Abstract: Hop latent viroid (HLVd) is not transmissible through hop generative tissues and seeds. Here we describe the process of HLVd elimination during development of hop pollen. HLVd propagates in uninucleate hop pollen, but is eliminated at stages following first pollen mitosis during pollen vacuolization and maturation. Only traces of HLVd were detected by RT-PCR in mature pollen after anthesis and no viroid was detectable in in vitro germinating pollen, suggesting complete degradation of circular and linear HLVd forms. The majority of the degraded HLVd RNA in immature pollen included discrete products in the range of 230�100 nucleotides and therefore did not correspond to siRNAs. HLVd eradication from pollen correlated with developmental expression of a pollen nuclease and specific RNAses. Activity of the pollen nuclease HBN1 was maximal during the vacuolization step and decreased in mature pollen. Total RNAse activity increased continuously up to the final steps of pollen maturation. HBN1 mRNA, which is abundant at the uninucleate microspore stage, encodes a protein of 300 amino acids (34.1 kDa, isoeletric point 5.1). Sequence comparisons revealed that HBN1 is a homolog of S1-like bifunctional plant endonucleases. The developmentally activated HBN1 and pollen ribonucleases could participate in the mechanism of HLVd recognition and degradation.

Abstract: The antitumor effect of black pine (Pinus nigra) pollen nuclease (PN) tested in vitro was negligible in comparison with bovine seminal ribonuclease (BS-RNase). However, in the experiments in vivo a significant decrease of the human melanoma tumor size was observed in the mice treated with this nuclease and also with the animal RNases and DNase I. In nude mice injected intratumoraly with PN (10�g/dose) the tumor size decreased from 100% in the control mice to 46% in treated mice whereas in counterparts treated with BS-RNase and DNase I the tumor growth was reduced a little more, however after ten times higher doses (100 and 80 ug per dose). Certain aspermatogenic and embryotoxic activity as an expression of side effects of PN and comparative enzymes also appeared, but it was lower compared to the effect of bovine seminal ribonuclease. Immunogenicity of PN was significantly weaker in compaison with BS-RNase.The antibodies against black pine nuclease produced in the injected mice did not inactivate the biological effects of this plant nuclease in vivo. In conclusion PN nuclease proved in vivo higher antitumor activity against human melanoma tumors growing in athymic mice in comparison with animal bovine seminal ribonuclease and DNase I.

Abstract: A hop-specific cDNA library from glandular tissue-enriched hop cones was screened for Myb transcription factors. cDNA encoding for R2R3 Myb, designated HlMyb3, was cloned and characterized. According to the amino acid (aa) sequence, HlMyb3 shows the highest homology to GhMyb5 from cotton and is unrelated to the previously characterized HlMyb1 from the hop. Southern blot analyses indicated that HlMyb3 is a unique gene, which was detected in various Humulus lupulus cultivars, but not in Humulus japonicus. Reverse transcription and real-time PCR revealed the highest levels of HlMyb3 mRNA in hop cones at a late stage of maturation and in colored petiole epidermis, while the lowest levels were observed in hop flowers. Two alternative open reading frames starting in the N-terminal domain of HlMyb3, encoding for proteins having 269 and 265 amino acids with apparent molecular masses of 30.3 and 29.9 kDa, respectively, were analyzed as transgenes that were overexpressed in Arabidopsis thaliana, Nicotiana benthamiana, and Petunia hybrida plants. Transformation with the longer 269 aa variant designated l-HlMyb3 led to a flowering delay and to a strong inhibition of seed germination in A. thaliana. Nearly complete flower sterility, dwarfing, and leaf curling of P. hybrida and N. benthamiana l-HlMyb3 transgenotes were noted. On the contrary, the shorter 265-aa-encoding s-HlMyb3 transgene led in A. thaliana to the stimulation of initial seed germination, to fast initiation of the lateral roots, and to quite specific branching phenotypes with many long lateral stems formed at angles near 90°. Limited plant sterility but growth stimulation and rather branched phenotypes were evident for s-HlMyb3 transgenotes of P. hybrida and N. benthamiana. It was found that both HlMyb3 transgenes interfere in the accumulation and composition of flavonol glycosides and phenolic acids in transformed plants. These effects on heterologous transgenotes suggest that the HlMyb3 gene may influence hop morphogenesis, as well as metabolome composition during lupulin gland maturation.

