Complete nucleotide sequence of an isolate of the nepovirus raspberry ringspot virus from grapevine

The complete nucleotide sequence of the RNAs 1 and 2 of the nepovirus Raspberry ringspot virus cherry isolate (RpRSV-ch) from grapevine was determined. The RNA 1 is 7935 nucleotides (nt) long excluding the poly(A) tail, and contains one long open reading frame (ORF) encoding a polypeptide of 2367 amino acids. This ORF is preceeded by a 136nt 5' non-coding region, and followed by a 695nt 3' non-coding region. Conserved amino acid motifs, characteristic of the viral protease cofactor, the NTP-binding protein, proteinase and polymerase, were found in the sequence of the RNA 1-encoded polyprotein. The RNA 2 is 3915nt long excluding the poly(A) tail, and contains one long ORF encoding a polypeptide of 1106 amino acids. This ORF is preceeded by a 203nt 5' non-coding region, and followed by a 390nt 3' non-coding region. When compared to the corresponding sequences of other nepoviruses, a maximum level of 34% identity was found between the RNA 1-encoded polypetides of RpRSV-ch and other nepoviruses. For the RNA 2-encoded polypeptide, 88% identity was found between RpRSV-ch and RpRSV-S, a Scottish isolate of RpRSV from raspberry, and a maximum 29% identity between RpRSV-ch and other nepoviruses.     

Cloning and sequencing of peach rosette mosaic virus RNA1

The complete nucleotide sequence of peach rosette mosaic nepovirus (PRMV) RNA1 has been determined. A grapevine isolate of PRMV from Michigan was propagated and purified and cDNA clones representing 99. 5% of the RNA1 were constructed. The cDNA and direct RNA sequence analysis revealed a RNA species of 8004 nucleotides, excluding a 3' polyadenylated tail. The 5'- and 3'-untranslated regions were 52 and 1474 nucleotides, respectively. Computer analysis of the PRMV RNA1 nucleotide sequence unveiled a single long open reading frame of 6477 nucleotides, which is capable of encoding a 240 kDa polyprotein. Analysis of the predicted amino acid sequence of RNA1 revealed amino acid motifs characteristic of a replicase, proteinase, NTP-binding protein and a proteinase cofactor. The order and identity of these putative proteins are consistent with other nepoviruses. Analysis of PRMV RNA1 further distinguishes the taxonomic subdivisions within the nepovirus group, confirms the subgroup three status of PRMV and lays the groundwork for a replicase-mediated resistance strategy.     

Identification and characterization of blueberry latent spherical virus,a new member of subgroup C in the genus <Emphasis Type="Italic">Nepovirus</Emphasis>

A new member of the genus Nepovirus was isolated from blueberry in Japan. The virus was associated with latent infection of blueberry trees and provisionally named blueberry latent spherical virus (BLSV). BLSV was found to have isometric particles approximately 30 nm in diameter, which were composed of a single coat protein (CP) of 55 kDa. The viral genome consisted of two positive-sense single-stranded RNA species (RNA1 and RNA2), which were 7,960 and 6,344 nucleotides (nt) long, respectively. The organization of RNA1 and RNA2 was similar to that of nepoviruses. The 3′ non-coding regions of RNA1 and RNA2 were 1,379 nt and 1,392 nt long, respectively. The amino acid sequences of the BLSV polymerase and CP shared the highest amino acid sequence similarities with those of the subgroup C nepoviruses (57% and 43%, respectively). Additionally, the BLSV genome, in contrast to other nepovirus genomes, was predicted to encode a serine protease.     

