The ORF3-encoded proteins of vitiviruses GVA and GVB induce tubule-like and punctate structures during virus infection and localize to the plasmodesmata

The genomic RNA of vitiviruses contains 5 open reading frames (ORF). ORF3 encodes a protein to which the function of a movement protein (MP) was assigned, based on sequence homology with other viral proteins. The aim of the research described in this paper was to gain further insight in distribution profile of the ORF3 product encoded by the vitiviruses Grapevine virus A (GVA) and Grapevine virus B (GVB). Expression of the GVA MP-GFP fusion protein via the virus genome in Nicotiana benthamiana leaves resulted in the formation of irregular spots and fibrous network structures on the outermost periphery of epidermal cells. Expression of GVA MP-GFP and GVB MP-GFP was involved in the formation of the tubule-like and punctate structures on the periphery of N. benthamiana and Vitis vinifera protoplasts. Co-expression of the GVA MP-GFP and GVA MP-RFP in protoplasts resulted in co-localization of these proteins into the same punctate structures, indicating that the MP is not accumulated randomly onto the cell surface, but targeted to particular sites at the cell periphery, where punctate and tubule-like structures are likely formed. With the use of cytoskeleton and secretory pathway inhibitors, we showed that the cytoskeletal elements are not likely to be involved in targeting of the MP-GFP to the punctate cellular structures. In addition to MP, a functional coat protein was found to be essential for virus spread within inoculated leaves.     

A mutation in the envelope protein fusion loop attenuates mouse neuroinvasiveness of the NY99 strain of West Nile virus

Substitutions were engineered individually and in combinations at the fusion loop, receptor-binding domain and a stem-helix structure of the envelope protein of a West Nile virus strain, NY99, and their effects on mouse virulence and presentation of epitopes recognized by monoclonal antibodies (MAbs) were assessed. A single substitution within the fusion loop (L107F) attenuated mouse neuroinvasiveness of NY99. No substitutions attenuated NY99 neurovirulence. The L107F mutation also abolished binding of a non-neutralizing MAb, 3D9, whose epitope had not been previously identified. MAb 3D9 was subsequently shown to be broadly cross-reactive with other flaviviruses, consistent with binding near the highly conserved fusion loop.     

A new grapevine virus discovered by deep sequencing of virus- and viroid-derived small RNAs in Cv Pinot gris

Field symptoms of chlorotic mottling and leaf deformations were observed on the cv Pinot gris (PG) in the Trentino region (Italy). Extensive assays excluded the presence of widely distributed nepo-, ampelo- and vitiviruses. An analysis of small RNA populations from two PG grapevines showing or not symptoms was carried out by Illumina high throughput sequencing. The study disclosed the virus and viroids contents of the two vines that was composed by Grapevine rupestris stem pitting-associated virus (GRSPaV), two viroids Hop stunt viroid (HSVd) and Grapevine yellow speckle viroid 1 (GYSVd1), the marafiviruses Grapevine rupestris vein feathering virus (GRVFV) and Grapevine Syrah virus 1 (GSyV-1), and a hitherto unrecorded virus. This virus had a genome organization identical to that of Grapevine berry inner necrosis virus (GINV), a trichovirus reported only from Japan, with which it grouped in phylogenetic trees constructed with sequences of the RdRp domain and the coat protein gene. However, molecular differences with GINV are wide enough to warrant classification of the virus in question as a new species, for which the provisional name of Grapevine Pinot gris virus (GPGV) is proposed. A limited field survey for the presence of GPGV in diseased and symptomless plants from three different cultivars did not allow to clearly associating the virus to the observed symptoms.     

Complete genome sequence of a natural mutant of grapevine virus A (GVA)

A new genetic variant of grapevine virus A (GVA) of phylogenetic group I was identified during comparative analysis of the viruses infecting two sibling grapevines cv. Shiraz. The grapevines were propagated from a single mother plant. One of them become infected with Shiraz disease (SD), which is highly destructive on noble grapevine cultivars Shiraz and Merlot in South Africa. The new variant was not associated with SD, as it was present in both SD-affected and SD-free plants. However, unlike in an earlier study of grapevines affected by this disease, this GVA variant of group I strongly dominated over a coinfecting variant of group II associated with SD and a variant of group III. The variant, named I327-5, was mechanically transmitted from SD-affected grapevine to Nicotiana benthamiana, and its genome was fully sequenced. The sequence data revealed that the most distinctive genomic feature of variant I327-5 is the deletion of three nucleotides in the region where the ORF2 and ORF3 genes overlap. These genes of GVA encode a 19.8-kDa protein, the function of which remains unknown, and a 31-kDa protein that is indispensable for the movement of the virus in plants. An alignment of the amino acid sequences of these proteins encoded by variant I327-5 with the corresponding proteins encoded by other members of group I suggested that, as the result of mutations, a neutral threonine or alanine and a negatively charged glutamic acid, respectively, were removed from the proteins of GVA variant I327-5.     

