草 ３００２ 品种（与 Ｔ Ｍ Ｖ 发生亲和相互作用）在烟草— Ｔ Ｍ Ｖ 的相互作用中质膜 Ｎ Ａ Ｄ Ｐ Ｈ 氧化酶的组装激活、产生活性氧的差异．用两相法制备密闭的正向型质膜（ Ｐ Ｍ）囊泡,以 Ｓ Ｏ Ｄ 敏感的 Ｎ Ａ Ｄ Ｐ Ｈ 依赖的 Ｃｙｔ ｃ 的还原表示 Ｎ Ａ Ｄ Ｐ Ｈ 氧化酶的活性,用人类噬中性白细胞 Ｎ Ａ Ｄ Ｐ Ｈ 氧化酶亚基 ｐ４７ ｐｈｏｘ 的抗体对烟草叶片蛋白进行免疫学检测．结果显示在两种烟草叶片胞质中均存在与 ｐ４７ ｐｈｏｘ 亚基的抗体发生免疫交叉反应的相同分子量的蛋白,该蛋白在 Ｔ Ｍ Ｖ 侵染 Ｎ Ｎ 基因烟草后可向质膜发生转移,且伴随有氧化酶活性的升高．而对于普通烟草则无氧化酶膜组分和酶活性的明显变化．以上结果表明,烟草叶片质膜上存在与哺乳动物 Ｎ Ａ Ｄ Ｐ Ｈ 氧化酶相类似的氧化酶,它的组装和激活可能是烟草— Ｔ Ｍ Ｖ 非亲和相互作用早期活性氧的主要来源．     

The symptom difference induced by Tobacco mosaic virus and Tomato mosaic virus in tobacco plants containing the N gene is determined by movement protein gene

Tobacco mosaic virus (TMV) and Tomato mosaicvirus (ToMV) are members of the genus Tobamoviruswith a world-wide distribution, and cause severe dis-eases on many economically important crops. TMVand ToMV have very close relationship and both havessRNA genome with a length of about 6400 nucleo-tides, encoding at least three nonstructural proteinsand a 17.6 kD coat protein (CP). Both 126 kD and 183kD proteins function as components of replicase, andthe 30 kD protein is involved in viral ce…     

Response of Membrane-bound Mg-activated ATPase of Tobacco Leaves to Tobacco Mosaic Virus

Infectious material was formed at an early stage, and migrated into the mesophyll from the epidermis of tobacco leaves (Nicotiana tabacum cv. Samsun NN) during the period of 1 to 3 hours after inoculation with tobacco mosaic virus (TMV). The activity of membrane-bound Mg²⁺-activated ATPase from the mesophyll was stimulated two to four times within 30 minutes after inoculation with 1.0 microgram per milliliter of TMV. Maximum TMV stimulation of membrane-bound Mg²⁺-activated ATPase activity in epidermis and mesophyll was observed at 0.5 and 3.0 hours after inoculation, respectively. This stimulation was also observed with ultraviolet irradiated TMV (only RNA was destroyed), whereas, the stimulation was not observed with heat-irradiated TMV (both coat and RNA were destroyed). Stimulation equal to that of TMV was observed by inoculation with cucumber green mottle mosaic virus and to a lesser extent with cucumber mosaic virus.

These results illustrate that the stimulus resulting from inoculation with TMV transfers to underlying cells faster than the migration of TMV particles. This stimulus might be closely correlated to the structure of virus, but not to the infectivity of virus.

     

Effect of ubiquinone 50 and viral infection on phytohemagglutinin activity in development of induced resistance in tobacco plants

The effects of ubiquinone 50 (synthetic coenzyme Q₁₀) and viral infection on phytohemagglutinin activity were studied in the tobacco (Nicotiana tabacum L.) cultivar Samsun NN, which carries the necrosis-formation locus and exhibits hypersensitivity to tobacco mosaic virus (TMV) and ubiquinone (Q₁₀). The treatment with Q₁₀ and inoculation with TMV were accompanied by an increase in phytohemagglutinin activity, indicating that lectins may be involved in the development of defense responses in plants.     