Complete nucleotide sequence of the RNA 1 of a grapevine isolate of <Emphasis Type="Italic">Arabis mosaic virus</Emphasis>

Summary. The complete nucleotide sequence of the genomic RNA 1 of the grapevine isolate NW (Neustadt an der Weinstrasse) of Arabis mosaic virus (ArMV) was determined. It is 7334 nucleotides long excluding the poly(A) tail, and contains one long open reading frame encoding a polypeptide of 2284 amino acids. The 5 and 3 non-coding regions were 227 and 252 nucleotides long respectively, and showed stretches of high identity with the corresponding 5 and 3 non-coding regions of ArMV-NW RNA 2. The analysis of the amino acid sequence of the polyprotein encoded by the RNA 1 of the ArMV-NW showed that the conserved amino acid motifs, characteristic for the viral protease co-factor, the NTP-binding protein, the cystein protease, and the RdRp core domains, were all present. Amino acid sequence comparisons between the polyproteins encoded by the RNAs 1 of ArMV-NW and other nepoviruses showed 75% identity with the GFLV-F13, and up to 36% with other nepoviruses.     

Nucleotide sequence and in vitro expression of the capsid protein gene of tobacco ringspot virus

The nucleotide sequence of the 3' terminal 2022 nucleotides (nt) of tobacco ringspot virus (TobRV) RNA 2 has been determined. Protein microsequence analysis of the amino-terminal residues of purified capsid protein localized the capsid protein gene between nt 2014 and 583 (from the 3' terminus) of this sequence. The proteolytic cleavage site that is processed to liberate the capsid protein from the RNA 2-encoded polyprotein was identified as Cys-Ala. The predicted translation product from the gene is a 477 amino acid long polypeptide with a calculated MW of 53 kDa. The gene was modified at the 5' end to facilitate sub-cloning, and to provide it with a methionine initiation codon. The modified gene was sub-cloned, transcribed in vitro and expressed in a rabbit reticulocyte lysate translation system, where it directed the synthesis of a 53 kDa polypeptide. Garnier-Osguthorpe-Robson analyses of the secondary structure of the capsid protein predicted the presence of three beta sheet domains, which suggests that this nepovirus capsid may be structurally analogous to those of the como- and picornaviruses. These and other results from computer analyses of the nucleic acid and amino acid sequences, and comparisons with the capsid proteins of nepoviruses and other related viruses are discussed.     

Nucleotide sequence and coding capacity of the large (L) genomic RNA segment of Seoul 80-39 virus, a member of the hantavirus genus.

The nucleotide sequence of the large (L) genomic RNA segment of Seoul 80-39 virus was determined from overlapping cDNA clones. The virion L RNA segment is 6530 nucleotides long. The 3' and 5' terminal sequences are inversely complementary for 15 bases. The viral complementary-sense RNA contains a single open reading frame from an AUG codon at nucleotide position 37-39 to a UAA stop codon at nucleotide position 6490-6492. This ORF could encode a polypeptide of 2151 amino acids (246,662 kDa) which likely corresponds to the L protein detected in purified viral particles (Elliott et al., 1984) and is assumed to be an RNA-dependent RNA polymerase molecule (Schmaljohn and Dalrymple, 1983). Comparison of the L protein of the Seoul 80-39 virus with the polymerase proteins encoded by other negative-stranded RNA viruses revealed 44% similarity only with the part of the Bunyamwera virus L protein (Elliott, 1989) and a very weak homology with the PB1 protein of influenza virus.     

Analysis of the complete genome sequence of acute bee paralysis virus shows that it belongs to the novel group of insect-infecting RNA viruses

The complete genome sequence of acute bee paralysis virus (ABPV) was determined. The 9470 nucleotide, polyadenylated RNA genome encoded two open reading frames (ORF1 and ORF2), which were separated by 184 nucleotides. The deduced amino acid sequence of the 5' ORF1 (nucleotides 605 to 6325) showed significant similarity to the RNA-dependent RNA polymerase, helicase, and protease domains of viruses from the picornavirus, comovirus, calicivirus, and sequivirus families, as well as to a novel group of insect-infecting RNA viruses. The 3' ORF2 (nucleotides 6509-9253) was proposed as encoding a capsid polyprotein with three major structural proteins (35, 33, and 24 kDa) and a minor protein (9.4 kDa). This was confirmed by N-terminal sequence analysis of two of these proteins. The overall genome structure of ABPV showed similarities to those of Drosophila C virus, Plautia stali intestine virus, Rhopalosiphum padi virus, and Himetobi P virus, which have been classified into a novel group of picorna-like insect-infecting RNA viruses called cricket paralysis-like viruses. It is suggested that ABPV belongs to the cricket paralysis-like viruses.     

