-
[show abstract]
[hide abstract]
ABSTRACT: Viroids, small RNA pathogens capable of infecting flowering plants, coexist in the field with parasitic plants that infest many crops. The ability of viroids to be exchanged between host and parasitic plants and spread in the latter has not yet been investigated. We studied the interaction between the Potato spindle tuber viroid (PSTVd) and Branched bromrape (Orobanche ramosa) using the tomato, Solanum lycopersicon, as a common host. We report the long distance trafficking of PSTVd RNA via the phloem from tomato to O. ramosa, but not vice versa. Furthermore, we identify O. ramosa as a novel host with the ability to facilitate the replication and processing of PSTVd. Finally, molecular variants of PSTVd with single nucleotide substitutions that replicate with different efficiencies in tomato were isolated from O. ramosa.
Virology 04/2010; 399(2):187-93. · 3.35 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Viroids are small, circular, single-stranded RNA molecules that, while not coding for any protein, cause several plant diseases. Viroids rely for their infectious cycle on host proteins, most of which are likely to be involved in endogenous RNA-mediated phenomena. Therefore, characterization of host factors interacting with the viroid may contribute to the elucidation of RNA-related pathways of the hosts. Potato spindle tuber viroid (PSTVd) infects several members of the Solanaceae family. In an RNA ligand screening we have previously isolated the tomato protein Virp1 by its ability to specifically interact with PSTVd positive-strand RNA. Virp1 is a bromodomain-containing protein with an atypical RNA binding domain and a nuclear localization signal. Here we investigate the role of Virp1 in the viroid infection cycle by the use of transgenic lines of Nicotiana tabacum and Nicotiana benthamiana that either overexpress the tomato Virp1 RNA or suppress the orthologous Nicotiana genes through RNA silencing. Plants of the Virp1-suppressed lines were not infected by PSTVd or Citrus exocortis viroid through mechanical inoculation, indicating a major role of Virp1 in viroid infection. On the other hand, overexpression of tomato Virp1 in N. tabacum and N. benthamiana plants did not affect PSTVd KF 440-2 infectivity or symptomatology in these species. Transfection experiments with isolated protoplasts revealed that Virp1-suppressed cells were unable to sustain viroid replication, suggesting that resistance to viroid infection in Virp1-suppressed plants is likely the result of cell-autonomous events.
Journal of Virology 01/2008; 81(23):12872-80. · 5.40 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Double-stranded (ds) RNA causes the specific degradation of homologous RNAs in a process called "RNA interference (RNAi)"[1-4]; this process is called "posttranscriptional gene silencing (PTGS)" in plants [5-7]. Both classes of gene silencing have been reviewed extensively [8-13]. The duplex RNA becomes processed by Dicer [14] or another RNase III-like enzyme to short dsRNA fragments of about 21-23 nucleotides (nt) [15], which are incorporated in the RNA-induced silencing complex (RISC)[16] that directs target-specific RNA degradation [17, 18]. Here, we show that different synthetic dsRNA cassettes, consisting of two 5'-phosphorylated RNA strands of 22 nt each, can initiate RNAi in Drosophila embryos. The cassettes were active at similar quantities required to initiate RNAi by conventional dsRNA. Their sequence specificity was confirmed using synthetic dsRNA cassettes for two different genes, Notch and hedgehog; each time, only the relevant embryonic phenotype was observed. Introduction of point mutations had only a moderate effect on the silencing potential, indicating that the silencing machinery does not require perfect sequence identity. 5'-phosphorylated synthetic RNA was more active than its hydroxylated form. Substitution of either RNA strand by DNA strongly reduced activity. Synthetic cassettes of siRNA will provide a new tool to induce mutant phenotypes of genes with unknown function.
