Grapevine vitivirus A eradication in Vitis vinifera explants by antiviral drugs and thermotherapy

Grapevine shoot cultures infected by Grapevine vitivirus A (GVA) were grown on Quorin-Lepoivre basic medium and submitted to in vitro chemotherapy and thermotherapy sanitation techniques. Ribavirin (Rb) at 20gml(-1), dihydroxypropyladenine (DHPA) at 60gml(-1) and their combination (RbDH) were added to the proliferating medium for three subsequent subcultures of 30 days each. Phytotoxicity was observed on drug-treated plantlets, which displayed a high percentage of mortality for each drug at doses higher than those aforementioned. Sequential ELISA were performed at the end of each subculture and ELISA-negative explants were submitted to RT-PCR. ELISA showed no antiviral activity following DHPA administration. Rb and RbDH treatment produced ELISA-negative explants which were assayed by RT-PCR and nested PCR. Biomolecular results showed no virus eradication in Rb treated explants but RbDH administration generated a percentage (40.0%) of GVA-free plantlets that permitted restoration of a new healthy generation of explants. Sixty percent (60%) of GVA eradication as confirmed by RT-PCR was obtained by in vitro thermotherapy at 36 degrees C for 57 days.

The symptomless leaf infection with grapevine leafroll associated virus 3 in grown in vitro plants as a simple model system for investigation of viral effects on photosynthesis

The photosynthetic changes evaluated by oxygen evolution, chlorophyll fluorescence, photoacoustics, and delayed fluorescence (DF) were studied in leaves of grown in vitro for 8 weeks grapevine plants (Vitis vinifera) infected by grapevine leafroll-associated virus 3 (GLRaV-3). The infected leaves were characterized during the viral infection without visible disease symptoms. The symptomless infection led to a decrease in plant biomass. The non-photochemical fluorescence quenching, qN, declined, whereas the photochemical quenching, qP, and the Chl a/b ratio were not significantly affected. Photoacoustic and oxygen evolution measurements showed that the energy storage and oxygen evolution rate decreased in the infected leaves. Enhanced alternative electron sinks during the symptomless viral infection were also estimated. The changes in fluorescence and DF temperature curves demonstrated an enhanced stability of the thylakoid membranes in the infected leaves. This effect was clearly expressed at high actinic light intensities. The viral infected in vitro grown grapevine plants were used in the present study as a simplified model system that allow to avoid the involvement of different environmental factors that could interfere with the GLRaV infection and the virus-grapevine interactions. Thus, the 'pure' impact of the viral infection on photosynthesis could be investigated.

Diversity of Grapevine fanleaf virus isolates from Iran

Enzyme-linked immunosorbent assay (ELISA) testing of 126 grapevine samples, from vineyards in the northwest region of Iran, detected Grapevine fanleaf virus (GFLV) in 33 samples. Total RNA from eight of the infected samples were subjected to reverse transcription polymerase chain reaction (RT-PCR) analysis using primers which corresponded to the virus coat protein and 3' non coding region of RNA 2. An expected 1620 bp DNA fragment was amplified from all the tested samples. PCR products from isolates B5, S1 and SH3 were cloned and the nucleotide sequences of three clones from each isolate were determined. The sequences showed that a DNA fragment of 1623 bp from isolate S1 and 1629bp from isolates B5 and SH3 were amplified. The fragments covered 1481 nucleotides of the 3' proximal region of the CP gene plus 142 or 148 nucleotides of the 3' non coding region. Alignment of the sequences revealed over 99% identities among clones from each isolate and 83-93% among clones from different isolates. Identities of 83-94% were found between the isolates from Iran and previously reported GFLV strains/isolates. Phylogenetic analysis based on CP sequences showed that isolates S1 and SH3 formed a distinct cluster but isolate B5 clustered with previously reported GFLV strains. This is the first report on sequence analysis of nearly full-length CP cDNA clones of GFLV isolates from Iran.

