A strategy for rapid cDNA cloning from double-stranded RNA templates isolated from plants infected with RNA viruses by using Taq DNA polymerase

Detection of Grapevine leafroll-associated virus 7 using real time qRT-PCR and conventional RT-PCR

Nine isolates of Grapevine leafroll-associated virus 7 (GLRaV-7) from diverse geographical regions were sequenced to design more sensitive molecular diagnostic tools. The coat protein (CP) and heat shock protein 70 homologue (HSP70h) genes of these nine isolates were sequenced. Sequences were then used to design more sensitive molecular diagnostic tools. Sequence identity among these isolates ranged between 90 to 100% at the nucleotide and amino acid levels. One RT-PCR and two qRT-PCR assays were used to survey 86 different grapevines from the University of California, Davis Grapevine Virus Collection, the Foundation Plant Services collection and the USDA National Clonal Germplasm Repository, Davis, CA with primers designed in conserved regions of the CP and HSP70h genes. Results revealed that qRT-PCR assays designed in the HSP70h gene was more sensitive (29.07% positives) than that designed in the CP gene (22.09% positives) and both qRT-PCR assays proved to be more sensitive than RT-PCR.

Biological, molecular, and serological studies of a novel strain of grapevine leafroll-associated virus 2

In California, a novel closterovirus was detected in "Redglobe" grapevine, associated with graft incompatibility and given a trivial name "Grapevine rootstock stem lesion associated virus (GRSLaV)." The biological properties of the putative virus were ascertained when asymptomatic yet infected Redglobe scion buds were graft-inoculated onto test plants of Cabernet Sauvignon propagated on 18 different rootstocks. It proved lethal on test plants growing on rootstocks 1616C, 5BB, 5C, 3309C, and 1103 P, whereas latent infections occurred on the remaining scion-rootstock combinations. In contrast, GLRaV-2 type (type strain) produced only typical leafroll symptoms. In a different experiment, GLRaV-2 type was successfully sap-transmitted to N. benthamiana, whereas sap transmission of GRSLaV was unsuccessful. Double-stranded RNA was extracted from infected Redglobe grapevines, cloned, sequenced, and determined a genome length of 16,527 nucleotides. Computer-assisted analysis of open-reading frames (ORFs) revealed a genome organization typical of monopartite viruses in the genus Closterovirus with nine ORFs (range 71-79% identity) with GLRaV-2 type, the closest similar virus species within the family Closteroviridae. Also the 3'-UTR of GRSLaV consisted of 223 nucleotides with an extended oligo(A) tract similar to that of GLRaV-2 type, Beet yellow stunt virus, and Beet yellows virus. Recombinant GRSLaV coat protein was expressed in E. coli, purified, and immunized a rabbit to produce polyclonal antiserum. Serological data matched the molecular data, whereby exposed plant tissue extracts of grapevines infected by both viruses (GRSLaV and GLRaV-2) reacted positively with homologous and heterologous viral antisera but not with healthy grapevine extracts in ELISA and Western blot tests. Based on the comparative sequence data and shared antigens, GRSLaV is now considered a strain of GLRaV-2 and redesignated as Grapevine leafroll associated virus-2 Redglobe (GLRaV-2RG). Primers specific for GLRaV-2RG were developed, which did not amplify GLRaV-2 type strain. When both sets of specific primers were used in assays of different grapevine collections, the incidence of the respective viruses varied considerably, e.g., 1.7 and 13.5%, respectively, for GLRaV-2RG and GLRaV-2 type.

Optimized approaches for the sequence determination of double-stranded RNA templates

Double-stranded RNA (dsRNA) is in many cases the only available template for molecular and diagnostic studies of RNA viruses. A novel mycovirus with a five dsRNAs segmented-genome served as a model system for the amplification and cloning of dsRNA segments using several PCR-based methods. Sequences obtained by the classical method; random PCR (rPCR) with a single primer assembled into 4 contigs out of the 5 segments. Moreover, using a modified single primer amplification technique (SPAT) resulted in the amplification of all or part of the dsRNA segments in one RT-PCR. Introducing such modifications into the FLAC method (full-length amplification of cDNA) resulted in amplicons comparable to those of the SPAT method. Full-length PCR products representing the five genomic segments were cloned and sequenced. The optimized conditions for each method are presented and discussed. In another approach, purified dsRNA segments were cloned directly into the blunt end pJET1.2 or the pGEM(®)-T cloning vectors with low efficiency though. This led to several sequences up to 2.2kb in length, which could constitute a starting material for other methods like primer walking or as probes for diagnosis.