Abstract: Weed plants characteristic for potato and hop fields have not been considered in the past as potential hosts that could transmit and lead to spreading of potato spindle tuber (PSTVd) and hop stunt (HSVd) viroids, respectively. To gain insight into this problem, we biolistically inoculated these weed plants with viroid populations either as RNA or as cDNA. New potential viroid host species, collected in central Europe, were discovered. From 12 weed species characteristic for potato fields, high viroid levels, detectable by molecular hybridization, were maintained after both RNA and DNA transfers in Chamomilla reculita and Anthemis arvensis. Low viroid levels, detectable by reverse transcription-PCR (RT-PCR) only, were maintained after plant inoculations with cDNA in Veronica argensis and Amaranthus retroflexus. In these two species PSTVd concentrations were 105 and 103 times, respectively, lower than in tomato as estimated by real-time PCR. From 14 weeds characteristic for hop fields, high HSVd levels were detected in Galinsoga ciliata after both RNA and DNA transfers. HSVd was found, however, not to be transmissible by seeds of this weed species. Traces of HSVd were detectable by RT-PCR in HSVd-cDNA-inoculated Amaranthus retroflexus. Characteristic monomeric (+)-circular and linear viroid RNAs were present in extracts from weed species propagating viroids to high levels, indicating regular replication, processing, and circularization of viroid RNA in these weed species. Sequence analyses of PSTVd progenies propagated in C. reculita and A. arvensis showed a wide spectrum of variants related to various strains, from mild to lethal variants; the sequence variants isolated from A. retroflexus and V. argensis exhibited similarity or identity to the superlethal AS1 viroid variant. All HSVd clones from G. ciliata corresponded to a HSVdg variant, which is strongly pathogenic for European hops.

Abstract: Strong viroid-caused pathogenesis was achieved in tomato cv. Rutgers by biolistic transfer of severe or lethal potato spindle tuber viroid (PSTVd) strains, while other tomato genotypes (e.g., Moneymaker) were tolerant. With reciprocal hybrids between sensitive and tolerant genotypes, we show that plant depression dominates over tolerance. Biolistic transfer of the most pathogenic PSTVd strain AS1 to Nicotiana benthamiana, which is considered to be a symptomless PSTVd host, led to a strong pathogenesis reaction and stunting, suggesting the presence of specific viroid pathogenesis-promoting target(s) in this plant species. Total levels of small siRNA-like PSTVd-specific RNAs were enhanced in strongly symptomatic tomato and N. benthamiana plants after biolistic infection with AS1 in comparison to the mild QFA strain. This indicates association of elevated levels of viroidspecific small RNA with production of strong symptoms.In symptom-bearing tomato leaves in omparison to controls, an RNase of approximately 18 kDa was induced and the activity of a nuclease of 34 kDa was elevated by a factor of seven in the vascular system. Sequence analysis of the nuclease cDNA designated TBN1 showed high homology with plant apoptotic endonucleases. The vascular-specific pathogenesis action is supported by light microscopic observations demonstrating a certain lack of xylem tissue and an arrest of the establishment of new vascular bundles in collapsed plants.

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Abstract: Screening of a cDNA library of the hop cv. Osvald�s 72 and genomic cloning were used to isolate members of an oligofamily of c hs_H1 genes that codetermine the biosynthesis of prenylated chalcones known to be valuable medicinal compounds present in hop ( Humulus lupulusL.). c hs_H1 oligofamily members showed more than 99% and 98% identity on nucleotide and amino acid levels, respectively, and retained all conserved amino acids that form the catalytic center characteristic for �true� chalcone synthases. The chs_H1 promoter exhibited low sequence variability in addition to conservation of all predicted cis-regulatory elements. Possible transactivation of the chs_H1 gene with the transcription factor PAP1 from Arabidopsis thalianawas assayed using Agrobacterium tumefaciensinfiltrations of Nicotiana benthamianaand Petunia hybridaplants. Infiltration of N. benthamianaleaves with chs_H1 promoter/GUS chimeras led to a 24.8-fold increase of the GUS activity when coinfiltrated with the pap1gene. Coinfiltration of the �native� chs_H1 gene with pap1led to an increased accumulation of chs_H1 mRNA as observed by semiquantitative reverse transcription-polymerase chain reaction. Transgenic lines of P. hybrida expressing the pap1gene showed unusual patterns of UV-A-inducible pigmentation and anthocyanin accumulation in parenchymatic and medulla cells. Infiltration of transgenic leaves of P. hybrida with chs_H1 and pap1 genes arranged as a tandem led to quick pigmentation within 12 h after UV-A irradiation. It is indicated that the chs_H1 promoter contains functional element(s) mediating an efficient response to PAP1 expression and UV-A irradiation. UV-A also induced chs_H1 mRNA and accumulation of flavonol glycosides in hop leaves. It can be expected that the PAP1 factor could significantly influence the expression of the chs_H1 oligofamily in transgenic hop and modify the hop metabolome.

