Effect of abscissic acid on tobacco mosaic virus

Abscisic acid (ABA) did not affect the infectivity of tobacco mosaic virus (TMV) in vitro. The same dilutions of ABA when applied on the leaves of Chenopodium amaranticolor Coste and Reyn. at different intervals before inoculation affected development of local lesions variably at different dilutions. The inhibition of local lesion formation was reduced at other intervals leading to stimulation at thirty minutes and six hours intervals. Post-inoculation treatments with 2 mg/l of ABA gave stimulation of local lesion formation, though other dilutions gave inhibition. Viral concentration was stimulated in the tomato seedlings root dipped in 0.2 mg/l of ABA for 6 hours and inoculated 24 hours after transplantation. Incorporation of different concentrations of ABA into tissue culture medium reduced the growth of the TMV infected tobacco callus tissue and stimulated the infectivity of the tissue grown over it assayed after three weeks.     

In vitro propagation of plant virus using different forms of plant tissue culture and modes of culture operation

Plant virus accumulation was investigated in vitro using three different forms of plant tissue culture. Suspended cells, hairy roots and shooty teratomas of Nicotiana benthamiana were infected with tobacco mosaic virus (TMV) using the same initial virus:biomass ratio. Viral infection did not affect tissue growth or morphology in any of the three culture systems. Average maximum virus concentrations in hairy roots and shooty teratomas were similar and about an order of magnitude higher than in suspended cells. Hairy roots were considered the preferred host because of their morphological stability in liquid medium and relative ease of culture. The average maximum virus concentration in the hairy roots was 0.82 ± 0.14 mg g⁻¹ dry weight; viral coat protein represented a maximum of approximately 6% of total soluble protein in the biomass. Virus accumulation in hairy roots was investigated further using different modes of semi-continuous culture operation aimed at prolonging the root growth phase and providing nutrient supplementation; however, virus concentrations in the roots were not enhanced compared with simple batch culture. The relative infectivity of virus in the biomass declined by 80–90% during all the cultures tested, irrespective of the form of plant tissue used or mode of culture operation. Hairy root cultures inoculated with a transgenic TMV-based vector in batch culture accumulated green fluorescent protein (GFP); however, maximum GFP concentrations in the biomass were relatively low at 39 μg g⁻¹ dry weight, probably due to genetic instability of the vector. This work highlights the advantages of using hairy roots for in vitro propagation of TMV compared with shooty teratomas and suspended plant cells, and demonstrates that batch root culture is more effective than semi-continuous operations for accumulation of high virus concentrations in the biomass.     

Effects of Salicylate on Systemic Invasion of Tobacco Plants by Various Viruses

Salicylate watered onto soil in which White Burley tobacco plants were grown represents a reversible stress characterized by stomatal closure, slight slackening of plant growth and low chlorophyll loss. Salicylate affected viral pathogenesis in opposite ways. It had no effect against local and systemic infections by potato virus X (PVX), potato virus Y⁰ (PVY⁰) or tobacco mosaic virus (TMV), whereas it completely prevented systemic infection by alfalfa mosaic virus (AIMV) or tobacco, rattle virus (TRV) in a high proportion of treated plants. When infection moved from leaves inoculated with AIMV or TRV, the tendency to limit systemic spread was shown by the restriction of systemic infection to very limited areas erratically distributed in some uninoculated leaves. The salicylate-induced restriction of AIMV or TRV infectivity to inoculated leaves did not appear due to inhibition of virus multiplication because the inoculation of potentially resistant leaves of salicylate-reated plants resulted in virus antigen accumulation comparable to that of untreated controls. Salicylate may therefore inhibit some long distance virus transport function. Salicylate appears able to evoke true hypersensitivity only against systemic viruses able to induce local necrotic lesions, probably by activating some genetic information for resistance that is normally not expressed.     

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.

     

Local and systemic spread of tobacco mosaic virus in transgenic tobacco.

Expression of a chimeric gene encoding the coat protein (CP) of tobacco mosaic virus (TMV) in transgenic tobacco plants confers resistance to infection by TMV. We investigated the spread of TMV within the inoculated leaf and throughout the plant following inoculation. Plants that expressed the CP gene [CP(+)] and those that did not [CP(-)] accumulated equivalent amounts of virus in the inoculated leaves after inoculation with TMV-RNA, but the CP(+) plants showed a delay in the development of systemic symptoms and reduced virus accumulation in the upper leaves. Tissue printing experiments demonstrated that if TMV infection became systemic, spread of virus occurred in the CP(+) plants essentially as it occurred in the CP(-) plants although at a reduced rate. Through a series of grafting experiments, we showed that stem tissue with a leaf attached taken from CP(+) plants prevented the systemic spread of virus. Stem tissue without a leaf had no effect on TMV spread. All of these findings indicate that protection against systemic spread in CP(+) plants is caused by one or more mechanisms that, in correlation with the protection against initial infection upon inoculation, result in a phenotype of resistance to TMV.     