'Kwanzan Stunting' syndrome: detection and molecular characterization of an Italian isolate of Little cherry virus 1

Evident stunting was observed for the first time on Prunus serrulata 'Kwanzan' indicator trees in Southern Italy during the indexing of two sour cherry accessions from cultivars 'Marasca di Verona' and 'Spanska'. Bud break and shooting were delayed and the developing leaves remained small. During the third year many Kwanzan plants died, regardless of the indexed cultivar. Electrophoretic analysis showed the presence of dsRNA pattern in extracts of stunted Kwanzan with a similar size to that of viruses of the family Closteroviridae. An identical pattern of more abundant dsRNA bands was obtained from GF305 seedlings grafted with the same sour cherry accessions. Observations by electron microscopy revealed the presence of long flexuous virus particles in both indicators (Kwanzan and GF305), characteristic of closteroviruses. Subsequent cloning work, starting from the dsRNA extracts of cultivar Marasca di Verona grafted on GF305 indicator, yielded 7 different clones, all showing high identity to the Little cherry virus 1 genome. Full sequencing of this virus isolate (ITMAR) was then done resulting in a complete genome composed of 16,936nt. Primers designed on the obtained sequences for RT-PCR detection confirmed the presence of Little cherry virus 1 in Kwanzan and GF305 trees, inoculated with both sour cherry cultivars. Phylogenetic analysis of the minor coat protein grouped virus isolates into two clusters: one including Italian isolates of sweet cherry, Japanese plum, peach and almond, together with German sweet cherry UW1 isolate, and a second one containing the Italian isolates of sour cherry (ITMAR and ITSPA), that were found associated with strong symptoms of 'Kwanzan Stunting'.

Molecular characterization of a novel adult diarrhoea rotavirus strain J19 isolated in China and its significance for the evolution and origin of group B rotaviruses

The complete genome of a novel adult diarrhoea rotavirus strain J19 was cloned and sequenced using an improved single-primer sequence-independent method. The complete genome is 17,961 bp and is AU-rich (66.49 %). Northern blot analysis and genomic sequence analysis indicated that segments 1-11 encode 11 viral proteins, respectively. Protein alignments with the corresponding proteins of J19 with B219, and groups A, B and C rotaviruses, produced higher per cent sequence identities to B219. Among groups A, B and C rotaviruses, 10 proteins from group B rotaviruses exhibited slightly higher amino acid sequence identity to the J19 proteins, but proteins of J19 showed low amino acid sequence identity with groups A and C rotaviruses. Construction of unrooted phylogenetic trees using a set of known proteins and representatives of three known rotavirus groups revealed that six structural proteins were positioned close to B219 and the basal nodes of groups A, B and C lineages, although with a preferred association with group B lineages. Phylogenetic analysis of the five non-structural proteins showed a similar trend. The results of the serological analysis, protein sequence analysis and phylogenetic analysis suggested that J19 would be a novel rotavirus strain with great significance to the evolution and origin of group B rotaviruses.

Molecular characterization and detection of plum bark necrosis stem pitting-associated virus

The complete RNA genome of plum bark necrosis stem pitting-associated virus (PBNSPaV) was cloned and sequenced and was determined to be 14, 214 nts long. The genome structure revealed seven major open reading frames (ORFs), and nontranslated regions at the 5' and 3' ends. PBNSPaV represents the simplest genome organization in the genus Ampelovirus, family Closteroviridae. The ORFs 1a and 1b encode, respectively, a large polyprotein with a molecular mass (Mr) of 259.6 kDa containing conserved domains characteristic of a papain-like protease, methyltransferase and helicase (ORF1a) and a 64.1-kDa protein of eight conserved motifs characteristic of viral RNA-dependent RNA polymerase (RdRp) (ORF1b). ORF1b is presumably expressed via a +1 ribosomal frameshift mechanism. ORF2 encodes a small 6.3-kDa hydrophobic protein of unknown function. ORF3 encodes a 57.4-kDa protein, a homologue of the HSP70 family of heat shock proteins. ORF4 encodes a 61.6-kDa protein with unknown function. ORF5 encodes a 35.9-kDa capsid protein (CP). Lastly, ORF6 encodes a 25.2-kDa minor capsid protein (CPm). Phylogenetic analyses performed on sequences of the HSP70h RdRp and CP support classification of the virus in the genus Ampelovirus. A real-time TaqMan RT-PCR assay and a one-step RT-PCR were developed for PBNSPaV detection and compared using three different sample preparation methods.

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.

The use of reverse transcriptase for efficient first- and second-strand cDNA synthesis from single- and double-stranded RNA templates

Molecular characterization of eight distinct, difficult-to-clone RNA plant viruses was accomplished after the development of a reverse transcriptase-based first- and second-strand cDNA synthesis method. Double-stranded (ds) RNA templates isolated from strawberry and blackberry and several herbaceous hosts (mint, pea and tobacco) were cloned using this method. Templates, combined with random primers, were denatured with methyl mercuric hydroxide. Reverse transcriptase was added followed by the addition of RNase H. The resulting dsDNA was then digested with restriction endonucleases to produce shorter fragments that could be cloned efficiently into a T-tailed vector after adding an A-overhang using Taq polymerase. This procedure resulted in a high number of cloned fragments and allowed insert sizes up to three kilobase-pairs. Unlike traditional cDNA construction methods, there is no need for additional enzymes/steps for second-strand synthesis, PCR amplification or prior sequence information. Synthesis and cloning of cDNA derived from dsRNA templates is much more efficient than with previously described methods. This procedure also worked well for cloning gel-purified dsRNA and with single-stranded RNA templates.