Current Biology 12/2001; 11(22):1776-80. · 9.65 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The low molecular weight fraction of tomato plants inoculated with potato spindle tuber viroid (PSTVd) contains a population of short PSTVd-specific RNAs of either polarity. The main constituents were RNAs of 22 and 23 nt representing different domains of the viroid genome. The occurrence of such distinct RNA species indicated that the nuclear replicating PSTVd RNA induces post-transcriptional gene silencing. The short RNAs were slightly more abundant at 30 days post-inoculation than at later stages and were present in plants infected with a mild, severe or lethal isolate of PSTVD: There was no apparent correlation between the quantity of small PSTVd-specific RNAs and the degree of virulence of the viroid isolate.
Nucleic Acids Research 07/2001; 29(11):2395-400. · 8.03 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A combination of native electrophoresis and immunodetection (Western blot) was used for the characterization of nucleoprotein particles of the potyvirus Plum pox virus (PPV). Virus particles were electrophoresed directly from plant extracts in agarose or mixed acrylamide-agarose gels under native conditions, blotted on nitrocellulose membranes, and characterized with the aid of a coat protein-specific antibody. Using this combined methodology, called NEWeB (native electrophoresis and Western blotting), we could show that a population of particles that differ in their electrophoretic mobility can be detected in extracts of Nicotiana benthamiana, that two different strains of PPV can be distinguished in double infections of the same plant and that virus particles from leaves contain detectable levels of helper component proteinase molecules. The potential of the NEWeB method for the study of structure and function of virus particles and similar nucleoprotein complexes in single and mixed infections is discussed.
Journal of General Virology 10/2000; 81(Pt 9):2295-8. · 3.36 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Two related antisense RNAs directed against plum pox virus (PPV) were expressed episomally in Nicotiana clevelandii by infection with recombinant potato virus X (PVX). One recombinant PVX expressed an ordinary PPV antisense RNA of about 400 nucleotides, while the other expressed a related antisense RNA that carried the catalytic domain of a hammerhead ribozyme. Inoculation with the latter recombinant PVX resulted in the accumulation of ribozyme RNA that was catalytically active when tested in vitro with a PPV substrate RNA. Plants that had been inoculated with recombinant PVX viruses, expressing either PPV-directed antisense or ribozyme sequences or GUS RNA as a control, were challenged with PPV by a sequential second inoculation. In plants that expressed PPV antisense sequences, the appearance of PPV disease symptoms was delayed for 3-5 days. Quantification of PPV 1 week after inoculation showed that the protective effect by the episomally expressed catalytic antisense RNA was stronger than that of the ordinary antisense RNA. However, eventually all plants tested accumulated comparable titers of PPV.
Virus Research 07/2000; 68(1):15-23. · 2.94 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The newt hammerhead ribozyme is transcribed from Satellite 2 DNA, which consists of tandemly repeated units of 330 bp. However, different transcripts are synthesized in different tissues. In all somatic tissues and in testes, dimeric and multimeric RNA transcripts are generated which, to some extent, self-cleave into monomers at the hammerhead domain. In ovaries, primarily a distinct monomeric unit is formed by transcription, which retains an intact hammerhead self-cleavage site. The ovarian monomeric RNA associates to form a 12S complex with proteins that are poorly characterised so far. In this work we identified NORA, a protein that binds the ovarian form of the newt ribozyme. We show that the newt ribozyme binds to the Escherichia coli -expressed protein, as well as to a protein of identical size that is found exclusively in newt ovaries. Also NORA mRNA was detectable only in ovary, but in neither somatic tissues nor testes. The tissue-specific expression of NORA is analogous to the ovary-specific transcription of the newt ribozyme. Although NORA was identified by its ability to bind to the newt ribozyme in the presence of a vast excess of carrier RNA, it was able to interact with certain other RNA probes. This novel RNA-binding protein does not contain any motif characteristic for RNA-binding proteins or any other known protein domain, but it shares a striking similarity with a rat resiniferatoxin-binding protein.
