Complex formation between different antisense RNAs directed against either plus-strand or minus-strand sequences of the potato spindle tuber viroid (PSTVd) was studied using temperature-gradient gel electrophoresis and immunochemical detection with an antibody specific for double-stranded RNA. Short minus-strand sequences were directed against the upper central conserved region (UCCR) of plus-strand viroid replication intermediates, a plus-strand corresponding to the left half of the rod-like secondary structure (VL+) against minus-strand replication intermediates. It was shown that antisense RNA forms complexes with the corresponding target RNA only with low yield during incubation at low (physiological) temperatures but with high yield during in vitro transcription of the target RNA when the antisense RNA is already present in the solution. The antisense RNA sequences were integrated into Solanum tuberosum L. by Agrobacterium tumefaciens transformation. Antisense RNA expression in vivo was analyzed by Northern analysis. Infection tests were performed using the transgenic potato lines in order to evaluate their degree of resistance against PSTVd infection. Although some lines showed a significant inhibition of viroid accumulation, a high variability of viroid infection in different transgenic potato lines was obtained. Since strongly infected plants were observed in all transgenic lines 6 to 8 weeks post inoculation, a threshold concentration of viroid, overcoming the antisense effect has to be assumed. When the rate of viroid accumulation was tested using agroinfection assays on leaf discs, a stronger antisense effect could be achieved.
A high concentration of hop latent viroid (HLVd) was detected in infected mericlones of Osvald's hops grown in vitro. This concentration was about 8-fold higher than in leaves of young, field-grown plants, reaching about 30 pg/mg of fresh mass. Treatment of these in vitro-grown plants at high temperature (35 degrees C) for two weeks lead to a dramatic (about 70-90%) decrease of HLVd content. More detailed investigations performed with mericlone 6147 of Osvald 31 showed that HLVd levels decrease gradually during subsequent cycles of heat treatment. A nuclease activity capable of cleaving HLVd and fully double-stranded RNA was shown to increase significantly in hop tissues during thermotherapy cycles, or after the heat shock. The nuclease activity was found to have similar properties to those extracted earlier from tobacco anthers. This enzyme resembles a sugar-unspecific nuclease which has a maximum activity at pH 5.5. Analysis of the activity with viroid and dsRNA showed that both, endo- and exonucleolytic activities were attributable to the enzyme. A strong tissue-specific gradient of viroid (the lowest level in stem apex and the highest level in roots) was observed in young plants, showing a negative correlation with the dsRNAse activity. In senescent plants, the highest viroid concentration was observed in maturated cones and in upper stems. High nuclease activity in the upper stem tissue suggests that viroid RNA must be protected in this tissue against degradation.
Nucleases, capable of digesting double-stranded RNAs are mainly confined to extracellular fractions of tobacco anthers and diffusate of mature pollen. dsRNAse activity is about 150-fold higher in anther fractions than in crude nuclease extracts from tobacco leaves. The level of dsRNAse activity varies during pollen development from the microspore stage to maturity. In the anther soluble fraction, dsRNAse activity reached a maximum (approx. 50 units/anther) at the end of microspore mitosis and then decreased continuously until the stage of almost mature anthers. In contrast, the nuclease activity associated with pollen increased continuously reaching a maximum (5 units/anther), during subsequent stages of pollen maturation. Gel electrophoretic analysis revealed four slowly migrating sugar-unspecific nucleases (active against DNA and RNA) and three faster migrating RNases which were all able to digest dsRNA. Competition experiments showed that the sugar-unspecific nucleases accounted for 95% of the total dsRNAse activity. Anther extracellular nucleases were further characterized after partial purification on NADP-agarose: dsRNAse activity had a pH optimum at 5.5, was strongly inhibited by NaCl and by 1 mM Zn2+ and was insensitive to EDTA which could stimulate activity in crude preparations. Analysis of the activity with defined substrates showed that ssRNA is more readily degraded than dsRNA and that both, endo- and exonucleolytic activities are detected.
Tobacco cv. White Burley was transformed with disarmed expression vector pCBI314 containing dimeric cDNA of potato spindle tuber viroid (PSTV, severe strain) in plus orientation regulated from the mannopine promoter. Amount of PSTV specific (-) and (+) sequences and PSTV circular forms was measured in transformed tobacco stock and compared with PSTV content in untransformed tomato and tobacco grafts. It follows from the results that lower rate of accumulation of PSTV in tobacco as compared with tomato is due to less intensive viroid transportation through the cytoplasm and/or cell to cell movement, whereas both, viroid replication and processing showed comparable characteristics in tomato and tobacco with respect to accumulation of minus and plus strands and circular forms in infected tissues. Despite of accumulation of viroid in comparable amount in both transformed tobacco and infected tomato, no expression of any morphological symptom of disease was observed in transgenic tobacco.Although PSTV causes severe developmental distortions in some host species such as tomato and potato, it is considered to be unable to infect other members of the same family (Singh 1973). Tobacco (Nicotiana tabacum L.) is known to be host species for PSTV, but no obvious symptoms of disease were described for PSTVinfected tobacco. This could be due to either absence of interaction of PSTV with specific cell compartment(s) to promote pathogenesis and/or unsufficient accumulation of PSTV in tobacco cells due to some barrier(s) for viroid propagation in this host species.
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