Electron microscopic study of chitosan action on intracellular accumulation and the state of tobacco mosaic virus particles in tobacco leaves

The effect of chitosan on the accumulation and state of tobacco mosaic virus (TMV) in mesophyll cells of Nicotiana tabacum L. var. Samsun leaves is studied in the early stage of the development of the infection (3 days after infection of leaves). In the cells of leaves treated with chitosan 24 h before infection, the virus accumulated to a lesser degree than in the control. With the use of chitosan, TMV-specific granular inclusions were often observed in infected cells, the presence of which is ascribed to the early stages of virus reproduction, whereas the control cells contained mainly tubular inclusions formed from granular inclusions at the late stages of the infectious processes. This shows that chitosan delays the development of the infection. In the phosphotungstic acid-treated juice preparation made from infected leaves, abnormal (swollen and thin), as well as normal, TMV particles were observed. The appearance of abnormal viral particles seems to result from the virus-induced activation of intracellular lytic processes. In chitosan-treated infected cells, the lytic activity was the highest and the number of abnormal viral particles increased compared to the control. It is suggested that the chitosan-mediated stimulation of lytic processes that cause the destruction of TMV particles may be one of the protective mechanisms that limit the accumulation of the virus in cells.     

Photosynthetic electron transport in tobacco leaves infected with tobacco mosaic virus

Tobacco ( Nicotiana tabacum L. cv. Samsun) plants inoculated with different strains of tobacco mosaic virus (TMV) inducing mosaic symptoms of widely varying severity were studied with in vivo chlorophyll fluorescence. This method was used to deduce photosynthetic electron transport efficiency in relation to symptom expression. The quantum yields of photosystem II (PS II) electron transport rate were significantly diminished in virus strains inducing loss of chlorophyll. The reduction in young mosaic-diseased leaves appeared to be due in part to a reduction in the fraction of open reaction centers, whereas in older leaves exhibiting less pronounced symptoms the reduction was mainly caused by a reduced efficiency of capture of excitation energy of open PS II reaction centers. Upon infection with any of the five virus strains PS II seemed to be irreversibly damaged in the inoculated leaves and the ones directly above, indicative of a possible increased susceptibility to photoinhibition in these leaves (Somersalo and Krause 1989) even when no symptoms were apparent. Symptom expression did not appear to be related to the influence of the virus on PS II activity, because the severest effects occurred in the inoculated leaves, which either remained symptomless or developed slight yellowing only. This study demonstrates the usefulness or modulated chlorophyll fluorescence measurements for the investigation of plant-virus interactions. It is particularly important when visual symptoms are absent.     

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.     

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.     

Selective staining of intracellular inclusions of tobacco mosaic virus

For specific staining of TMV inclusions the cytochemical method of Hr?el for the determination of tryptophan containing proteins was used. This method makes it possible to obtain series of sections in contrast to the methods employed up to the present, so that TMV inclusions from any part of the plant can be detected. Staining was tested “in situ” as well as in preparations of isolated virus particles.     

Electron microscopy of double-stranded RNA induced by turnip yellow mosaic virus and tobacco mosaic virus

Summary Double-stranded RNA isolated by phenol extraction from turnip yellow mosaic virus-infected chinese cabbage leaves and from tobacco mosaic virus-9nfected tobacco leaves was rotary shadowed and examined in the electron microscope. The TYMV and TMV molecules are similar in appearance, having uniform width and a linear configuration similar to that previously described for double-stranded RNA and double-stranded DNA molecules. More than 99.5% of the molecules of each virus fall within the range 0.1 to 2.2 , there being a predominance of smaller molecules in both cases (TYMV mean=0.24 , TMV mean 0.42 ). The mode of the larger molecules of TYMV 1.92 and of TMV 1.8 . These values are close to the expected lengths of whole molecules, calculated from biophysical data. Apparently branched molecules were observed in preparations of both TYMV and TMV double-stranded RNA. It was found, however, that the number of such branches per unit length of RNA decreases with a decrease in density of the RNA in the fields examined.     

Electron microscopic study of the in vitro effect of dipyridamol on the pseudorabies virus

Dipyridamole at a concentration of 50 microM/ml displays no activity on adsorption and penetration of pseudorabies virus in chicken embryonal cells. Furthermore, first stages of virus replication take place within the nucleus, whereas incomplete virus cores defective in DNA content are found within the nucleoplasm at times when the regular viral replication has been finished in controls. Defective pseudorabies virus particles lacking in DNA-content of the core, can be observed at the end of normal replication time. Consequently, the antiviral activity of dipyridamole may be due to blocking of the synthesis or of the incorporation of infectious viral DNA into the virus core.