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Abstract: The concentrations of prenylated chalcones and bitter acids were analyzed in Czech hop varieties. The highest levels of (xanthohumol + desmethylxanthohumol) (0.97%, m/m) and of total bitter acids (17.19%, m/m) were observed for cv. Agnus. The concentration ratios of bitter acids to prenylated chalcones varied depending on the genotype, thereby suggesting genetic determination by different set(s) of structural and regulatory genes. Promoter elements of the chs_H1gene encoding a �true� chalcone synthase, a candidate gene to co-determine the biosynthesis of prenylated chalcones, were analyzed, and several boxes for cis-regulatory elements including Myb transcription factors were discovered. A cDNA library was established from glandular tissue-enriched cones of cv. Osvald�s clone 72 and used to screen for Myb regulatory elements. The cDNA of the first Myb regulatory factor from hop, called HlMyb1, was cloned and analyzed. The HlMyb1open reading frame encodes 272 amino acids (29.8 kDa), and the protein showed highest homology to the light-regulated factor AtMyb68from Arabidopsis thalianawithin the Mybdomain, whereas there was no significant homology with known MYB proteins outside this domain. Unlike AtMyb68, which is expressed in mature leaves, HlMyb1 is strongly expressed in hop inflorescences and could participate in the regulation of developmental processes involved in the production of hop cones and bioactive secondary metabolites.

Abstract: Complete genomes of three isolates of Potato virus S (PVS) were cloned and sequenced. The PVS ORF-1 was characterized for the first time. It encodes a putative replication protein (RPT) that shares the highest homology (about 52%) with that of Blueberry scorch virus (BlScV). ORF-1 motifs, characteristic for carlaviruses were found for methyltransferase (MTR), helicase (HEL) and RNA-dependent RNA polymerase (RdRp). The complete sequence of PVS genome enabled to develop an immunocapture RT-PCR probing of the PVS genome. Using this system, the sequence variability of 11 genome zones was examined for 34 PVS isolates including 15 PVS-CS variants that caused a systemic infection in Chenopodium quinoa. A broad variability between PVS isolates and diverse sequence variants was found. cDNA fragments covering the coat protein (CP) leader and CP-coding region (approx. 420 bp) were pooled for PVS-O and Chenopodium-systemic PVS isolates (PVS-CS) and corresponding cDNA libraries were screened for sequence variants. Both cDNA pools differred mainly in the 5'-end of the CP gene. Methionine at the position 17 in combination with serine at the position 34 were frequently associated with the CS character of PVS. In general, hydrophobic and polar amino acids were characteristic for the positions 17 and 34, respectively in PVS-CS isolates. Genome probing and evolutionary distances suggested that the PVS-CS isolates analyzed were close to the ordinary European isolates of ordinary strain of PVS (PVS-O) but distant to the original Andean strain of PVS (PVS-A).

Abstract: The genes transcribed by RNA polymerase III (pol III) display a great diversity in terms of promoter structure and are placed in four groups accordingly. Type 3 subset of pol III genes has promoter elements which reside entirely upstream of the coding region of the gene whereas type 4 consists of genes with mixed promoters that enclose intra- and extragenic regulatory sequences. Plant 7SL RNA genes have been previously classified as type 3 of pol III genes requiring an upstream sequence element and a canonical TATA box for transcriptional activity in transfected plant protoplasts. We have identified two novel functional control regions within the coding region of an Arabidopsis 7SL RNA gene (At7SL-1) that resemble tRNA gene-specific A and B boxes with respect to sequence and position. Single and multiple nucleotide substitutions in either of these regions resulted in a pronounced reduction of transcription activity in tobacco nuclear extract that was not caused by a decreased stability as shown by decay kinetics of wild type and mutant RNA transcripts. These findings suggest that plant 7SL RNA genes should be actually placed in type 4 of pol III-transcribed genes. As a consequence of substantially different upstream promoters utilized by plant and human pol III, in vitro transcription of 7SL RNA genes in heterologous systems is severely impaired. A chimeric human 7SL RNA gene that contains the 5' flanking region up to position -300 of At7SL-1 is yet transcribed with a reduced efficiency in tobacco extract when compared with the plant wild-type gene, supporting the notion that internal regulatory elements contribute to full activity.