Nucleic Acids Research 04/2000; 28(5):1045-52. · 8.03 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A screening assay for the detection of RNA-binding proteins was developed. It allows the rapid isolation of cDNA clones coding for proteins with sequence-specific binding affinity to a target RNA. For developing the screening protocol, constituents of the human U1 snRNP were utilized as model system. The RNA partner consisted of the U1-RNA stem-loop II and the corresponding protein consisted of the 102 amino acid N-terminal recognition motif of the U1A protein, which was fused to beta-galactosidase and expressed by the recombinant lambda phage LU1A. Following binding of the fusion protein to nitrocellulose membranes, hybridization with a 32P-labeled U1-RNA ligand was carried out to detect specific RNA-protein interaction. Parameters influencing the specificity and the detection limit of binding were systematically investigated with the aid of the model system. Processing the nitrocellulose membranes in the presence of transition metals greatly increased the signal:background ratio. A simple screening protocol involving a single-buffer system was developed. Specific RNA-protein interaction could be detected in the presence of a large excess of recombinant phages from a cDNA library. Only moderate binding affinities (Kd = 10(-8) M) were required. The suitability of the RNA-ligand screening protocol was demonstrated by the identification of new viroid-RNA binding proteins from tomato.
Nucleic Acids Research 11/1997; 25(19):3816-22. · 8.03 Impact Factor
-
Methods in molecular biology (Clifton, N.J.) 02/1997; 74:121-9.
-
[show abstract]
[hide abstract]
ABSTRACT: cDNA clones of a tomato protein, called Lycopersicum esculentum putative Mg(2+)-dependent ATPase (LeMA-1), were isolated from a cDNA library. Sequence comparison of the tomato protein with other genes in the database revealed that the protein is highly homologous to a human protein called TBP-1 and a yeast Tat-binding-analogue protein YTA1A. All three proteins belong to the recently discovered protein family of putative Mg(2+)-dependent ATPases and form within this family a subgroup of proteins involved in controlled protein degradation and possibly also in transcriptional regulation. Expression of the mRNA of LeMA-1 could be monitored in several plant tissues. LeMA-1 is the first member of this subgroup of proteins isolated from plants.
Plant Molecular Biology 04/1995; 27(6):1109-18. · 4.15 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Viroids are replicated via a rolling circle-like mechanism in which (+) strand oligomeric intermediates have to be cleaved enzymatically to unit-length molecules followed by ligation to mature circles. A transcript of potato spindle tuber viroid, which is still infectious, consists of a monomeric molecule with only 22 additional nucleotides, thus doubling part of the central conserved region of viroids. It was shown that this transcript can be cleaved and ligated in vitro to circles by RNase T1. To elucidate the site and mechanism of processing, 16 different site-specific mutants of this longer-than-unit-length transcript were constructed and analyzed by in vitro processing with RNase T1, infectivity studies, temperature-gradient gel electrophoresis, and structure calculations. The wild-type sequence and several mutated transcripts are able to adopt a particular secondary structure which is the prerequisite for enzymatic cleavage and ligation by RNase T1. This "processing structure" exposes both potential cleavage sites in the nearest spatial neighborhood, thus favoring the subsequent ligation to circles. Those mutated sequences for which the formation of the processing structure is impossible or thermodynamically highly unfavored are not processed. The results demonstrate that the particular structural features of viroids enable them to be cleaved and ligated by one and the same enzyme, RNase T1. The in vitro mechanism may serve as a mechanistic model for cellular processing of viroids.
Journal of Molecular Biology 11/1992; 227(3):719-37. · 4.00 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Different cDNA constructs were used for the in vitro synthesis of RNA transcripts that contain a complete monomeric unit of the potato spindle tuber viroid (PSTVd) plus an additional repeat of a part of the circular RNA genome. These permutated linear longer-than-unit-length PSTVd RNAs were incubated with the G-specific endoribonuclease RNase T1 which generated monomeric circular PSTVd RNA molecules that were infectious when mechanically inoculated to tomato plants. Besides the correct monomeric PSTVd RNA, smaller and larger circular RNAs were also formed during the reaction. The comparison of different transcripts revealed that correct in vitro processing of PSTVd RNA can proceed at alternative sites indicating that circularization is driven by RNA structure and not governed by a particular sequence. Based on these data, we propose a novel model for the processing of multimeric replicative viroid RNA intermediates through RNA cleavage and ligation catalyzed by a host endoribonuclease.