Complete sequences and phylogenetic analyses of a Singapore isolate of broad bean wilt fabavirus

Summary.  The complete nucleotide (nt) sequence of a Singapore isolate of broad bean wilt fabavirus from Megakepasma erythrochlamys L., designated BBWV-ME, was determined. Its bipartite genome consisted of two positive-sense single-stranded ribonucleic acids (RNA). RNA1 (5951 nt in length) encoded a putative protease cofactor, nucleotide triphosphate (NTP)-binding domain (helicase), viral genome-linked protein (VPg), protease and RNA-dependent RNA polymerase (RdRp). RNA2 (3607 nt in length) encoded a putative movement protein (MP) and coat proteins (CP). Genome organization of BBWV-ME was similar to other viruses in the Comoviridae family. Phylogenetic analyses showed that fabaviruses were more closely related to the comoviruses than the nepoviruses. Received February 23, 2000 Accepted July 18, 2000     

The nucleotide sequence and genomic organization of Citrus leaf blotch virus: candidate type species for a new virus genus

The complete nucleotide sequence of Citrus leaf blotch virus (CLBV) was determined. CLBV genomic RNA (gRNA) has 8747 nt, excluding the 3'-terminal poly(A) tail, and contains three open reading frames (ORFs) and untranslated regions (UTR) of 73 and 541 nucleotides at the 5' and 3' termini, respectively. ORF1 potentially encodes a 227.4-kDa polypeptide, which has methyltransferase, papain-like protease, helicase, and RNA-dependent RNA polymerase motifs. ORF2 encodes a 40.2-kDa polypeptide containing a motif characteristic of cell-to-cell movement proteins. The 40.7-kDa polypeptide encoded by ORF3 was identified as the coat protein. The genome organization of CLBV resembles that of viruses in the genus Trichovirus, but they differ in various aspects: (i) in trichoviruses ORF2 overlaps ORFs 1 and 3, whereas in CLBV, ORFs 2 and 3 are separated and ORFs 1 and 2 overlap in one nucleotide; (ii) CLBV gRNA and CP are larger than those of trichoviruses; and (iii) the CLBV 3' UTR is larger than that of trichoviruses. Phylogenetic comparisons based on CP amino acid signatures clearly separates CLBV from trichoviruses. Also contrasting with trichoviruses, CLBV could not be transmitted to Chenopodium quinoa Willd. Considering these singularities, we propose that CLBV should be included in a new virus genus.     

Nucleotide sequence of barley stripe mosaic virus RNAα: RNAα encodes a single polypeptide with homology to corresponding proteins from other viruses

The complete nucleotide sequence of RNAα from the Type strain of barley stripe mosaic virus has been determined. The RNA is 3768 nucleotides long and contains a single open reading frame which codes for a polypeptide of 1139 amino acids (mw 129,634). The open reading frame is flanked by a 5′-terminal sequence of 91 nucleotides and a 3′-nontranslated region composed of a short poly(A) tract followed by a 238-nucleotide tRNA-like structure. The amino acid sequence of the polypeptide (αa) encoded by the open reading frame has homology with the TMV 126K protein and with related polypeptides from other viruses. The carboxy-terminal portion of the as polypeptide also has limited homology with the 58K (βb) protein encoded by BSMV RNAβ and includes a consensus sequence found in mononucleotide-binding polypeptides.     