A sensitive one-step real-time RT-PCR method for detecting Grapevine leafroll-associated virus 2 variants in grapevine

Grapevine leafroll syndrome is caused by a complex of up to nine different Grapevine leafroll-associated viruses (GLRaV-1-9) with GLRaV-2 being reported as one of the most variable species of this group. Many methods, including indexing, serological and molecular procedures, have been developed for the detection of GLRaV-2. However, due to the low concentration of the virus in plants and the high variability of GLRaV-2, a method with improved sensitivity and with the capacity to detect of all known variants is required. Such improvement is essential for grapevine rootstocks, as these are suspected to harbour frequent GLRaV-2 infections difficult to detect, thus contributing to the spread of the leafroll disease. The development of new universal primers is described using a target sequence located in the 3' end of the virus genome. These primers were combined with a one-step SYBR Green real-time RT-PCR assay to achieve quantitative detection. All 43 GLRaV-2 isolates tested in this study were identified readily and reproducibly, regardless of their geographical origin or variety of grapevine. Using the procedure developed in this study, the sensitivity was increased 125 times compared to a conventional single-tube RT-PCR. This real-time method opens new perspectives for the sanitary selection of grapevine and in leafroll 2 disease monitoring.

Real-time RT-PCR (TaqMan) assays for the detection of Grapevine Leafroll associated viruses 1-5 and 9

Real-time RT-PCR (TaqMan) assays were developed for the specific detection of Grapevine Leafroll associated viruses 1-5 and 9 (GLRaV-1-5 and -9). The assays were evaluated against a wide range of geographically distributed isolates. Geographical locations included South Africa, Europe, Australia, Asia, Latin America and the United States. Sequences were piled up from the most conserved regions of these geographically diverse isolates and TaqMan primers and probes were designed, targeting the regions with 100% sequence identity. Improving the RNA extraction technique and testing the quality of the RNA using the 18S ribosomal RNA TaqMan assay as an RNA specific internal control to validate the quality of the extracted RNA proved to generate better diagnostic assays. The real-time TaqMan RT-PCR assays were compared to the conventional RT-PCR assays for the detection of viruses using purified total RNA as well as crude extract. The data showed that when using total RNA extracted either by the Qiagen RNeasy method or by an ABI automated system more isolates were detected in comparison to crude extract. The optimum volume of crude extract prepared in GES for use in real-time TaqMan RT-PCR cocktail was determined to be 1 microl per reaction. In addition this report showed that TaqMan RT-PCR was more sensitive than conventional one-step RT-PCR for testing different isolates of these viruses either using RNA or crude tissue extract.

Senescence-associated genes induced during compatible viral interactions with grapevine and Arabidopsis

The senescence process is the last stage in leaf development and is characterized by dramatic changes in cellular metabolism and the degeneration of cellular structures. Several reports of senescence-associated genes (SAGs) have appeared, and an overlap in some of the genes induced during senescence and pathogen infections has been observed. For example, the enhanced expression of SAGs in response to diseases caused by fungi, bacteria, and viruses that trigger the hypersensitive response (HR) or during infections induced by virulent fungi and bacteria that elicit necrotic symptoms has been observed. The present work broadens the search for SAGs induced during compatible viral interactions with both the model plant Arabidopsis thaliana and a commercially important grapevine cultivar. The transcript profiles of Arabidopsis ecotype Uk-4 infected with tobacco mosaic virus strain Cg (TMV-Cg) and Vitis vinifera cv. Carménère infected with grapevine leafroll-associated virus strain 3 (GLRaV-3) were analysed using microarray slides of the reference species Arabidopsis. A large number of SAGs exhibited altered expression during these two compatible interactions. Among the SAGs were genes that encode proteins such as proteases, lipases, proteins involved in the mobilization of nutrients and minerals, transporters, transcription factors, proteins related to translation and antioxidant enzymes, among others. Thus, part of the plant's response to virus infection appears to be the activation of the senescence programme. Finally, it was demonstrated that several virus-induced genes are also expressed at elevated levels during natural senescence in healthy plants.

Development of degenerate and species-specific primers for the differential and simultaneous RT-PCR detection of grapevine-infecting nepoviruses of subgroups A, B and C

