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ABSTRACT: Tomato yellow leaf curl virus (TYLCV) is a complex of geminivirus species prevalent in the tropics and sub-tropics, which causes severe diseases in economically important crops such as tomato. Conventional strategies for disease management have shown little success and new approaches based on genetic engineering need to be considered. We generated two single-chain variable fragment antibodies (scFv-ScRep1 and scFv-ScRep2) that bound strongly to continuous epitopes within the TYLCV replication-associated protein (Rep). The TYLCV-Ir C1 gene (encoding Rep) was expressed as glutathione-S-transferase (GST) and maltose-binding protein (MBP) fusions. Purified MBP-Rep was used to immunize mice allowing the construction of naïve and pre-immunized scFv phage display libraries. Immunoassays showed that scFv-ScRep1 recognized an N-terminal epitope of Rep, whereas scFv-ScRep2 recognized a more central epitope. This is the first successful production of scFv antibodies against a geminivirus Rep, the initial step in the production of transgenic plants with resistance to TYLCV.
Communications in agricultural and applied biological sciences 02/2008; 73(2):311-21.
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ABSTRACT: We investigated the genetic stability of recombinant potato virus X vectors presenting beet necrotic yellow vein virus (BNYVV) epitopes. Following N-terminal PVX coat protein (CP) fusion of the BNYVV epitopes, we inoculated Nicotiana benthamiana plants with recombinant (r)PVX and carried out five serial passages through systemically-infected plants. RT-PCR investigation of the BNYVV epitope sequences revealed the accumulation of several point mutations and deletions, predominantly affecting positively-charged residues. A comparison of the isoelectric point (pI) values and charges of the wild type and rCPs showed that the initial high rCP pI values had changed to values closer to that of the wild-type CP.
Archives of Virology 02/2007; 152(4):805-11. · 2.11 Impact Factor
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ABSTRACT: Expression vectors were constructed from 35S promoter-containing full-length cDNA clones of Zygocactus virus X (ZVX). The expression of foreign genes was driven by the ZVX coat protein (cp) subgenomic promoter. It was successful only when the variable region downstream of the conserved putative promoter region GSTTAAGTT(X(12-13))GAA was retained. Most of the ZVX cp gene, except for a short 3' part, was replaced by the corresponding sequence of the related Schlumbergera virus X (SVX) and its cp subgenomic promoter to enable encapsidation of the transcribed RNA by an SVX/ZVX hybrid cp. Vector-expressed cp of Beet necrotic yellow vein virus (BNYVV) assembled in Chenopodium quinoa, Tetragonia expansa and Beta vulgaris leaves into particles resembling true BNYVV particles. The virus produced from these constructs retained its ability to express BNYVV cp in local infections during successive passages on C. quinoa. This ability was lost, however, in the rarely occurring systemic infections.
Journal of General Virology 03/2006; 87(Pt 2):439-43. · 3.36 Impact Factor
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ABSTRACT: We describe the construction of recombinant Potato virus X (PVX) vectors expressing two different epitopes, ep4 and ep6, from Beet necrotic yellow vein virus (BNYVV). The seven-amino-acid epitopes were expressed as N-terminal coat protein fusions and were displayed on the surface of PVX particles. Particle assembly into full virions was successful even though no wild type coat protein subunits were present, and the epitopes could be detected in crude extracts and purified virus preparations with appropriate antibodies. A construct containing both epitope sequences in tandem was also prepared. The resulting PVX particles could be detected by antibodies against ep4 and ep6, either individually or simultaneously, showing that both epitopes were accessible. In addition mixed infections with PVX vectors containing the individual ep4 and ep6 sequences were carried out. This resulted in the formation of PVX particles displaying ep4 alone, ep6 alone, or both epitopes. These experiments demonstrate for the first time that PVX can be utilized to present multiple epitopes, either tandemly on every coat protein subunit or as heteromultimeric assemblies, both of which could be useful vaccination strategies. The production of epitope-presenting viruses in which every coat protein subunit contains a foreign epitope allows the high-level expression of defined numbers of foreign antigen sites, making such viruses useful standards for immune detection.