TOBACCO MOSAIC VIRUS IN CHLOROPLAST AND CYTOPLASM OF INFECTED TOBACCO LEAF

Chloroplasts containing Tobacco Mosaic Virus (TMV) were isolatedfrom TMV inoculated tobacco leaves, and TMV was extracted fromthem. The preparations from isolated chloroplasts of infectedleaves showed 30% increase in the optical density at 260 mµover those from healthy leaves. Most of infectivity was observedin chloroplast fraction 40 hr after inoculation. Thereafter,infectivity in the chloroplast fraction decreased and that ofcytoplasm increased with time. (Received April 6, 1964; )     

Effect of chitosan on tobacco mosaic virus（TMV） accumulation,hydrolase activity,and morphological abnormalities of the viral particles in leaves of N. tabacum L. cv. Samsun

The effect of chitosan on the development of infection caused by Tobacco mosaic virus（TMV） in leaves of Nicotiana tabacum L. cv. Samsun has been studied. It was shown that the infectivity and viral coat protein content in leaves inoculated with a mixture of TMV（2 μg/mL） and chitosan（1 mg/mL） were lower in the early period of infection（3 days after inoculation）, by 63% and 66% respectively, than in leaves inoculated with TMV only. Treatment of leaves with chitosan 24 h before inoculation with TMV also caused the antiviral effects, but these were less apparent than when the virus and polysaccharide were applied simultaneously. The inhibitory effects of the agent decreased as the infection progressed. Inoculation of leaves with TMV together with chitosan considerably enhanced the activity of hydrolases（proteases, RNases） in the leaves, in comparison with leaves inoculated with TMV alone. Electron microscope assays of phosphotungstic acid（PTA）-stained suspensions from infected tobacco leaves showed that, in addition to the normal TMV particles（18 nm in diameter, 300 nm long）, these suspensions contained abnormal（swollen, “thin” and “short”） virions. The highest number of abnormal virions was found in suspensions from leaves inoculated with a mixture of TMV and chitosan. Immuno-electron microscopy showed that “thin” virus particles, in contrast to the particles of normal diameter, lost the ability to bind to specific antiserum. It seems that the chitosan-induced activation of hydrolases stimulates the intracellular degradation of TMV particles and hence hydrolase activation may be considered to be one of the polysaccharide-mediated cellular defense mechanisms that limit virus accumulation in cells.     

Inhibitory effect of fucoidan from brown alga Fucus evanescens on the spread of infection induced by tobacco mosaic virus in tobacco leaves of two cultivars

The effect of fucoidan from the brown alga Fucus evanescens on the spread of infection induced by tobacco mosaic virus (TMV) was investigated in the leaves of tobacco (Nicotiana tabacum L.) of two cultivars (Ksanti-nk and Samsun). In the leaves of cv. Ksanti-nk inoculated with a mixture of TMV preparation (2 μg/ml) and fucoidan (1 mg/ml), the number of local necrotic lesions induced by the virus decreased by more than 90% as compared with the leaves inoculated with the virus alone. In tobacco leaves of cv. Samsun, virulence and the concentration of the virus 3 days after inoculation with the same mixture of TMV and fucoidan were by 62 and 66%, respectively, lower than in the leaves inoculated with TMV alone. As the infection spread, the inhibitory effect of fucoidan decreased. When the leaves were treated with fucoidan before and after the inoculation with TMV, its antiviral activity was less pronounced than when a mixture of the virus and the polysaccharide was used as inoculum. Electron microscopic investigation of TMV mixed with fucoidan often showed agglutinated virions. The highest virulence of the mixture (TMV preparation, 12 μg/ml, plus fucoidan, 1 mg/ml) was observed upon its twofold dilution, and after that it decreased. It was concluded that, when the leaves were inoculated with the mixture of TMV and fucoidan, the latter affected not only the plant but the virus as well. Treatment of tobacco leaves, cv. Ksanti-nk, with actinomycin D (10 μg/ml) 24 h before the inoculation with TMV almost completely suppressed the effect of fucoidan, indicating that fucoidan acted at a gene level.     