Based on the nucleotide sequence homology of RNA-1 and RNA-2 of nepoviruses isolated from grapevines, three sets of degenerate primers, one for each of the three subgroups of the genus (A, B and C), were designed and proved effective for RT-PCR detection of subgroups in infected grapevines and herbaceous hosts. Primers designed specifically for detecting subgroup A species amplified a fragment of 255 bp from samples infected by Grapevine fanleaf virus (GFLV), Arabis mosaic virus (ArMV), Tobacco ringspot virus (TRSV) and Grapevine deformation virus (GDefV), but not from samples infected by other nepovirus species. Similarly, primers for detection of subgroup B nepoviruses amplified a 390 bp product from samples infected by Grapevine chrome mosaic virus (GCMV), Tomato black ring virus (TBRV), Grapevine Anatolian ringspot virus (GARSV) and Artichoke Italian latent virus (AILV). The third set of primers amplified a 640 bp fragment, only from samples infected by subgroup C nepoviruses, i.e Tomato ringspot virus (ToRSV) Grapevine Bulgarian latent virus (GBLV), and Grapevine Tunisian ringspot virus (GTRSV). These primers were able to detect simultaneously all viral species belonging to the same subgroup and to discriminate species of different subgroups. Multiplex-PCR detection of subgroup A and B nepoviruses was obtained using a specific primer (sense for subgroup A and antisense for subgroup B) for each of the species of the same subgroup in combination with the degenerate subgroup-specific primers. In this way it was possible to detect four different viral species in single samples containing mixtures of viruses of the same subgroup. In particular, for viruses of subgroup A (TRSV, GFLV, ArMV and GDefV) amplicons of 190, 259, 301 and 371 bp were obtained, whereas amplicons of 190, 278, 425 and 485 bp, respectively, were obtained from samples infected with viruses of subgroup B (GCMV, AILV, GARSV and TBRV).

Molecular analysis of double-stranded RNAs reveals complex infection of grapevines with multiple viruses

The table grape variety "Waltham Cross" was infected with Leafroll and Shiraz Disease. To reveal specific viruses that are associated with the diseased plants, we used an RT-PCR-based strategy to determine partial genome sequences of these viruses. Upon cloning and sequencing of the RT-PCR products, we detected seven groups of viral variants that are related to four species of the Closteroviridae: Grapevine leafroll-associated virus 1, 2, 3, and 5, in addition to Rupestris stem pitting-associated virus. The population composition of GLRaV-2 and GLRaV-3-like viruses is complex and consists of two or three distinct groups of viral variants. Based on the consensus sequence of several GLRaV-2 strains, we designed a pair of broad-spectrum primers (GLR2-4 and GLR2-5) and used them to detect a range of GLRaV-2 variants from "Waltham Cross". Moreover, we identified a novel group of viral variants from the diseased grapevines, which possess a stretch of 19 nucleotides inserted in the 3' non-coding region as compared to strain "PN" and "93/955" for which the complete genomes have been sequenced. In contrast, the population composition of GLRaV-1 and GLRaV-5-like virus seems to be more uniform and each consists of a single viral variant. Furthermore, the central 5.7kb genomic region encompassing ORF1b-ORF4 of the GLRaV-1 isolate detected in "Waltham Cross" was sequenced. The new isolate is designated GLRaV-1 "WC", which differs from GLRaV-1 "Type" by 16% in nucleotide sequence. The taxonomic standing of the GLRaV-5-like and GLRaV-3-like viruses detected in "Waltham Cross" is discussed.

Antiviral activity of tiazofurin and mycophenolic acid against Grapevine leafroll-associated virus 3 in Vitis vinifera explants

The ability to control plant viral diseases with chemicals has great potential value for agriculture, but few chemicals are available to date due to the difficulty in obtaining effective drugs. IMP dehydrogenase is an enzyme which catalyzes the conversion of inosine 5'-monophosphate to xanthosine 5'-monophosphate in the de novo purine nucleotide synthetic pathway, and is considered a sensitive target for antiviral drugs. Two IMPDH inhibitors, tiazofurin (TR) and mycophenolic acid (MPA), were tested for their inhibitory effect on Grapevine leafroll-associated virus 3 (GLRaV-3) in in vitro grapevine explants. TR administration produced plantlets characterized by negative ELISA readings. No PCR products were obtained from these samples. This was confirmed by the absence of viral particles. MPA was essentially ineffective against GLRaV-3 replication in Sangiovese explants. This is the first report of GLRaV-3 eradication in grapevine explants following TR administration.