Complete nucleotide sequence and genome organisation of grapevine Bulgarian latent virus

The complete genome sequence of grapevine Bulgarian latent virus (GBLV) has been determined. RNA-1 (7,452 nt in length) contains a single ORF of 6,285 nt, encoding a polyprotein with conserved motifs characteristic of the viral protease cofactor (Prot-cofact), the NTP-binding protein (NTP), the cysteine-like protease (Cyst-Prot) and the RNA-dependent RNA polymerase (RdRp) of members of the order Picornavirales and show high aa sequence identity with blackcurrant reversion virus (BRV, 64%). RNA-2 (5,821 nt) contains a single ORF of 4,500 nt, encoding a polyprotein in which the conserved motifs of the movement protein (MP) and coat protein (CP) have been identified. The GBLV CP aa sequence shows highest homology with that of blueberry leaf mottle virus (BLMoV, 68%). Both RNAs have a poly(A) tail and a NCR at the 3' and 5' termini, respectively. The results of this study confirm the classification of GBLV as a member of a distinct species in subgroup C of the genus Nepovirus.     

Complete genome sequence analysis of a predominant infectious bronchitis virus (IBV) strain in China

Infectious bronchitis (IB) is one of the major diseases in poultry flocks all over the world caused by infectious bronchitis virus (IBV). In the study, the complete genome sequence of strain A2 was sequenced and analyzed, which was a predominant IBV strain in China. The results indicated that there were mutations, insertions, and deletions distributed in the whole genome. The A2 virus had the highest identity to S14 and BJ in terms of full genome, whereas had a further distance to Massachusetts strains. Phylogenetic analysis showed that A2 isolate clustered together with most Chinese strains. The results of this study suggest that strain A2 may play an important role in IBV’s evolution and A2-like IBVs are predominant strains in China.     

Hepatitis E virus cell culture models

Early studies reported the propagation of hepatitis E virus (HEV) in either primary hepatocytes or several established cell lines, but replication was inefficient. Efficient cell culture systems for HEV in PLC/PRF/5 and A549 cells have recently been established, using inoculum of fecal suspensions with high HEV loads, originally obtained from patients with genotype 3 HEV (the JE03-1760F strain, 2.0 × 10⁷ copies/ml) or genotype 4 HEV (the HE-JF5/15F strain, 1.3 × 10⁷ copies/ml), and many generations were successfully propagated in serial passages of culture supernatant. In addition, a full-length infectious cDNA clone (pJE03-1760F/wt) of the JE03-1760F strain was constructed, which can replicate efficiently in PLC/PRF/5 and A549 cells. A derivative ORF3-deficient mutant revealed that the ORF3 protein of HEV is responsible for virion egress from infected cells and is present on the surface of released HEV particles, which is associated with lipids. Various HEV strains with high loads of ≥10⁵ copies/ml in circulating blood were also propagated efficiently in PLC/PRF/5 and A549 cells. This paper reviews the road map toward the development of efficient cell culture systems for a wide variety of HEV strains and introduces the current knowledge on virion egress obtained by cell culture models.     

Population genetic analysis of grapevine fanleaf virus

Population genetic analysis of grapevine fanleaf virus (GFLV) was done on the basis of the virus movement protein (MP) gene sequences from the isolates detected and identified in this study and those of all previously reported GFLV strains/isolates. These revealed that the GFLV populations of Iran and Slovenia were highly distinct, whereas those of France, Germany, Italy and the USA were composed of multiple lineages. All populations were significantly differentiated from each other. However, two GFLV isolates from Tunisia, the only recorded GFLVs from that country, were not statistically distinct from the French, German and Italian populations. The ratio of non-synonymous nucleotide diversity to synonymous nucleotide diversity (Pi(a)/Pi(s)) was less than 1, suggesting that the MP gene has been under purifying selection. The neutrality tests were indicative of a balancing selection that is operating within Iranian and USA GFLV isolates, but they show a purifying selection within the other populations. Eleven recombination events were detected in a total of 50 isolates from France, Germany, Iran, Italy, Slovenia and the USA. The results from the recombination analysis were in agreement with those of the phylogenetic analysis. This study suggests that diversity among GFLV geographical populations resulted from possible host adaptation, recombination and founder effects.     