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Abstract: Parameters for biolistic transfer of viroid nucleic acids using a Helios Gene Gun device were assayed. The main achievement of this method is high efficiency of inoculation with linear monomeric viroid cDNAs and RNAs. This greatly facilitates the study of mutated sequence variants, viroid libraries and mixed populations. The lower limits for efficient inoculation of monomeric cDNA fragments with the sequence of potato spindle tuber viroid (PSTVd) and native PSTVd RNA as detected 21 days p.i. are in the range of 50 ng and 200 pg per tomato plant, respectively. At a higher dose, i.e. 2 ng of native RNA per plant, biolistic transfer causes drastic stunting compared to conventional mechanical inoculation, which points to higher PSTVd titers after the biolistic transfer. Infection is readily achieved with exact length monomeric RNA transcripts having 5-triphosphate and 3-OH termini in amounts ranging from 2 to 20 ng per plant, suggesting no need for any supplementary modifications of ends or RNA circularization. The biolistic transfer is efficient for viroid �thermomutants�, which exhibit low or no infectivity with conventional mechanical inoculation with Carborundum. The biolistic inoculation is also efficient for two other members of the Pospiviroidae family, hop stunt and hop latent viroid.

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Abstract: Twenty potato virus Y (PVY) isolates were characterized. They represented two strains only, PVY(O) (three isolates) and PVY(N) (17 isolates). However, application of serological and molecular genetic methods led to a more complicated characterization. For example, five isolates induced necrotic symptoms on tobacco plants typical of PVY(N), despite reacting as PVY(O) serologically. Moreover, the PVY isolates were not identical according to molecular genetic properties. Typical PVY(NTN) PCR products were observed for 14 isolates, but five of them (Hr 220-5, Hr 387-7, Nord 242, Syn1Scot, and 41-97) did not produce potato tuber necrotic symptoms in infected cultivars. An immunocapture reverse transcription-polymerase chain reaction (RT-PCR) probing was developed using a set of 24 primer pairs derived from eight regions of the PVY genome. Using this method, five out of seven PVY(NTN) isolates including the Czech standard PVY(NTN) from the potato cv. Nicola were found to be identical. However, two PVY(NTN) isolates and all the other probed PVY samples showed unique patterns, suggesting specific differences at the nucleotide level. This method enabled specific identification of individual isolates variability even within different PVY strains.

Abstract: RNA polymerase III-driven cassettes for the expression of antisense RNAs and ribozymes have recently attracted much attention because (1) pol III genes are transcribed abundantly in all kinds of tissues and (2) the transcripts are very stable by virtue of their small and compact size. We have designed two types of pol III-based expression vehicles. Antisense RNA sequences targeted against conserved structural elements or domains in the RNAs of potato spindle tuber viroid, hop latent viroid and potato virus S were either embedded in the anticodon region of a Nicotiana tRNA(Tyr) gene or near the 3' end of an Arabidopsis 7SL RNA gene. Both classes of chimeric genes were transcribed in vitro in a homologous plant extract. Our studies clearly revealed that the modified tRNA and 7SL RNA genes, carrying insertions of up to 90 and 120 bp, respectively, were expressed efficiently in the tobacco nuclear extract, resulting in high levels of stable chimeric transcripts. 7SL RNA (also termed SRP RNA) represents the RNA component of the signal recognition particle. This is the first report of demonstrating the employment of 7SL RNA genes as potential cassettes for the expression of antisense RNA and ribozyme sequences and might be helpful in future experiments to control their localization in specific sub-cellular compartments.

Abstract: We have performed an analysis of transcription of hop 7SL RNA genes in heterologous human extract from HeLa cells. Several variants of the Hl7SL-1 gene with a truncated or mutated 5' non-transcribed part revealed a crucial importance of TATA box for transcription. The USE element was found important but dispensable for transcription. Transcription of mutants in the A-like box and experiments with hop 7SL RNA pseudogenes E44 and G32 revealed the importance of internal elements. The A-like box and possibly CG doublet at position +15/+16 described by Bredow et al. (1990a) are according to our results indispensable for in vitro transcription of plant 7SL RNA genes in human extract.

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Abstract: We have previously shown that heat treatment of hop plants infected by hop latent viroid (HLVd) reduces viroid levels. Here we investigate whether such heat treatment leads to the accumulation of sequence variability in HLVd. We observed a negligible level of mutated variants in HLVd under standard cultivation conditions. In contrast, the heat treatment of hop led to HLVd degradation and, simultaneously, to a significant increase in sequence variations, as judged from temperature gradient-gel electrophoresis analysis and cDNA library screening by DNA heteroduplex analysis. Thirty-one cDNA clones (9.8%) were identified as deviating forms. Sequencing showed mostly the presence of quadruple and triple mutants, suggesting an accumulation of mutations in HLVd during successive replication cycles. Sixty-nine percent of base changes were localised in the left half and 31% in the right half of the secondary structure proposed for this viroid. No mutations were found in the central part of the upper conserved region. A "hot spot" region was identified in a domain known as a "pathogenicity domain" in the group representative, potato spindle tuber viroid. Most mutations are predicted to destabilise HLVd secondary structure. All mutated cDNAs, however, were infectious and evolved into complex progeny populations containing molecular variants maintained at low levels.