Archives of Virology 03/2005; 150(2):327-40. · 2.11 Impact Factor
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ABSTRACT: Based solely on the information that beet virus Q (BVQ) contains tubular particles, the entire nucleotide sequence of its tripartite genome was determined from unpurified virus in ca. 40 ml crude sap from locally infected Chenopodium quinoa. A starting sequence for RNA 1 was generated using primers corresponding to highly conserved helicase domains in the respective RNAs of furo-, pomo-, peclu-, hordei- and tobraviruses, and was extended by a walking random-primed cDNA approach. The similarity of the 3' ends of furoviral RNAs allowed starting sequences for BVQ RNAs 2 and 3 to be obtained once the 3' end of RNA 1 was known. BVQ RNA 1 encodes a protein with a methyltransferase-like, a variable and a helicase-like region, and for a readthrough protein which, in addition, contains an RNA-dependent RNA polymerase region. RNA 2 carries the coat protein gene, a coat protein read-through protein gene and two additional ORFs which may have arisen by deletions from an originally larger readthrough domain. RNA 3 carries a triple gene block resembling that of several other rod-shaped viruses. The 5' UTRs of the three RNAs have the potential to form a series of hairpins with C-A and C-C mismatches resembling those found in tymoviral RNAs. The 3' ends can be folded into tRNA-like structures which are preceded by a long hairpin-like structure and an upstream pseudoknot domain. BVQ belongs to the recently proposed genus Pomovirus; it shows evolutionary relationships to furoviruses in sensu stricto, peclu-, hordei-, tobra-, tymo-, tobamo-, carla- and potexviruses.
Journal of General Virology 09/1998; 79 ( Pt 8):2027-36. · 3.36 Impact Factor
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ABSTRACT: The complete sequence of the 3454 nt of RNA 2 of the Ahlum isolate of beet soil-borne furovirus (BSBV) has been determined starting with two short stretches of cloned cDNA. Unknown parts of the sequence were amplified by means of RT-PCR techniques using combinations of specific and random primers. BSBV RNA 2 is more similar in its genetic organization to potato mop top virus (PMTV) RNA 3 than to any other furoviral RNA, although it is more than 1100 nt longer. Its 3'-end, unlike that of PMTV RNA 3, has the potential to fold into a tRNA-like structure. It contains one large open reading frame for a readthrough protein with a molecular mass of 104 kDa (104K protein) which is interrupted internally by an amber stop codon terminating the coding region for a protein of 19 kDa (19K), most likely the viral coat protein (CP). The readthrough domain of the 104K protein is much larger than that of PMTV, but the N- and C-proximal portions of these domains are similar for the two viruses. No serological relationships were found between the particles of the two viruses, although more than 50% of the amino acid sequences of the putative CPs are identical.
Journal of General Virology 03/1997; 78 ( Pt 2):469-77. · 3.36 Impact Factor
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ABSTRACT: A fifth beet necrotic yellow vein virus (BNYVV) RNA species has been detected in Europe in sugarbeet infected with P-type BNYVV. Very little sequence variation was found between two European sources of this RNA 5*, but considerable differences were detected between these two European sources on the one hand and the four Japanese sources recently analysed by Kiguchi et al. on the other. The BNYVV RNA 5-encoded 26 K proteins share a stretch of six amino acids (FRGPGN) with the BNYVV RNA 3-encoded 25 K protein which may be of interest in view of the reported interactions between the two RNAs in pathogenicity.
Archives of Virology 02/1997; 142(7):1499-504. · 2.11 Impact Factor
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J. SCHIEMANN,
H. BACKHAUS, U. COMMANDEUR,
A. DIETZ-PFEILSTETTER,
B. ENGELEN,
F. GEBHARD,
H. HEUER,
R. KOENIG,
D. E. LESEMANN,
E. MAISS,
A. MATZK,
F. NIEPOLD,
K. SMALLA,
R. CASPER
JIRCAS International Symposium Series. 01/1997;
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ABSTRACT: The coding sequences for the variable regions of heavy and light chains of monoclonal antibodies (mAbs) to beet necrotic yellow vein virus (BNYVV) coat protein (cp) or the 25 kDa nonstructural protein (P25) were cloned into the pCOCK vector and expressed as single-chain antibody fragments (scFv) in Escherichia coli. For expression in higher plants the scFv were targeted either to the secretory pathway by including the sequences encoding the pectate lyase B (PelB) or the phytohemagglutinin (PHA) signal peptides in the vector constructs or they were targeted to the cytoplasm by omitting a signal peptide-encoding sequence from the constructs. The scFv were detected mainly in plants in which the PHA signal peptide had been used for targeting demonstrating for the first time the usefulness of this peptide for enabling scFv expression in plants. The scFv were not secreted into the culture fluids of suspension cultures, but were retained in the cells. The amount of expression of scFv in the best expressing plants was at least as high as in bacterial culture supernatants. In a dot blot immunoassay, 0.4 ng BNYVV cp or 0.8 ng P25 were detected by the respective scFv either from E. coli or from plants. The majority of the 21 plants expressing cp-specific scFv had near-normal growth whereas the three plants expressing P25-specific scFv grew poorly and did not form roots.