Observations and experiments on the use of an avirulent mutant strain of tobacco mosaic virus as a means of controlling tomato mosaic

In 1973 tobacco mosaic virus (TMV) strain M II-16 was successfully used by growers in the United Kingdom to protect commercial tomato crops against the severe effects of naturally occurring strains of TMV. However, plants in many crops had mosaic leaf symptoms which were occasionally severe, so possible reasons for symptom appearance were examined. The concentration of the mutant strain in commercially produced inocula (assessed by infectivity and spectrophotometry) ranged from 28 to 1220 μg virus/ml; nevertheless all samples contained sufficient virus to infect a high percentage of inoculated tomato seedlings. Increasing the distance between the plants and the spray gun used for inoculation from 5 to 15 cm resulted in a significant decrease in the number of tomato seedlings infected. When M II-16 infected tomato plants were subsequently inoculated with each of fifty-three different isolates of TMV, none showed severe symptoms of the challenging isolates within 4 wk, although some isolates of strain o induced atypically mild leaf symptoms. In a further experiment, M II-16 infected plants showed conspicuous leaf symptoms only 7 wk after inoculation with a virulent TMV isolate. M II-16 multiplied more slowly in tomato plants and had a lower specific infectivity than a naturally occurring strain of TMV. More than 50% of plants in crops inoculated with strain M II-16 which subsequently showed conspicuous leaf mosaic contained TMV strain 1 or a form intermediate between strains o and 1. It is suggested that the production of TMV symptoms in commercial crops previously inoculated with strain M II-16 may result from an initially low level of infection, due to inefficient inoculation, which allows subsequent infection of unprotected plants by virulent strains. Incomplete protection by strain M II-16 against all naturally occurring strains may also be an important factor.     

Tomato yellow leaf curl virus DNA in callus cultures derived from infected tomato leaves

Callus cultures were induced from leaves of a tomato plant infected with tomato yellow leaf curl virus (TYLCV) and analyzed for viral DNA presence during successive subcultures. No TYLCV DNA was detected in calli sampled after eight months of culture. Considerable differences in the presence of TYLCV DNA were found within sectors of a callus culture and between different callus cultures, throughout the entire eight months period. Infected calli which were cultured at sub-optimal temperature (15°C) retained the viral DNA longer than at 25 °C. The results suggested that TYLCV disappearance during callus culture was due to a disruption of some of the cell-to-cell connections, resulting in islands of infected cells in the midst of uninfected tissue and/or to the competition between the rate of cell division and that of viral DNA replication.Abbreviations BA benzyladenine - CMV cucumber mosaic virus - NAA naphthaleneacetic acid - TMV tobacco mosaic virus - TYLCV tomato yellow leaf curl virus     

Propagation of plant viruses in hairy root cultures: a potential method for in vitro production of epitope vaccines and foreign proteins

Hairy roots were used as an in vitro culture system for the propagation of wild-type and transgenic plant viruses. Tobacco mosaic virus (TMV) was added to the liquid culture medium at the same time as root inoculation. Hairy root growth was unaffected by viral infection. Maximum concentrations of TMV in Nicotiana benthamiana hairy roots were 1-2 orders of magnitude greater than in suspended N. benthamiana cells and reached levels of 1-2 mg g(-1) dry weight or 20-28% total soluble protein. Virus accumulated in the roots initially with a constant doubling time of about 1.0 day; subsequent reductions in viral growth rate were correlated with a significant decline in infectivity relative to the inoculum virus. The morphological integrity of the viral particles was maintained during propagation in hairy roots. The contribution to the overall viral titer of passive association of virus with the biomass, for example, by surface adsorption, was negligible compared with active viral replication. N. benthamiana hairy roots were also infected with a TMV-based viral vector developed to express green fluorescent protein (GFP). This vector was about 260-fold less infectious than wild-type TMV and accumulated much more slowly in the roots. Maximum levels of TMV-GFP in the biomass were about 65-fold lower than for TMV. This work demonstrates that hairy root cultures are a feasible means for in vitro propagation of wild-type and transgenic plant viruses under conditions that allow a high degree of environmental containment and control.     