First description of Grapevine leafroll-associated virus 5 in Argentina and partial genome sequence

An accession of Vitis vinifera cv. Red Globe from Argentina, was found to be infected with Grapevine leafroll-associated virus-5 by ELISA. It was partially sequenced, and three ORFs, corresponding to HSP70h, HSP90h, and CP, were found. This isolate shares a high aminoacid identity with the previously reported sequence of the virus, and identities between 80% and 90% with previously reported GLRaV-9 and GLRaV-4 isolates. The analysis of the sequence supports the clustering together with GLRaV-4 and GLRV-9 inside the Ampelovirus genus.     

Deep sequencing analysis of viral short RNAs from an infected Pinot Noir grapevine

Virus-derived short interfering RNAs (vsiRNAs) isolated from grapevine V. vinifera Pinot Noir clone ENTAV 115 were analyzed by high-throughput sequencing using the Illumina Solexa platform. We identified and characterized vsiRNAs derived from grapevine field plants naturally infected with different viruses belonging to the genera Foveavirus, Maculavirus, Marafivirus and Nepovirus. These vsiRNAs were mainly of 21 and 22 nucleotides (nt) in size and were discontinuously distributed throughout Grapevine rupestris stem-pitting associated virus (GRSPaV) and Grapevine fleck virus (GFkV) genomic RNAs. Among the studied viruses, GRSPaV and GFkV vsiRNAs had a 5′ terminal nucleotide bias, which differed from that described for experimental viral infections in Arabidopsis thaliana. VsiRNAs were found to originate from both genomic and antigenomic GRSPaV RNA strands, whereas with the grapevine tymoviruses GFkV and Grapevine Red Globe associated virus (GRGV), the large majority derived from the antigenomic viral strand, a feature never observed in other plant-virus interactions.     

Functional analysis of the stem-loop structures at the 5' end of the Aichi virus genome

Aichi virus is a member of the family Picornaviridae. Computer-assisted secondary structure prediction suggested the formation of three stem-loop structures (SL-A, SL-B, and SL-C from the 5' end) within the 5'-end 120 nucleotides of the genome. We have already shown that the most 5'-end stem-loop, SL-A, is critical for viral RNA replication. Here, using an infectious cDNA clone and a replicon harboring a luciferase gene, we revealed that formation of SL-B and SL-C on the positive strand is essential for viral RNA replication. In addition, the specific nucleotide sequence of the loop segment of SL-B was also shown to be critical for viral RNA replication. Mutations of the upper and lower stems of SL-C that do not disrupt the base-pairings hardly affected RNA replication, but decreased the yields of viable viruses significantly compared with for the wild-type. This suggests that SL-C plays a role at some step besides RNA replication during virus infection.     

Comparative procedures for sample processing and quantitative PCR detection of grapevine viruses

In this study different instruments and methods used for tissue homogenization, RNA extraction and quantitative PCR (qPCR) based detection of grapevine RNA viruses were evaluated. Semi-automated and automated homogenization techniques were compared to process samples from grapevine petioles and cambial tissue. Four different high throughput automated nucleic acid extraction platforms were compared with the RNeasy plant extraction kit for their capacity and efficiency of extracting viral RNA from grapevine infected tissues. The RNA prepared from each extraction platform was then used as template for a comparative analysis of qPCR by One Step RT-qPCR, Two Step RT-qPCR and low density array (LDA) detection. This study showed that a thorough homogenization of grapevine tissues using the Tissue Lyser as well as DNase digestion of the purified RNA prior to cDNA synthesis improved the virus detection and yielded the lowest quantitation cycle (Cq) values in RT-qPCR. Comparison of different RNA extraction methods showed that methods implementing the magnetic bead-based technology were superior to other methods used. Comparing different qPCR detection methods, One Step RT-qPCR showed the lowest Cq values for the same sample tested compared to Two Step RT-qPCR and LDA.     