Gene expression associated with compatible viral diseases in grapevine cultivars

Viral diseases affect grapevine cultures without inducing any resistance response. Thus, these plants develop systemic diseases and are chronically infected. Molecular events associated with viral compatible infections responsible for disease establishment and symptoms development are poorly understood. In this study, we surveyed viral infection in grapevines at a transcriptional level. Gene expression in the Vitis vinifera red wine cultivars Carménère and Cabernet-Sauvignon naturally infected with GLRaV-3 were evaluated using a genome-wide expression profiling with the Vitis vinifera GeneChip from Affymetrix. We describe numerous genes that are induced or repressed in viral infected grapevines leaves. Changes in gene expression involved a wide spectrum of biological functions, including processes of translation and protein targeting, metabolism, transport, and cell defense. Considering cellular localization, the membrane and endomembrane systems appeared with the highest number of induced genes, while chloroplastic genes were mostly repressed. As most induced genes associated with the membranous system are involved in transport, the possible effect of virus in this process is discussed. Responses of both cultivars are analyzed and the results are compared with published data from other species. This is the first study of global gene profiling in grapevine in response to viral infections using DNA microarray.

Genetic diversity analyses of grapevine Rupestris stem pitting-associated virus reveal distinct population structures in scion versus rootstock varieties

Grapevine Rupestris stem pitting-associated virus (GRSPaV) is a member of the genus Foveavirus within the family Flexiviridae. GRSPaV is closely associated with the disease Rupestris stem pitting and is frequently detected in grapevines worldwide. Previous research in several laboratories suggests that GRSPaV consists of a family of sequence variants. However, the genetic composition of GRSPaV variants in viral isolates from scion and rootstock varieties has not been studied extensively. In this report, the genetic diversity and population structure of GRSPaV isolates from scion and rootstock varieties were analysed using two pairs of primers targeting two different genomic regions encoding the helicase domain of the replicase and the capsid protein. In total, 190 cDNA clones derived from 24 isolates were sequenced and analysed. At least four major groups of GRSPaV variants were found to exist in grapevines. Interestingly, the majority of the scion varieties (9/10) that were analysed, regardless of their genetic background and geographical origin, harboured complex viral populations composed of two to four distinct viral variants. In contrast, the viral populations in isolates from rootstock varieties were homogeneous and comprised a single variant. The practice of grafting between scion and rootstock varieties commonly used in modern viticulture, coupled with the frequent regional and international exchange of propagating materials, may have played a major role in the ubiquitous distribution and mixed infections of distinct GRSPaV variants among scion varieties. The possible origin and evolution of GRSPaV are also discussed.

Molecular characterization of grapevine plants transformed with GFLV resistance genes: II

A collection of 127 putatively transgenic individuals of Vitis vinifera cv. Russalka was characterized by PCR and Southern hybridization. Six different constructs containing the neomycin phosphotransferase (nptII) marker gene and sequences of the Grapevine Fanleaf Virus Coat Protein (GFLV CP) gene including non-translatable and truncated forms were transferred via Agrobacterium-mediated transformation. Detection of transgenic sequences by PCR was positive in all lines. Southern blot analysis revealed that the number of inserted T-DNA copies ranged from 1 to 6. More than 46% of the tested transgenic lines contain one copy of the inserted T-DNA, qualifying them as interesting candidates for further breeding programs. Southern data of one line indicate the presence of an incomplete copy of the T-DNA, thus confirming previous PCR results. Since many putative transgenic lines shared identical hybridization patterns, they were clustered into 39 lines and considered as having originated from independent transformation events. The detection of the tetracycline (TET) resistance genes in 15% of the lines shows that an integration of plasmid backbone sequences beyond the T-DNA borders occurred. Enzyme-linked immunosorbent assay (ELISA) performed on leaf tissue did not show any accumulation of the GFLV CP in the 39 transgenic lines analyzed. Reverse transcription polymerase chain reaction (RT-PCR) and Northern blot were carried out; RT-PCR analyses showed that the GFLV CP mRNA was expressed at variable levels.

Molecular analysis of a California strain of Rupestris stem pitting-associated virus isolated from declining Syrah grapevines

The sequence of the genome of a Rupestris stem pitting-associated virus (RSPaV) isolated from a declining Syrah grapevine in California, designated the Syrah strain (RSPaV-SY) was determined. The genome of this strain had an overall nucleotide identity of 77% in comparison with RSPaV sequences in GenBank; the coat protein was the most conserved gene among RSPaV sequences and the replicase was the least conserved gene. Phylogenetic analysis of partial coat protein and replicase gene sequences showed RSPaV-SY clustered independently from the majority of RSPaV isolates.