Effects of ribavirin and adenine arabinoside on tobacco mosaic virus in Nicotiana tabacum L. var Xanthi tissue cultures

Although both ribavirin (1-β-ribofuranosyl-1,2,4-triazole-3carboxamide) and adenine arabinoside inhibited the multiplication of tobacco mosaic virus (TMV) in mechanically inoculated leaf tissues, neither chemical inhibited virus multiplication in unorganized tobacco callus after in vitro inoculation. The adenine deaminase inhibitor, pentostatin, did not increase the activity of adenine arabinoside in cultured cells. Several different developmental conditions and media did not increase the ability of either chemical to eradicate the virus from tobacco tissue cultures. However, the virus was eradicated from TMV-infected callus when grown in the presence of combinations of ribavirin and adenine arabinoside in shoot inducing medium.     

Influence of κ/β-carrageenan from red alga <Emphasis Type="Italic">Tichocarpus crinitus</Emphasis> on development of local infection induced by tobacco mosaic virus in Xanthi-nc tobacco leaves

The influence of κ/β-carrageenan from red marine alga Tichocarpus crinitus on the development of tobacco mosaic virus (TMV) infection in Xanthi-nc tobacco leaves was studied. It was shown that the number of necrotic lesions on the leaves inoculated with the mixture of TMV (2 μg/ml) and carrageenan (1 mg/ml) was reduced by 87%, compared to the leaves inoculated with the virus only. The suppression of virus infection was also observed when leaves were treated with carrageenan 24 h before or 24 h after leaf inoculation with TMV; however, in these cases, suppression was less evident than after inoculation with the virus-polysaccharide mixture. It is supposed that the antiviral activity of carrageenan applied together with TMV may be explained by its action not only on the plant but also on the virus itself. The inhibitory effect of carrageenan pretreatment can be explained by its favorable effect on tissue resistance to infection. The suppression of this resistance by actinomycin D indicates that carrageenan functions via its action on the cell genome.     

Effects of ribavirin and adenine arabinoside on tobacco mosaic virus in Nicotiana tabacum L. var Xanthi tissue cultures

Although both ribavirin (1--ribofuranosyl-1,2,4-triazole-3carboxamide) and adenine arabinoside inhibited the multiplication of tobacco mosaic virus (TMV) in mechanically inoculated leaf tissues, neither chemical inhibited virus multiplication in unorganized tobacco callus after in vitro inoculation. The adenine deaminase inhibitor, pentostatin, did not increase the activity of adenine arabinoside in cultured cells. Several different developmental conditions and media did not increase the ability of either chemical to eradicate the virus from tobacco tissue cultures. However, the virus was eradicated from TMV-infected callus when grown in the presence of combinations of ribavirin and adenine arabinoside in shoot inducing medium.     

Photosynthetic bacterium Rhodopseudomonas palustris GJ‐22 induces systemic resistance against viruses

Photosynthetic bacteria (PSB) have been extensively used in agriculture to promote plant growth and to improve crop quality. Their potential application in plant disease management, however, is largely overlooked. In this study, the PSB strain Rhodopseudomonas palustris GJ‐22 was investigated for its ability to induce resistance against a plant virus while promoting plant growth. In the field, a foliar spray of GJ‐22 suspension protected tobacco plants against tobacco mosaic virus (TMV). Under axenic conditions, GJ‐22 colonized the plant phyllosphere and induced resistance against TMV. Additionally, GJ‐22 produced two phytohormones, indole‐3‐acetic acid and 5‐aminolevulinic acid, which promote growth and germination in tobacco. Furthermore, GJ‐22‐inoculated plants elevated their immune response under subsequent TMV infection. This research may give rise to a novel biological agent with a dual function in disease management while promoting plant growth.     

A ribozyme gene and an antisense gene are equally effective in conferring resistance to tobacco mosaic virus on transgenic tobacco

Ribozymes of the hammerhead class can be designed to cleave a target RNA in a sequence-specific manner and can potentially be used to specifically modulate gene activity. We have targeted the tobacco mosaic virus (TMV) genome with a ribozyme containing three catalytic hammerhead domains embedded within a 1 kb antisense RNA. The ribozyme was able to cleave TMV RNA at all three target sites in vitro at 25°C. Transgenic tobacco plants were generated which expressed the ribozyme or the corresponding antisense constructs directed at the TMV genome. Six of 38 independent transgenic plant lines expressing the ribozyme and 6 of 39 plant lines expressing the antisense gene showed some level of protection against TMV infection. Homozygous progeny of some lines were highly resistant to TMV; at least 50% of the plants remained asymptomatic even when challenged with high levels of TMV. These plants also displayed resistance to infection with TMV RNA or the related tomato mosaic virus (ToMV). In contrast, hemizygous plants of the same lines displayed only very weak resistance when inoculated with low amounts of TMV and no resistance against high inoculation levels. Resistance in homozygous plants was not overcome by a TMV strain which was altered at the three target sites to abolish ribozyme-mediated cleavage, suggesting that the ribozyme conferred resistance primarily by an antisense mechanism.     