A tobamovirus infecting capsicum in Australia

A tobamovirus infection of Capsicum annuum is recorded for the first time in New South Wales, Australia. The causal virus is described and shown to differ from tobacco (TMV) and tomato (ToMV) mosaic viruses in its host reactions and serology. Seventeen capsicum cultivars were tested for reaction to the Australian isolate and ranked according to symptom severity. Field and glasshouse observations indicated that the virus causes a decrease in height and weight of plants, fruit malformation and leaf mosaic symptoms. It is proposed that the capsicum tobamovirus strains are sufficiently distinctive from TMV and ToMV to be grouped together and designated a separate virus: capsicum mosaic virus (CaMV).     

Host Effect on Cross Protection Between Two Strains of Tobacco Mosaic Virus

The expression of cross protection between two strains of tobacco mosaic virus (TMV-C and TMV-P) differed in Arabidopsis thaliana cv. Columbia and Nicotiana tabacum cvs Samsun and Xanthi. Protection in A. thaliana cv. Columbia was expressed as a prevention of systemic movement of the challenge strain, regardless of the protecting strain of TMV, Protection in N. tabacum cvs Samsun and Xanthi was expressed as an inhibition of an early event in the infection process. The results presented indicate that the host may influence the mechanism by which cross protection is expressed between the same virus strains.     

Regulation of Ethylene Biosynthesis in Virus-Infected Tobacco Leaves : I. DETERMINATION OF THE ROLE OF METHIONINE AS THE PRECURSOR OF ETHYLENE

The hypersensitive reaction of Samsun NN tobacco leaves to tobacco mosaic virus (TMV) was accompanied by a large increase in ethylene production, just before necrotic local lesions became visible. Normal and virus-induced ethylene production were both largely inhibited by 0.1 millimolar aminoethoxyvinylglycine indicating that methionine is a main ethylene precursor.     

The Effect of Arachidonic Acid and Viral Infection on the Phytohemagglutinin Activity during the Development of Tobacco Acquired Resistance

The effects of arachidonic acid (AA) on the development of viral infection and the activity of phytohemagglutinins in Nicotiana tabacum L. plants were studied. Cv. Samsun NN was used, which displayed a genotypically determined hypersensitive response to tobacco mosaic virus (TMV) infection. When tobacco leaf disks were treated with 10^–9 to –10^–7 M AA, viral reproduction was suppressed by 90–100%. The AA concentration of 10^–8 M was optimal for the improvement of plant virus resistance. Tobacco leaves maintained virus resistance for at least two weeks. Both AA treatment and TMV inoculation were accompanied by an enhanced lectin activity, which may indicate the involvement of lectins in the development of plant defense responses. Lectin accumulation was observed in the intact plants developing systemic resistance and in the detached leaves characterized by local resistance.     

Protein composition of tobacco leaves with antiviral resistance induced by activators of defense responses and TMV infection

In tobacco (Nicotiana tabacum L.) plants of hypersensitive cv. Samsun NN, a capability of necrosis lesion formation and protein patterns were studied after induction of antiviral resistance by defense responses activators (DRA) (arachidonic acid, ubiquinone 50, and vitamin E) and by infection with tobacco mosaic virus (TMV). DRA and TMV improved both local and systemic leaf resistance to TMV. Native protein electrophoresis demonstrated differences in the composition of leaf proteins extracted under acidic and alkaline conditions. SDS-PAGE revealed proteins accumulated during the development of systemic antiviral resistance after lower leaf treatments with DRA and of local resistance induced by pretreatment with TMV. It was shown that various DRA affected protein patterns similarly, whereas TMV infection resulted in other changes. It is supposed that different pathways function in tobacco plants during induction of systemic resistance by DRA and TMV infection.     

Regulation of Ethylene Biosynthesis in Virus-Infected Tobacco Leaves : II. TIME COURSE OF LEVELS OF INTERMEDIATES AND IN VIVO CONVERSION RATES

Ethylene production was stimulated severalfold during the hypersensitive reaction of Samsun NN tobacco to tobacco mosaic virus (TMV). Exogenous methionine or S-adenosylmethionine (SAM) did not increase ethylene evolution from healthy or TMV-infected leaf discs, although both precursors were directly available for ethylene production. This indicates that ethylene production is not controlled at the level of methionine concentration or availability, nor at the level of SAM production or concentration. In contrast, 1-aminocyclopropane-1-carboxylic acid (ACC) stimulated ethylene production considerably. Thus, ethylene production is primarily limited at the level of ACC production.     