A reovirus of the fungus Cryphonectria parasitica that is infectious as particles and related to the coltivirus genus of animal pathogens

RNA viruses of filamentous fungi fall into two broad categories, those that contain double-stranded RNA (dsRNA) genomes in rigid particles and those that are more closely related to positive-sense, single-stranded RNA viruses with dsRNA replicative intermediates found within lipid vesicles. Effective infectivity systems have been described for the latter, using RNA transcripts, but not for the former. We report the characterization of a reovirus from Cryphonectria parasitica, the filamentous fungus that causes chestnut blight disease. The virus substantially reduces the virulence of the fungus and results in dramatically altered colony morphology, as well as changes in other associated fungal traits, relative to the virus-free isogenic strain. Virus particles from infected mycelium contained 11 segments of dsRNA and showed characteristics typical of the family Reoviridae. Sequences of the largest three segments revealed that the virus is closely related to the Coltivirus genus of animal pathogens, which includes the human pathogen Colorado tick fever virus. The introduction of purified virus particles into protoplasts from virus-free isolates of the fungus resulted in a newly infected mycelium with the same morphology and virus composition as the original virus-infected isolate. This represents the completion of Koch's postulates for a true dsRNA virus from a filamentous fungus and the description of a definitive fungal member of the family Reoviridae.

Bermuda Grass as a Potential Reservoir Host for Grapevine fanleaf virus

Grapevine fanleaf virus (GFLV) was detected in samples of Bermuda grass (BG) from Iran by reverse transcription-polymerase chain reaction (RT-PCR) using two different pairs of GFLV-specific primers, and also by enzyme-linked immunosorbent assay (ELISA) using antiserum specific for a North American isolate of the virus. RT-PCR detected GFLV in both fresh and dried BG tissues and in virus preparations purified from these plants. Cloning and sequencing of the RT-PCR products confirmed that the amplified sequences were sections of the GFLV coat protein gene. Similar results were obtained when random and oligo(dT) primers were used on viral RNA templates recovered from BG to synthesize cDNA for cloning and sequencing. The virus induced few or no symptoms in BG, but could nonetheless be transmitted from BG to Chenopodium quinoa by mechanical inoculation. Some isolates induced systemic chlorotic spots and leaf deformation; others remained symptomless in this plant. Both symptomatic and symptomless C. quinoa plants were found to be infected with GFLV, giving positive ELISA and RT-PCR tests. A North American isolate of GFLV was found to be mechanically transmissible to BG as indicated by positive RT-PCR results from root samples of inoculated plants. GFLV-infected BG was widely distributed in the Fars province of Iran.

Cloning of complete genome sets of six dsRNA viruses using an improved cloning method for large dsRNA genes

Cloning full-length large (>3 kb) dsRNA genome segments from small amounts of dsRNA has thus far remained problematic. Here, a single-primer amplification sequence-independent dsRNA cloning procedure was perfected for large genes and tailored for routine use to clone complete genome sets or individual genes. Nine complete viral genome sets were amplified by PCR, namely those of two human rotaviruses, two African horsesickness viruses (AHSV), two equine encephalosis viruses (EEV), one bluetongue virus (BTV), one reovirus and bacteriophage Phi12. Of these amplified genomes, six complete genome sets were cloned for viruses with genes ranging in size from 0.8 to 6.8 kb. Rotavirus dsRNA was extracted directly from stool samples. Co-expressed EEV VP3 and VP7 assembled into core-like particles that have typical orbivirus capsomeres. This work presents the first EEV sequence data and establishes that EEV genes have the same conserved termini (5' GUU and UAC 3') and coding assignment as AHSV and BTV. To clone complete genome sets, one-tube reactions were developed for oligo-ligation, cDNA synthesis and PCR amplification. The method is simple and efficient compared to other methods. Complete genomes can be cloned from as little as 1 ng dsRNA and a considerably reduced number of PCR cycles (22-30 cycles compared to 30-35 of other methods). This progress with cloning large dsRNA genes is important for recombinant vaccine development and determination of the role of terminal sequences for replication and gene expression.

Sequence of the coat protein gene of Bermuda grass etched-line virus, and of the adjacent 'marafibox' motif

The complete nucleotide sequence of the coat protein (CP) gene of Bermuda grass etched-line virus (BELV), including 376 nucleotides (nt) of the region to its 5' side, was determined and compared with sequences of the other viruses associated with the genus Marafivirus, substantiating the assignment of BELV to this group. The CP gene coding sequence was 585 nt in length. Inferred amino acid sequences showed homologies among marafiviral CP gene products ranging from 41% to 59%. A non-coding sequence motif characteristic of the marafiviruses lies in the region adjacent to the CP gene to the 5' side. In contrast to various homology levels in the coding regions of the CP genes, the interspecific sequence homology in this 18 nt motif was almost perfect.