Plant Molecular Biology 01/1997; 32(5):979-86. · 4.15 Impact Factor
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ABSTRACT: The complete nucleotide sequence of RNA 3 of the Ahlum isolate of beet soil-borne virus (BSBV) was determined from cDNAs obtained with immunocaptured virus particles and denatured preparations of dsRNA. BSBV RNA 3 is unique among the plant virus RNAs studied so far in containing apparently only the coding sequences of a triple gene block (TGB). The derived amino acid sequences of the three putative TGB-encoded proteins showed the highest level of sequence similarities with those of the corresponding proteins of potato mop top furovirus (PMTV) followed by those of peanut clump furovirus and barley stripe mosaic hordeivirus. Progressively fewer similarities were found with the TGB-encoded proteins of beet necrotic yellow vein virus (uncertain classification), potato X potexvirus, and potato M carlavirus. The 3'-terminal 78 nucleotides of BSBV RNA 3 can be folded into a tRNA-like structure and a high degree of sequence similarity exists between the 122 3'-terminal nucleotides of BSBV RNA 3 and PMTV RNA 2. In other regions, however, no pronounced sequence similarities were found between the two RNAs, and PMTV RNA 2 contains an additional putative gene for a cysteine-rich protein downstream of the TGB. The two viruses are unrelated serologically. BSBV RNA 3 adds a further variant to the heterogeneity of the gene content of furovirus genomes and of triple gene block-carrying RNAs.
Virology 03/1996; 216(1):202-7. · 3.35 Impact Factor
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ABSTRACT: Beet necrotic yellow vein virus (BNYVV)-infected sugarbeets were obtained from many parts of Europe and also from some sites in Asia and the U.S.A. Reverse transcription (RT)-PCR products of more than 1 kbp were obtained for four different regions of the viral genome which may be particularly important with respect to the pathogenic properties of the virus, i.e. for the coat protein and the 42K protein-encoding regions on RNA 2 and for major parts of RNAs 3 and 4. Restriction fragment length polymorphism (RFLP) patterns obtained with these PCR products revealed the existence of two major strain groups of BNYVV, named type A and type B. The A type was detected in Greece, the former Yugoslavia, Slovakia, parts of Austria, Italy, Spain, parts of France, Belgium, The Netherlands and England as well as in Asia (Turkey, Kazachstan, China and Japan) and the U.S.A. The B type occurs in Germany and parts of France. Mixed infections were detected at the borderline regions between areas of the A and B types. Comparisons of published and newly determined nucleotide sequences of the respective parts of the BNYVV genome indicate that the percentage of nucleotide differences between the A and the B type is approximately 3% for the respective regions of RNAs 2 and 3 and approximately 1.5% for RNA 4. Nucleotide sequences appear to be remarkably stable within each of the two strain groups. The majority of the nucleotide differences between the A and B types occur in the third triplet position. The amino acid changes in the coat protein area are outside the four previously determined antigenic regions that are accessible on the surface of the virus particles and are involved in the formation of continuous and presumably also discontinuous epitopes. This may explain why serological differences between the two strain groups have not been found.
Journal of General Virology 09/1994; 75 ( Pt 8):1835-42. · 3.36 Impact Factor
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ABSTRACT: Five regions on the coat protein of BNYVV which had been shown previously to be involved in the formation of continuous epitopes were further analyzed by means of synthetic overlapping peptides. It was found that at least some of these regions may encompass several overlapping epitopes (or parts thereof). Four monoclonal antibodies (MAbs) which were known to be specific for the C-terminus of BNYVV coat protein (amino acids 182-188 = RTSPPGQ) were found to react with different sets of peptides which had either the sequence RTS, RTSP, RTSPP, or PPGQ in common. Two other MAbs which also had been shown previously to be specific for the C-terminus of BNYVV coat protein failed to react with overlapping decapeptides. Two epitopes which were previously located in the areas of amino acids 115-125 and 125-140 could now be located more precisely on the sequences SANVRRD (amino acids 115-121) and AESSG (amino acids 128-132), respectively. Replacement studies with alanine showed that not all amino acids within these sequences are equally important for antibody binding. On the other hand, amino acids outside these sequences may strongly influence the reactivity of epitopes. The accessibility of amino acid sequences on the particles of BNYVV is discussed.