Effect of thermal shock treatments on symptom expression in test plants inoculated with potato aucuba mosaic virus

Potato aucuba mosaic virus (PAMV) has few reliable local lesion assay hosts. However, lesions formed when PAMV-inoculated leaves were exposed to thermal shock (dipping for 40 s in water at 50 or 2 °C). Leaves of Nicotiana tabacum (cv. Xanthi-nc, Samsun or Samsun NN), Hyoscyamus niger and Datura metel consistently developed necrotic lesions, leaves of Chenopodium amaranticolor developed whitish rings, and leaves of N. glutinosa developed diffuse cream-coloured rings and spots. In PAMV-inoculated leaves of Xanthi-nc tobacco, C. amaranticolor and D. metel, lesions formed only in areas exposed to light. Thermal shocks applied to systemically infected leaves of Xanthi-nc tobacco induced necrotic vein banding patterns. In inoculated Xanthi-nc tobacco leaves, PAMV seemed confined to local lesions. The rate of lesion enlargement was therefore a measure of rate of virus spread. Lesion size increased as the interval between inoculation and shock treatment increased. The mean rates of increase in lesion radius were 17 and 27 Cμm/h at 15 and 25°C respectively. ‘Target’ lesions, composed of concentric necrotic rings, formed when inoculated Xanthi-nc tobacco leaves were given two or more 50°C shocks. The first of two 50°C treatments decreased subsequent rates of lesion enlargement.     

Hormonal status of tobacco variety Samsun NN exposed to synthetic coenzyme Q10 (ubiquinone 50) and TMV infection

Hormonal system status has been analyzed in leaf disks of hypersensitive tobacco Nicotiana tabacum L. variety Samsun NN during the development of resistance to tobacco mosaic virus (TMV) induced by synthetic coenzyme Q₁₀ (ubiquinone 50). The absolute and relative content of abscisic acid (ABA), indoleacetic acid (IAA), and cytokinins (CKs) was determined after the exposure of leaves to Q₁₀ solution and the subsequent TMV infection. In plants not treated with Q₁₀, CK content increased about 2.5 times 1 day after TMV infection, while a significant increase in the ABA level and a decrease in the IAA level were observed only after 2 days. In the dynamics, Q₁₀ treatment had a protective antiviral effect, significantly decreased the ABA level, and increased the IAA level in sensitized plants compared to nonsensitized ones.     

Activation of Tm-22 resistance is mediated by a conserved cysteine essential for tobacco mosaic virus movement

The tomato Tm-2² gene was considered to be one of the most durable resistance genes in agriculture, protecting against viruses of the Tobamovirus genus, such as tomato mosaic virus (ToMV) and tobacco mosaic virus (TMV). However, an emerging tobamovirus, tomato brown rugose fruit virus (ToBRFV), has overcome Tm-2², damaging tomato production worldwide. Tm-2² encodes a nucleotide-binding leucine-rich repeat (NLR) class immune receptor that recognizes its effector, the tobamovirus movement protein (MP). Previously, we found that ToBRFV MP (MP^ToBRFV) enabled the virus to overcome Tm-2²-mediated resistance. Yet, it was unknown how Tm-2² remained durable against other tobamoviruses, such as TMV and ToMV, for over 60 years. Here, we show that a conserved cysteine (C68) in the MP of TMV (MP^TMV) plays a dual role in Tm-2² activation and viral movement. Substitution of MP^ToBRFV amino acid H67 with the corresponding amino acid in MP^TMV (C68) activated Tm-2²-mediated resistance. However, replacement of C68 in TMV and ToMV disabled the infectivity of both viruses. Phylogenetic and structural prediction analysis revealed that C68 is conserved among all Solanaceae-infecting tobamoviruses except ToBRFV and localizes to a predicted jelly-roll fold common to various MPs. Cell-to-cell and subcellular movement analysis showed that C68 is required for the movement of TMV by regulating the MP interaction with the endoplasmic reticulum and targeting it to plasmodesmata. The dual role of C68 in viral movement and Tm-2² immune activation could explain how TMV was unable to overcome this resistance for such a long period.