Virology 11/1992; 190(2):746-53. · 3.35 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A simple strategy is described for the generation of catalytic hammerhead-type ribozymes (Rz) that can be used as highly specific endoribonucleases to cleave a particular target RNA. The technique requires that a cloned cDNA fragment is available which encodes at least a part of the target RNA. About 25 different restriction recognition sequences can be utilized to incorporate specifically designed DNA cassettes into the cDNA. Besides some nucleotides which are specific for a certain restriction site, the DNA cassettes contain a sequence corresponding to the catalytic domain of the hammerhead Rz and, optionally, selectable marker genes, that are removable. The resulting recombinant DNA constructs permit the in vitro and in vivo synthesis of novel 'catalytic antisense RNAs' or 'antisense Rz (Az)', which combine two features: (i) they bind like antisense RNA to their specific substrate RNA, and (ii) they cleave their target as hammerhead Rz do. The utility of the strategy to generate Rz was demonstrated experimentally by incorporating a synthetic SalI-specific DNA ribozyme (Rz) cassette into a unique SalI site of a cloned cDNA fragment of plum pox virus (PPV), which is a single-stranded positive sense plant RNA virus, belonging to the group of potyviruses. The resulting Az constructs delivered Az that were directed against the PPV (+) or (-) RNA, respectively, which cleaved their corresponding target RNAs in the expected manner. Besides the synthetic Rz cassette, a comparable SalI-specific Rz cassette, that had been prepared from a specifically designed plasmid and that contained the tet gene inserted into the sequence of the catalytic domain of the Rz, was also incorporated into the SalI site of the PPV cDNA.(ABSTRACT TRUNCATED AT 250 WORDS)
Gene 01/1992; 108(2):175-83. · 2.34 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A 406 nucleotide long potato spindle tuber viroid (PSTVd)-specific linear RNA transcript was synthesized in vitro and subjected to limited digestion with ribonuclease (RNase) T1. Under certain conditions this guanosine-specific endoribonuclease proved to be capable of processing the longer-than-unit-length, precursor-like viroid RNA transcript by cleaving out a linear 358 nucleotide long product and ligating that to a circular RNA molecule. The new finding that RNase T1 acts as an RNA processing enzyme and, in particular, as an RNA 'circulase' can be explained by the unique structural preconditions inherent in the viroid-specific substrate and by the well characterized two-step cleavage mechanism of the enzyme. These in vitro potentials of RNase T1 suggest that also in vivo procaryotic and eucaryotic RNases with a similar reaction mechanism might not only be involved in RNA degradation and trimming, but also in processing, ligation and recombination of RNA.
Nucleic Acids Research 05/1991; 19(7):1605-12. · 8.03 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: In vitro-synthesized oligomeric linear RNAs representing the replicative intermediates of potato spindle tuber viroid (PSTV) were subjected to a large variety of in vitro conditions where self-splicing of group I introns occurs, and where self-cleavage and self-circularization of the satellite RNA from tobacco ringspot virus particles and self-cleavage of oligomeric forms of avocado sunblotch viroid RNA has been observed. No evidence whatsoever could be obtained that the PSTV RNA oligomers monomerize and subsequently circularize autocatalytically in vitro under these conditions. These results are at variance with the low level of self-cleavage of dimeric PSTV RNA reported by H. D. Robertson et al. Virology 142, 441-447, 1985). A comparable and seemingly autocatalytic in vitro cleavage we have initially observed under certain conditions could be related to an unknown heat-stable RNase contaminating a batch of autoclaved ultrapure ammonium sulfate used in the corresponding incubating mixtures as additive.
Virology 03/1987; 157(1):227-31. · 3.35 Impact Factor