Abstract: The major allergen from timothy grass pollen, Phlp5b (Phleum pratense), was shown to exhibit ribonuclease activity. It turned out that the C-terminal portion of this molecule was the biologically active domain. Here evidence is presented that the allergen is a single-stranded, sugar-nonspecific nuclease with topoisomerase activity. An isomerase-specific active site was identified, and a non-active mutant was constructed by site directed mutagenesis, and showed no nucleolytic activity. In contrast to the wild type (WT), the mutant did not dimerize. Although the binding capacity of IgE antibodies toward the mutant was reduced as compared to the WT, the allergenic activity was retained. We conclude that the allergen Phlp5b is a single-stranded nuclease with an unusual topoisomerase-like activity. This biological activity is not by itself connected to the allergenicity of the molecule. Whether the enzymatic activity is responsible for the induction of the allergic sensitization and inflammation remains an open question.

Abstract: A wide spectrum of hop 7SL RNA-encoding sequences was detected by temperature gradient-gel electrophoresis. Four hop 7SL RNA genes were cloned and characterized. A new subvariant of the upstream sequence element (USE) 5'TCCCACATGG 3' and two distinct variants of TATA signal were found at positions characteristic for RNA polymerase III-driven transcription in plants. In addition, a more distant conserved sequence element 5' CATGTATAAACTTTCTGC 3' was present in all cloned genes, about 160 bp upstream of the 7SL RNA coding sequence. Consensus secondary structures calculated for hop 7SL RNAs revealed characteristic features, although some structure differences from formerly published models were predicted. Specific in-vitro transcription of plant 7SL RNA genes was observed in a heterologous system (HeLa extract). This in-vitro transcription assay showed significant differences among individual clones in transcription rates, suggesting the requirement of complexity of 7SL RNA sequence for its efficient transcription in HeLa extract. Southern blot analysis of hop DNA revealed 12 7SL-specific signals corresponding to HindIII fragments ranging from 0.45 to 7.8 kb. Several 7SL RNA-encoding sequences and various intergenic spacers were amplified from the individual HindIII fragments of about 1.3 and 2.8 kb. These facts suggest that at least some of the hop 7SL RNA genes are organized in genomic clusters.

Abstract: 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.

Abstract: 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.

Abstract: The effect of oligodeoxyribonucleotides complementary to the region of the so-called pathogenicity domain (nucleotides 42-78) of the upper RNA strand of potato spindle tuber viroid (PSTVd) (severe) on viroid infection was investigated. The oligonucleotides were allowed to form hybrids with PSTVd in the infection mixtures before inoculation. Infectivity tests were performed using intact plants and plant protoplasts. It was found that the DNA oligonucleotides caused significant reduction of viroid infection at plant and single cell levels. The 200-fold molar excess of antisense DNA over viroid RNA is usually sufficient for the complete blocking of viroid infection. The inhibitory effect is strongly sequence specific. Inhibition by corresponding antisense RNA was much less efficient than that caused by antisense DNA.

Abstract: The effects of DNA oligonucleotides complementary to potato spindle tuber viroid (PSTVd) on viroid infection were investigated. The oligonucleotides were used to form hybrids with PSTVd in the infection mixture. A 75% reduction of viroid infection was found when an oligonucleotide complementary to nucleotides 79-110 of PSTVd was hybridized with PSTVd at a molar ratio of approximately 5000:1, respectively. A total inhibition of PSTVd infection was observed using an oligonucleotide complementary to nucleotides 42-78 at the same molar excess of DNA over PSTVd, although a 200-fold molar excess was found to be sufficient for the complete blocking of infection by PSTVd. This oligonucleotide caused a significant reduction (about 83%) of viroid infection even if the hybridization was done at a low (30 degrees C) temperature. Shorter oligonucleotides containing 22 and 15 bases corresponding to position 42-62 and 63-78, respectively, exhibited a significant effect only at a high (80 degrees C) initial temperature of molecular hybridization. Heteroduplexes formed between PSTVd RNA and antisense DNA were found to be less stable in a crude nuclease extract from tomato leaves as compared with PSTVd RNA alone. RNase H was demonstrated to cleave the molecular hybrids in vitro.