Efficient methods for sample processing and cDNA synthesis by RT-PCR for the detection of grapevine viruses and viroids

Template preparation is important in reverse-transcription polymerase chain reaction (RT-PCR)-based detection methods. A TissueLyser with tungsten carbide beads was used for simultaneous processing of up to 48 samples under the same conditions in the development of a simple and rapid procedure to prepare a plant extract for RT reaction. A sandpaper method was also developed by which wood tissue of dormant cuttings could be macerated easily to process with minimal time and effort. It was also demonstrated that the combination use of random primers and oligo dT primer in an RT reaction was efficient for simultaneous cDNA synthesis of viral and viroid RNAs in plant extracts. These template preparation methods were used for the amplification of Grapevine leafroll-associated virus-1,-2, and -3; Grapevine virus A and B; Grapevine rupestris stem pitting-associated virus; Grapevine fleck virus; and Grapevine fanleaf virus. All these viruses tested in this study were reliably detected up to a 10(3)-fold or higher dilution of the original extract. Besides, Hop stunt viroid and Grapevine yellow speckle viroid 1 were well amplified in the same manner as the template preparation and following PCR for virus detection. These methods would contribute to cost-effective testing of a large number of samples through the year and help to detect viral pathogens in grapevine.

Partial molecular characterization of a mild isolate of Grapevine fanleaf virus from South Moravia, Czech Republic

An atypical mild isolate HV5 of Grapevine fanleaf virus (GFLV) was found in a South Moravian viticulture region in Czech Republic. Partial sequence of its RNA2 was determined and compared with available sequences of typical GFLV isolates. Two genomic regions, namely a 814 nt-long one spanning the movement protein (MP) gene and a 5'-part of the coat protein (CP) gene. and a 1426 nt-long one covering a part of the CP gene and the adjacent 3'-non-coding region (3'-NCR) were analyzed. Although no HV5-specific molecular features could be found in the two regions, marked differences were observed in the 3'-NCR. There was a 54 nt-long portion in which the sequence identity of some compared isolates was only 54.7%. Moreover, an unique one-nucleotide deletion occurred in the HV5 3'-NCR. These changes were also reflected in the predicted RNA secondary structure of this region. Particular biological behavior of GFLV HV5 isolate, namely a symptomless infection, could be related to the observed molecular differences.

Analysis of the Molecular Variability of Grapevine Leafroll-associated Virus 1 Reveals the Presence of Two Distinct Virus Groups and their Mixed Occurrence in Grapevines

Genetic diversity of eight Grapevine leafroll-associated virus 1 (GLRaV-1) isolates recovered from grapevines in three distinct locations in the Czech Republic and Slovakia was characterised by restriction fragment length polymorphism (RFLP) analysis and by sequencing of cloned 540 bp fragment of the heat shock protein 70 (HSP70) gene. Comparison and phylogenetic analysis of obtained and previously available sequence data revealed the existence of two groups of GLRaV-l isolates, tentatively named A and E (genetic divergence between A and E group reached 13.9%). An RT-PCR detection method followed by simple restriction analysis was developed, showing the potential to differentiate GLRaV-1 isolates of these groups. Interestingly, a mixed infection of two GLRaV-1 groups in the same plant was frequently detected together with a high intra-group variability in some isolates.

Sequence analysis of grapevine isolates of Raspberry ringspot nepovirus

The nucleotide sequences of RNAs 1 and 2 of a German isolate of Raspberry ringspot virus (RpRSV) infecting grapevine (RpRSV-Grapevine), as well as partial sequences of another grapevine isolate from Switzerland (RAC815) were determined. The sequences of the protease-polymerase region encoded by RNA1, and the movement protein and coat protein genes encoded by RNA 2, of these isolates were compared with those of other isolates available in databases. The coat proteins of the grapevine isolates formed a sister group to all those from other RpRSV isolates, but whether this resulted from divergence or recombination was uncertain.