Chemical suppression of the symptoms of two virus diseases

Carbendazim applied at the rate of 2 g per plant to the roots of tobacco (Nicotiana tabacum cv. White Burley) plants before infection with tobacco mosaic virus (TMV) caused very considerable reduction in the severity of disease symptoms in systemically infected leaves but did not affect their virus content. Leaves of untreated, infected plants had a greatly reduced chlorophyll content 100 days after infection whereas the chlorophyll content of leaves of infected plants treated with carbendazim was similar to that of normal uninfected leaves. Carbendazim had no effect on the infectivity of TMV in vitro or on the local lesion reaction of N. glutinosa plants when inoculated with TMV. Carbendazim was applied to lettuce cv. Cobham Green at a total rate of o-i g per plant before and after they were infected with beet western yellows virus and the plants were then grown on in the field. At harvest time (50 days after infection) almost all the treated virus-infected plants were of a normal green appearance, whereas the untreated controls were almost all very severely yellowed and unmarketable.     

Ultraviolet-induced changes in the infectivity of Agrobacterium tumefaciens

The infectivity of Agrobacterium tumefaciens strain B6 irradiated with short-wavelength ultraviolet light was followed as a function of dose. Previously reported enhancements of B6 infectivity by ultraviolet irradiation, in samples inoculated after 1.75 hr of dark incubation at 27 C, or immediately following irradiation, were found to occur most frequently after losses in cell viability of 60% and of 90% or more, respectively. Changes in colony-forming ability and tumor-initiating ability with increasing dose showed no obvious correlation until the maximal infectivity promotion of samples inoculated immediately after irradiation was reached. Thereafter, both bacterial responses typically decreased in parallel. With low dose rates, infectivity promotions were obtained with less than 10% loss in cell viability. Data for tumor appearance and tumor growth resulting from inoculations with irradiated cultures showed no significant differences from controls, nor did the age of the bacterial culture or age of the host plant influence the response. The infectivity promotion appears to result from an increase in the proportion of viable cells that will subsequently initiate tumors. The characteristics of this ultraviolet infectivity promotion are shown to be most similar to those found in prophage and bacteriocin induction.     

The Effect of Glucose on Cell Division in Chlorella vulgaris, Beijerinck (Emerson Strain)

Cell division in cultures of the Emerson strain of Chlorellavulgaris is markedly inhibited following inoculation into aglucose medium under conditions which are sub-optimal for autotrophicgrowth. Dry-weight accumulation is not inhibited and the resultis the production of cells considerably larger than those occurringin a glucose-free medium. The more closely the conditions ofculture approach those which are saturating for autotrophicgrowth, the less pronounced is the glucose effect. Evidenceis presented which suggests that the heterotrophic utilizationof glucose may be the dominant form of nutrition during theglucose-induced inhibition of cell division. It is suggestedthat the difference in response to glucose recorded under variousconditions of culture may be a reflection of the extent of glucosesuppression of photosynthesis under the various conditions.The possibility is discussed that the light requirement forcell division shown by this strain may be linked with photosynthesis.     

Infection, propagation, distribution and stability of plant virus in hairy root cultures

Nicotiana benthamiana hairy root cultures were infected with tobacco mosaic virus (TMV) and used for in vitro plant virus propagation. The roots were infected with TMV by addition of virus to the medium at the same time as root inoculation. Viral accumulation in the biomass was 7-11-fold greater when the initial infection was carried out in B5 medium rather than sodium phosphate buffer; virus accumulation also increased with increasing viral inoculum concentration. The amount of TMV accumulated in the biomass was similar when virus was retained in the medium for the duration of the cultures and when the inoculum virus was removed 23h after addition to the roots. In roots with established infections, the concentration of virus remained relatively constant and did not increase with further root growth. The distribution of virus within individual root mats harvested from shake flasks was not uniform; there was also significant variability in viral accumulation between replicate hairy root cultures. The picture that emerges from this work is that in vitro viral accumulation in hairy root cultures depends strongly on the viral inoculum concentration applied and the initial level of primary infection achieved, even though primary infection by external virus occurs mainly within only the first few hours of exposure to the biomass and is followed by substantial secondary infection by viral progeny within the root tissue.