Virology 02/1994; 198(1):282-7. · 3.35 Impact Factor
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ABSTRACT: The sequence of 1,787 nucleotides (nts) in the genomic RNA of pelargonium leaf curl virus (PLCV) was determined. It included the entire coat protein (cp) gene (nts 585 to 1,754), 558 nts of the 3' end of the putative RNA polymerase gene, 26 nts of an intercistronic region between the two genes and 33 nts downstream of the stop codon of the cp gene. The cp gene was cloned into the expression vector pET8c and expressed in E. coli. The deduced cp amino acid sequence of PLCV was compared with those of five other tombusviruses. The closer the degree of serological relatedness between two viruses, the more similarity was found in their cp amino acid sequences not only in the protruding domains, but also in their random and shell domains and in the arm regions. Nucleic acid hybridization tests, cp amino acid comparisons and serological tests all suggest the same order of sequence for the relationships in the tombusvirus group.
Archives of Virology 02/1993; 129(1-4):349-56. · 2.11 Impact Factor
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ABSTRACT: The location of five SDS-stable epitopes on the coat protein (CP) of beet necrotic yellow vein virus was determined by reacting Escherichia coli-expressed free CP, as well as fusion proteins (FP) containing fragments of the CP, with polyclonal and monoclonal antibodies on Western blots. Epitope 1, which has previously been found to be exposed on only one extremity of the virus particle, was located in the region between amino acids (aa) 1 and 7, i.e. on the N terminus of the CP. It was blocked when the N terminus of the CP was linked to a portion of the beta-galactosidase sequence in an FP. Epitope 3, which has previously been found to be exposed on the opposite extremity of the particle, was located in the region between aa 37 and 59. Epitope 4, which is exposed along the entire length of the particle, occurs on the C terminus of CP (aa 183 to 188). Two previously unknown epitopes were identified in the regions between aa 115 and 125 and 125 and 140, respectively. The former was located on the same extremity of the particle as epitope 3, the latter became accessible only after denaturation of the particle. Nothing is known about the probably non-adjacent aa sequences that participate in the formation of the two SDS-labile epitopes (epitopes 2 and 5) which are found on one extremity and along the entire length of the particle, respectively.
Journal of General Virology 04/1992; 73 ( Pt 3):695-700. · 3.36 Impact Factor
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ABSTRACT: Ethidium bromide staining of electrophoretically separated ssRNAs and dsRNAs as well as northern blot analyses with cDNA clones suggested that the genome of the Ahlum serotype of beet soil-borne virus (BSBV) consists of two major ssRNA species of approximately 3.6 and 3.2 kb, respectively, and possibly a minor ssRNA of approximately 6.0 kb. A few of our clones hybridized with both the 3.6-kb and the 3.2-kb RNAs, the majority of the clones, however, hybridized only with the 3.2-kb RNA. The 3.2-kb RNA is, therefore, apparently not a degradation product or a partially deleted form of the 3.6-kb RNA. None of our clones hybridized with the faint band(s) of the 6.0-kb ssRNA(s) which was produced by RNA extracts of some of our virus preparations. A fourth ssRNA of approximately 3.0 kb, which hybridized with the same clones as the 3.2-kb RNA, was found at relatively high concentrations in RNA extracts from purified virus, but not in total RNA extracts from leaves. Its origin is unknown. It is apparently not derived from the 3.2-kb RNA by the loss of a VPg or a poly(A) tail. Hybridization tests with 32P-labelled poly(dT) suggested that none of the RNAs of BSBV is polyadenylated. With respect to size and the lack of a poly(A) tail the RNAs of BSBV are more similar to those of definitive furoviruses than to those of beet necrotic yellow vein virus which is only a possible member of the furovirus group and has RNAs which readily hybridized with poly(dT).