Complete nucleotide sequence of RNA-2 of Olive latent ringspot virus

Summary.  The complete nucleotide sequence of Olive latent ringspot virus (OLRSV) RNA-2 was determined. This RNA is 3969 nucleotides in length and contains a single open reading frame of 3448 nt, that encodes a polypeptide of 1146 amino acids, with a calculated M_r of 126,044. OLRSV RNA-2 has a structural organization typical of nepoviruses, with the coat protein (CP) cistron located in the C-terminal and the putative movement protein (MP) in the N-terminal regions of the polyprotein. Computer-assisted comparison of coat proteins of OLRSV and other nepoviruses disclosed relationships that tally with subgrouping based onphysicochemical properties. Received June 5, 2000 Accepted July 18, 2000     

Nucleotide sequence and taxonomy of Cycas necrotic stunt virus. Brief report

Cycas necrotic stunt virus (CNSV) is the only well-characterized virus from gymnosperm. cDNA segments corresponding to the bipartite genome RNAs (RNA1, RNA2) were synthesized and sequenced. Each RNA encoded a single polyprotein, flanked by the 5' and 3' non-coding regions (NCR) and followed by a poly (A) tail. The putative polyproteins encoded by RNA1 and RNA2 had sets of motifs, which were characteristic of viruses in the genus Nepovirus. The polyproteins showed higher sequence identities to Artichoke Italian latent virus, Grapevine chrome mosaic virus and Tomato black ring virus, all of which belong to subgroup b of the genus Nepovirus, than to other nepoviruses. Phylogenetic analysis of RNA dependent RNA polymerase and coat protein also showed closer relationships with these viruses than other viruses. The data obtained supported the taxonomical status of CNSV as a definitive member of the genus Nepovirus, subgroup b.     

Rabbit hemorrhagic disease virus--molecular cloning and nucleotide sequencing of a calicivirus genome.

The RNA genome of rabbit hemorrhagic disease virus (RHDV) was molecularly cloned. The 5' terminal sequence of the genomic RNA was determined after PCR amplification of a G-tailed first strand cDNA template. The cloned cDNA allowed determination of the first complete caliciviral sequence encompassing 7437 nucleotides without poly(A) tail. The RHDV genome contains one long open reading frame of 2344 codons which in the 5' region encodes the nonstructural proteins. Sequence comparison studies revealed significant homology between nonstructural proteins of the feline calicivirus (FCV) and RHDV. In analogy to FCV the deduced RHDV amino acid sequence contains a picornavirus 2C-like sequence, a hypothesized cysteine protease motif, and the conserved polymerase residues GDD. For the protein region containing the GDD motif, alignments of sequences from different viruses including the putative caliciviruses hepatitis E virus and Norwalk virus were performed; concerning the classification of the latter two viruses, a final judgement was not possible. Bacterial expression of sequences derived from the 3' part of the genomic RHDV RNA showed that this region codes for the viral capsid protein.     

The complete nucleotide sequence of RNA2 of blackcurrant reversion nepovirus

The complete nucleotide sequence of blackcurrant reversion nepovirus (BRV) RNA2 was determined from cDNA clones. RNA2 was 6400 nucleotides (nt) in length excluding the 3' poly(A)-tail. It contained a single open reading frame of 4878 nts encoding a polypeptide of 1626 amino acids with a calculated M(r) of 178? omitted?860. The genome organization of BRV RNA2 was similar to that of other nepoviruses, especially those with a large RNA2. The coat protein (CP) was located in the C-terminal region of the large polyprotein and contained amino acid motifs conserved among nepovirus CPs. Sequence comparisons revealed a proline (P) residue surrounded by hydrophobic amino acid residues located upstream of the CP. This P motif is conserved among the putative movement proteins of nepo-, como-, caulimo- and capilloviruses. An N-terminal domain of 350 amino acids of RNA2-encoded polyprotein shared 34 and 35% sequence identity with the N-terminal domains of tomato ringspot nepovirus RNA1- and RNA2-encoded polyproteins, respectively. Sequence identities between the N-terminal domains of BRV RNA2 and other nepoviral RNA2s were less than 20%; no common N-terminal motif was found.     