Improved detection of grapevine leafroll-associated virus 1 by magnetic capture hybridisation RT-PCR on a conserved region of viral RNA

We report the development of a sensitive diagnostic method for the detection of the grapevine leafroll-associated virus 1 (GLRaV-1). We have considered the current shortcoming in detection of GLRaV-1 to be linked to two factors, sequence variation in the viral RNA and low template concentration. Sequence information available allowed the selection of optimal target sequences for detection by RT-PCR, having high copy number and low levels of sequence variation. This was combined with the use of magnetic capture hybridisation to allow the removal of RT-PCR inhibitors and the addition of 100-fold excess template RNA to a single RT-PCR. The reproducibility of the technique was confirmed using field samples.

A RT/PCR-partial restriction enzymatic mapping (PREM) method for the molecular characterisation of the large satellite RNAs of Arabis mosaic virus isolates

The satellite RNA of the grapevine isolate NW of Arabis mosaic virus (ArMV) was cloned and sequenced, and showed 75% identity at the nucleotide level to the satellite RNA of the lilac isolate of ArMV. In order to survey ArMV isolates from various geographical origins and natural hosts for the presence of large satellite RNAs and analyse their degree of variability, a RT/PCR-partial restriction enzymatic mapping (PREM) method was developed. The method is based on the incorporation of 5-methyl-dCTP in the RT/PCR reaction, and the subsequent digestion of the RT/PCR products by methyl-sensitive restriction enzymes. Satellites RNAs were detected by RT/PCR in eight isolates out of 47, six of them originating from grapevine, one from hop and one from lilac. The partial restriction digestion patterns allowed to distinguish six different types of satellites. Cloning and sequencing of the different satellites confirmed these results, the PREM proving able to discriminate sequences with 96% identity. The sizes of the different satellites varied between 1092 and 1139 nucleotides, their encoded proteins between 338 and 360 amino acids. Conserved domains were found in the amino and carboxy-termini between the sequences of the proteins encoded by the satellites of the different isolates of ArMV.

Characterization of a naturally occurring recombinant isolate of Grapevine fanleaf virus

The naturally occurring Grapevine fanleaf virus (GFLV) recombinant isolate A17b was recovered from its grapevine host by sap inoculation and serial passages onto Gomphrena globosa, a pseudo local lesion herbaceous host, and Chenopodium quinoa, a systemic herbaceous host, to characterize some of its biological properties. Sequence analysis of the CP gene, in which a recombinational event was previously detected, demonstrated the genetic stability of recombinant isolate A17b over a 5-year period in its natural host as well as in C. quinoa. Also, recombinant isolate A17b was graft transmissible, as shown by an in vitro heterologous approach, and transmitted by the nematode Xiphinema index as readily as nonrecombinant GFLV isolates. Furthermore, despite a lower pathogenicity on Chenopodium amaranticolor, recombinant isolate A17b had a similar host range and induced similar symptoms in type and severity to nonrecombinant GFLV isolates. Interestingly, the use of infectious chimeric RNA2 transcripts in combination to RNA1 transcripts of GFLV strain F13 suggested no implication of the recombination event in the CP gene of isolate A17b in the reduced pathogenicity on C. amaranticolor. Altogether, recombinant isolate A17b had similar biological properties to GFLV nonrecombinant isolates.

Complete genome sequences of two new variants of Grapevine rupestris stem pitting-associated virus and comparative analyses

Grapevine rupestris stem pitting-associated virus (GRSPaV), a member of the genus Foveavirus within the family Flexiviridae, is the putative causal agent of the disease Rupestris stem pitting (RSP) of grapevines. GRSPaV comprises a family of variants whose pathological characteristics have not been determined. Recently, many of the indicator "St George" plants (Vitis rupestris) used throughout the world to index RSP tested positive for GRSPaV. This finding questions the validity of past biological indexing results. In this work, a representative genomic region of GRSPaV was first sequenced from ten "St George" plants from two sources and it was demonstrated that nine of them carried a new variant, GRSPaV-SG1. The genomes of GRSPaV-SG1 and GRSPaV-BS from "Bertille Seyve 5563" plants were sequenced, revealing a genome structure identical to that of GRSPaV-1. It was demonstrated experimentally that infection of "St George" plants with GRSPaV-SG1 is asymptomatic and thus it is proposed that GRSPaV-SG1 infection should not have interfered with the outcome of past indicator indexing. This represents the first attempt to link a GRSPaV variant with pathological properties.