Intervirology 02/1992; 33(2):97-102. · 2.34 Impact Factor
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ABSTRACT: cDNAs of beet necrotic yellow vein virus RNAs 3 and 4 could be rendered biologically active when they were placed under the control of the cauliflower mosaic virus 35S promoter and polyadenylation signal. Although the 35S in vivo transcripts should have contained up to forty 5' and several hundred 3' nonviral nucleotides, the progeny viral RNAs had the same sizes as in naturally infected sugarbeets. The progeny RNAs did not hybridize with the nonviral sequences indicating that they were apparently not replicated. Deletion and insertion mutants of RNA 3 cDNA clones were also biologically active in plants but a plasmid which contained the cDNA of RNA 3 in antisense orientation was not. The biological activity of plasmid DNAs compared with the corresponding synthetic transcripts is discussed.
Virology 12/1991; 185(1):493-5. · 3.35 Impact Factor
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ABSTRACT: Beet necrotic yellow vein virus (BNYVV) inocula with different RNA compositions were prepared from infectious transcripts of RNAs 3 and 4 and the Rg 1 isolate, which has a genome consisting only of RNAs 1 and 2. The recombinant viruses were inoculated on 6- to 8-day-old sugarbeet seedlings by 'vortexing'. Inocula containing RNAs 1 and 2 or 1, 2 and 4 produced some growth reduction, but the most dramatic effects, with yield reductions of about 95% in a highly susceptible variety, were seen when RNA 3 was also present in the inoculum. Under these conditions the side roots were brown and brittle and often deteriorated, but 'root beardedness' was not observed. This might be due to the fact that our experiments were done in the absence of Polymyxa betae. Alternatively, the heavy inoculation at a very young age may either have weakened the plants to such an extent that extensive root proliferation was impaired or it may have led to rapid deterioration of the proliferating rootlets, which would therefore be lost prior to or during removal of the tap roots from the soil. In the presence of RNA 3 the virus concentrations in tap roots were markedly increased suggesting that this RNA facilitates the multiplication and/or spread of the virus in root tissues.
Journal of General Virology 10/1991; 72 ( Pt 9):2243-6. · 3.36 Impact Factor
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ABSTRACT: Expression of the beet necrotic yellow vein virus (BNYVV) coat protein (CP) gene in transgenic sugar beet hairy roots was accomplished as a step towards CP-mediated virus resistance. A cDNA for the CP gene and its 5 terminal untranslated leader sequence was prepared from BNYVV RNA, using two oligodeoxynucleotides to prime the synthesis of both strands. Second-strand synthesis and amplification of the cDNA were done by Taq DNA polymerase chain reactions. Run-off transcripts of the cloned cDNA sequence were obtained and translated in vitro, yielding immunoreactive CP. A binary vector construction containing the CP gene under the control of the 35S promoter of cauliflower mosaic virus was prepared and used for Agrobacterium rhizogenes-mediated transformation of sugar beet tissue. Stable integration and expression of the CP gene in sugar beet hairy roots was demonstrated by Southern, Northern, and Western blot analysis, respectively.
Theoretical and Applied Genetics 05/1991; 81(6):777-782. · 3.30 Impact Factor
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ABSTRACT: By means of monoclonal antibodies (MAbs), five (groups of) epitopes were identified on particles of beet necrotic yellow vein virus (BNYVV). Epitopes 1 and 2, which were located on the opposite extremities of virus particles, are discontinuous (SDS-labile) epitopes which were destroyed when the particles were treated with trypsin. Epitope 3 is a continuous (SDS-stable) epitope located at the same extremity as epitope 2. It was not destroyed when the particles were treated with trypsin and was present on an Escherichia coli-expressed fusion protein containing amino acids (aa) 1 to 103 of the BNYVV coat protein. The continuous epitope 4, which was located along the entire length of the particles, was found to be present on a fusion protein containing aa 104 to 188 of the BNYVV coat protein but not on trypsin-treated virus particles. In Western blots, these treated particles yielded two slightly smaller coat proteins which failed to react with MAbs specific for epitope 4 but did react with polyclonal antisera and MAbs specific for epitope 3. BNYVV coat protein has a trypsin cleavage site on the carboxyl side of arginine in position 182, so it is therefore suggested that epitope 4 is located on the exposed C terminus, which is composed of aa 183 to 188. Epitope 5 was also located along the entire length of the particles but in a more uneven distribution than epitope 4. This may be because it is a discontinuous epitope that is very sensitive to subtle changes in protein conformation.
Journal of General Virology 11/1990; 71 ( Pt 10):2229-32. · 3.36 Impact Factor
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Schriftenreihe der Deutschen Phytomedizinischen Gesellschaft 1990 (1990).