The complete genome sequence of Perina nuda picorna-like virus,an insect-infecting RNA virus with a genome organization similar to that of the mammalian picornaviruses

Perina nuda picorna-like virus (PnPV) is an insect-infecting RNA virus with morphological and physicochemical characters similar to the Picornaviridae. In this article, we determine the complete genome sequence and analyze the gene organization of PnPV. The genome of PnPV consists of 9476 nucleotides (nts) excluding the poly(A) tail and contains a single large open reading frame (ORF) of 8958 nts (2986 codons) flanked by 473 and 45 nt noncoding regions on the 5' and 3' ends, respectively. Northern blotting did not detect the presence of any subgenomic RNA. The PnPV genome codes for four structural proteins (CP1-4), and determination of their N-terminal sequences by Edman degradation, showed that all four are located in the 5' region of the genome. The 3' part of the PnPV genome contains the consensus sequence motifs for picornavirus RNA helicase, cysteine protease, and RNA-dependent RNA polymerase (RdRp) in that order from the 5' to the 3' end. In all of these characters, the genome organization of PnPV resembles the mammalian picornaviruses and two other insect picorna-like viruses, infectious flacherie virus (IFV) of the silkworm and Sacbrood virus (SBV) of the honeybee. In a phylogenetic tree based on the eight conserved domains in the RdRp sequence, PnPV formed a separate cluster with IFV and SBV, which suggests that these three insect picorna-like viruses might constitute a novel group of insect-infecting RNA viruses.     

The nucleotide sequence and genome organization of the RNA2 and RNA3 segments in broad bean mottle virus.

Complete nucleotide sequences of broad bean mottle virus (BBMV) genomic RNAs 2 and 3 were determined. They consist of 2811 and 2293 nucleotides, respectively. Both RNAs are caped and, unlike in other tricornaviruses, both initiate with an A residue. BBMV RNA2 is monocistronic and encodes an 815 amino acid 2a protein, whereas RNA3 is dicistronic, encoding for a 295 amino acid 3a protein and for the 190 amino acid coat protein. A central, 423 amino acid 2a protein core region is highly homologous among the three bromoviruses, whereas both N- and C-termini are more heterologous. Most of the homologies among 3a proteins are concentrated within the N-termini two-thirds of the molecule that is predominantly hydrophobic, whereas the C-terminal one-third contains a large number of charged amino acids. The homologies among coat proteins are clustered within several mostly hydrophobic, or neutral, domains. The 5' noncoding region of the RNA2 has 110 nucleotides, whereas that of RNA3 contains 330 nucleotides. As in cowpea chlorotic mottle virus, but unlike in Brome mosaic virus, the 5' noncoding region includes subgenomic promoter-like sequences. The BBMV RNA3 intercistronic region also has subgenomic promoter sequences and contains a long poly(A) stretch. At the 3' end, BBMV RNAs 2 and 3 have 257 and 236 noncoding nucleotides, respectively.     

Nucleotide sequence of barley stripe mosaic virus RNA alpha: RNA alpha encodes a single polypeptide with homology to corresponding proteins from other viruses

The complete nucleotide sequence of RNA alpha from the Type strain of barley stripe mosaic virus has been determined. The RNA is 3768 nucleotides long and contains a single open reading frame which codes for a polypeptide of 1139 amino acids (mw 129,634). The open reading frame is flanked by a 5'-terminal sequence of 91 nucleotides and a 3'-nontranslated region composed of a short poly(A) tract followed by a 238-nucleotide tRNA-like structure. The amino acid sequence of the polypeptide (alpha a) encoded by the open reading frame has homology with the TMV 126K protein and with related polypeptides from other viruses. The carboxy-terminal portion of the alpha a polypeptide also has limited homology with the 58K (beta b) protein encoded by BSMV RNA beta and includes a consensus sequence found in mononucleotide-binding polypeptides.