Occurrence of a DNA sequence of a non-retro RNA virus in a host plant genome and its expression: evidence for recombination between viral and host RNAs

This study demonstrates that sequences homologous to those of the non-retro RNA virus (Potato virus Y; PVY) are integrated into the genome of several grapevine varieties. The integrated PVY-coat-protein-like cistron is expressed in the grapevine as indicated by Southern and Western blot analyses as well as by RNase protection assay. In addition, genome-walking studies showed that one PVY-like sequence is flanked by 41-bp direct repeats and is embedded in authentic grapevine sequences, flanked by inverted repeats. Rearranged PVY-like sequences were also found in tobacco. It is suggested that nonhomologous recombination of a potyviral RNA with RNA of a retrotransposable element took place at some point in evolution. The initial integration locus was probably within a grapevine gene homologous to a pentatricopeptide repeat-carrying protein, and was later transposed to other locations. The current location is reminiscent of a MITE-type retroelement, indicating transposition history. Because grapevine cultivars are propagated asexually, without going through a meiotic phase, the chance for DNA recombination is minimal and the foreign integrated sequence may be better conserved, enabling it to be expressed correctly in the recipient genome.

Extensive variation of sequence within isolates of Grapevine virus B+

Four regions covering 1247 nucleotides of the RNA genome of 20 isolates of a Vitivirus, Grapevine virus B (GVB), from three countries were analyzed. All the regions in these isolates varied in sequence as compared to the published GVB sequence. Of these, the intergenic region varied the most, with 73.2% nucleotide sequence homology, while ORF4 encoding coat protein varied the least when compared both at nucleotide sequence (80.3% homology) and at amino acid sequence levels (90.6% homology). The variations were scattered along each region length and were higher at the nucleotide level than at the amino acid level, but none resulted in a frame shift or stop codon. These results indicate that GVB may exist as a heterogeneous population, possibly resulting from mixing different strains by grafting practices or by RNA-RNA recombination in the grapevine, the only known natural host of this virus. Although it has been reported that GVB is associated with corky bark disease, no corky bark symptoms were observed in any of the GVB positive grapevine sample collected from Australia.

Field safety assessment of recombination in transgenic grapevines expressing the coat protein gene of Grapevine fanleaf virus

One of the major environmental safety issues over transgenic crops containing virus-derived genes relates to the outcome of recombination events between viral transgene transcripts and RNAs from indigenous virus populations. We addressed this issue by assessing the emergence of viable Grapevine fanleaf virus (GFLV) recombinants in transgenic grapevines expressing the GFLV coat protein (CP) gene. Test plants consisted of nontransgenic scions grafted onto transgenic and nontransgenic rootstocks that were exposed over 3 years to nematode-mediated GFLV infection in two distinct vineyard sites. The CP gene of challenging GFLV isolates was amplified from scions by IC-RT-PCR, and characterized by RFLP and nucleotide sequencing using strain F13 as reference since it provided the CP transgene. Analysis of EcoRI and StyI RFLP banding patterns from 347 challenging GFLV isolates and sequence data from 85 variants revealed no characteristics similar to strain F13 and no difference in the molecular variability among isolates from 190 transgenic and 157 nontransgenic plants, or from plants within (253 individuals) or outside (94 individuals) of the two sites. Interestingly, five GFLV recombinants were identified in three nontransgenic plants located outside of the two field settings. This survey indicates that transgenic grapevines did not assist the emergence of viable GFLV recombinants to detectable levels nor did they affect the molecular diversity of indigenous GFLV populations during the trial period. This is the first report on safety assessment of recombination with a transgenic crop expressing a CP gene under field conditions of heavy disease pressure but low, if any, selection pressure against recombinant viruses.

[Testing of some grapevine cultivars for the presence of crown gall disease agent and fanleaf and leafroll viruses]

Some rootstocks and scion cultivars grown in Ukraine have been tested for the presence of tumorigenic agrobacteria, grapevine fanleaf and grapevine leafroll viruses of the 1st and 3rd serotypes by polymerase chain reaction and enzyme-linked immunosorbent assay. The conditions of polymerase chain reaction were modified in the course of investigations. It was shown that the certified material as well as regular planting material may be infected by the agent of crown gall disease. Certified grapevine material was free from grapevine fanleaf and grapevine leafroll viruses; at the same time the regular planting material was infected by both viruses. Our data indicate the necessity of including Agrobacterium vitis in the list of pathogens that should be tested in the process of certified planting material production.