West Nile virus (WNV) genome RNAs with up to three adjacent mutations that disrupt long distance 5'-3' cyclization sequence basepairs are viable

Mosquito-borne flavivirus genomes contain conserved 5′ and 3′ cyclization sequences (CYC) that facilitate long distance RNA-RNA interactions. In previous studies, flavivirus replicon RNA replication was completely inhibited by single or multiple mismatching CYC nt substitutions. In the present study, full-length WNV genomes with one, two or three mismatching CYC substitutions showed reduced replication efficiencies but were viable and generated revertants with increased replication efficiency. Several different three adjacent mismatching CYC substitution mutant RNAs were rescued by a second site mutation that created an additional basepair (nts 147-10913) on the internal genomic side of the 5′-3′ CYC. The finding that full-length genomes with up to three mismatching CYC mutations are viable and can be rescued by a single nt spontaneous mutation indicates that more than three adjacent CYC basepair substitutions would be required to increase the safety of vaccine genomes by creating mismatches in inter-genomic recombinants.     

Hepatitis may precede the occurrence of precore region mutation in hepatitis B virus genome during infection in young carriers

To understand when the mutation with a stop codon of precore region in hepatitis B virus genome occurs, the prevalence of the mutation of viral DNA clones propagated from sera of school-age carriers was investigated with respect to hepatitis B e antigen (HBeAg)/anti-HBe and sequential changes of mutants along HBeAg seroconversion were analyzed. Of 32 carriers aged 8–18 years, 14 HBeAg(+) patients had 2.2% mutant clones, whereas 8 patients with low titer anti-HBe had a higher rate of 18.1% (P < 0.01) and the highest rate of 61.3% was found in 10 patients with high anti-HBe titer (P < 0.001). By contrast, the amount of viral DNA decresed significantly in patients with anti-HBe. Sequential analysis in six cases revealed three types of seroconversion with time difference of the emergence and increase of mutant clones. It is concluded that mutation occurs at a relatively young age and increases along time and/or HBeAg seroconversion. Hepatitis might precede or accelerate the emergence and increse of mutant population which might be predictive of sustained resolution of the disease.     

Characterization of Asn130-to-Ala mutant of dengue type 1 virus NS1 protein

The nonstructural protein 1 (NS1) of flavivirus has two N-glycosylation sites that are thought to be important for viral replication. Effects of NS1 glycosylation site mutations on viral replication have been reported in several flaviviruses, but the results have differed. In this report, we examined the role of glycosylation site of NS1 on the replication of dengue type 1 virus (DENV-1). DENV-1 production was not detectable when full-length DENV-1 RNA, which has an N-glycosylation site Asn130-to-Ala (Asn130Ala) mutation in NS1, was transfected into mammalian and mosquito cells. However, replication and secretion of recombinant DENV-1 with the NS1 Asn130Ala mutation were recovered by exogenously expressed wild-type DENV-1 NS1. A growth kinetics experiment showed that propagation of wild-type DENV-1 was prevented by NS1 Asn130Ala mutant expression in trans. Our results suggest that Asn130 of the DENV-1 NS1 is important for viral replication in both mammalian and mosquito cells.     

Biological and molecular characterization of Soybean yellow common mosaic virus, a new species in the genus Sobemovirus

A novel soybean-infecting sobemovirus termed Soybean yellow common mosaic virus (SYCMV) was characterized. The virus has a single, positive-strand RNA genome of 4152 nucleotides. The virus contains four putative open reading frames encoding P1 (78-566 nt), polyprotein ORF2a (524-2248 nt), polymerase domain ORF2b (1852-3417 nt), and CP (3227-4030 nt). The entire nucleotide sequence of SYCMV showed 31.2-71.3% nucleotide identity with the previously known eleven species of sobemovirus. In host range analysis of SYCMV, in which twenty one species and three different Nicotiana tabacum cultivars belonging to seven families were inoculated with the virus, SYCMV had a narrow host range, infecting only Glycine max and G. soja. Based on the obtained sequence, full-length clones of SYCMV were constructed. Symptoms produced by inoculation with clones were indistinguishable from those produced by inoculation with sap from symptomatic plants. Viral RNA accumulation of SYCMV was detected in the upper leaves by Northern blotting. This indicated that full-length clones of SYCMV were sufficient to produce disease symptoms. Genomic organization, the predicted amino acid sequence, and phylogenetic analyses with known sobemoviruses confirmed the assignment of SYCMV as a new member of the genus Sobemovirus.