Molecular analysis of six segments of <Emphasis Type="BoldItalic">Tobacco leaf enation virus</Emphasis>, a novel phytoreovirus from tobacco

Tobacco leaf enation virus (TLEV) is a putative member of the genus Phytoreovirus within the family Reoviridae. Previous western blot analysis of structural viral proteins (apparent molecular weights of 93 kDa; 58 kDa; 48 kDa; 39 kDa and 36 kDa) associated with TLEV, isolated from infected tobacco in South Africa, suggested that these proteins may correspond to structural Wound tumor virus (WTV) proteins. To further establish the nature of this novel virus disease phenotype in tobacco, molecular characterization of six dsRNA components was undertaken. Full-length cDNA clones were obtained by an optimized modified single-primer amplification sequence-independent dsRNA cloning method. Results of this study revealed the conserved terminal sequence: 5′GG(U/C)...UGAU 3′ of segments S6–S12, while adjacent to these conserved terminal sequences are imperfect inverted repeats (7–15 bp in length), both features being common to reoviruses. The complete nucleotide sequences of segments S5 (2,610 bp), S7 (1,740 bp), S8 (1,439 bp), S10 (1,252 bp), S11 (1,187 bp) and S12 (836 bp) were determined. Comparison of full-length nucleotide sequences with corresponding segments of other phytoreoviruses, Rice gall dwarf virus (RGDV), Rice dwarf virus (RDV) and WTV has shown nucleotide and predicted amino acid identities within the range of 30–60%. TLEV consistently shows a higher identity to WTV than to other phytoreovirus species where sequence data is available. Each segment had a single predicted open reading frame encoding proteins with calculated molecular weights of S5 (90.6 kDa); S7 (58.1 kDa); S8 (47.7 kDa); S10 (39.8 kDa); S11 (35 kDa) and S12 (19.5 kDa). The relatively low nucleotide and amino acid identity to other members of the genus demonstrates that TLEV is a novel phytoreovirus, distinct from the only other reported dicotyledenous-infecting WTV and is the first phytoreovirus reported to emerge in Africa.     

Genome Organization and Expression of the <Emphasis Type="Italic">Penicillium stoloniferum</Emphasis> Virus F

The complete sequences of three double-stranded (ds) RNAs (referred to F1, F2 and F3) of Penicillium stoloniferum virus F (PsV-F) were established. The F1 dsRNA was 1677 bp in length, and it contained one open reading frame (ORF) of 538 amino acids (molecular weight of 63 kDa, referred to P63), The F2 dsRNA was 1500 by in length, and also it contained one ORF of 420 amino acids (molecular weight of 46 kDa, referred to P46). The F3 dsRNA was 677 bp in length, but contained a small ORF with unknown function. A sequence motif of (5′-CGTAAAA-3′) was found only at the 5′ termini of the F1 and F2 dsRNAs, and a sequence motif of (5′-TAAAAAAAAA-3′) was found at the 3′ termini of all three dsRNA segments. The predicted amino acid sequence of F1 showed 38–48% sequence homology with the putative dsRNA-dependent RNA polymerases (RdRp) of dsRNA viruses, but the predicted amino acid of F2 showed no homology. Phylogenetic analysis using the RdRp sequences of the various Partitiviruses and Alphacryptoviruses revealed that PsV-F clustered well with Partitiviruses, but showed remote relationship with PsV-S. Near full-length and positive-sense single-stranded (ss) RNAs derived from the Fl, F2 and F3 dsRNAs were detected from the PsV-infected host cell. The expressed proteins of P63 and P46 showed a positive reaction against PsV-F antiserum, indicating P63 and P46 as RdRp and capsid protein, respectively. These results suggest that PsV-F can be a member of Partitivirus, but it is quite distinct from PsV-S electrophoretically, serologically and genetically, though both viruses coexist in the same cell.     

Sequences of three dsRNAs associated with La France disease of the cultivated mushroom (Agaricus bisporus)

Summary La France disease of the cultivated mushroom, Agaricus bisporus, is known to be associated with the presence of a number of dsRNA segments. The nucleotide sequences of the dsRNAs M2 (1.3 kb), M1 (1.55 kb) and L3 (2.8 kb), invariably associated with the disease, were determined. Putative coding sequences for proteins with molecular weights of 38, 40 and 87 kDa were found for M2, M1 and L3 dsRNAs, respectively. The average G+C content of these dsRNAs was 43%, close to that of A. bisporus nuclear DNA. The nucleotide sequences, as well as the amino acid sequences, appear to be unique, as no matching sequences could be found among databases. S3 dsRNA (0.39 kb), which is occasionally found in large amounts in diseased mushrooms, is an internally deleted variant of M2 dsRNA and is largely composed of the non-coding ends of that dsRNA.     

Complete nucleotide sequence and genome organization of a dsRNA partitivirus infecting Pleurotus ostreatus

The nucleotide sequences of the genomic dsRNA mycovirus infecting Pleurotus ostreatus (P. ostreatus virus 1; PoV1) were determined and compared to the sequences of the other mycoviruses belonging to partitiviruses and totivirues. PoV1 dsRNA-1 and dsRNA-2 had genomes of 2296 and 2223 nucleotides, respectively. The purified virus preparations contained isometric particles of 28-30 nm in diameter, and also the same two dsRNAs were isolated from purified virus preparations. The sequences of PoV1 dsRNA-1 and dsRNA-2 had GC contents of 48.4 and 51.5%, respectively. dsRNA-1 had 78 and 97 nucleotides of 5'- and 3'-untranslated region (UTR) while dsRNA-2 had 114 and 198 nucleotides of 5'- and 3'-UTR, respectively. Computer analysis of putative open reading frame (ORF) shows that dsRNA-1 and dsRNA-2 contain a single ORF encoding proteins of 82.2 and 71.1 kDa that show high sequence identity with RNA-dependent RNA polymerase and capsid protein of partitiviruses, respectively. When compared to other dsRNA mycoviruses in a phylogenetic analysis they were found to form a distinct virus clade with partitiviruses, and were more distantly related to totiviruses.     

Complete sequence of the genome of two dsRNA viruses from Discula destructiva

Complete nucleotide sequences were determined for the four dsRNA segments present in isolate 247 of Discula destructiva from South Carolina. The largest dsRNA (dsRNA 1) was 1787 bp in length with a single open reading frame (ORF) that coded for a putative RNA-dependent RNA polymerase (RdRp). The dsRNA 2 was 1585 bp in length with a single ORF that coded for a putative viral coat protein. Both the dsRNA 3 (1178 bp in length) and dsRNA 4 (308 bp) contained single ORFs. However, neither the nucleotide sequence nor the sequence of the putative translation products, showed any similarity with sequences currently available from GenBank. Although distinct, all 4 dsRNAs showed conserved nucleotides at both the 5′ and 3′ termini. Sequences of the two dsRNAs in an isolate of D. destructiva (331 originating from Idaho) were similar in length to, and shared similarity with, the dsRNA 1 and dsRNA 2 of isolate 247. However, although the putative RdRps of isolates 247 and 331 are closely related, the putative viral coat proteins coded for by the respective dsRNA 2s are distinct. Thus, the dsRNAs in the two fungal isolates appeared to originate from distinct, but related viruses, which we have named D. destructiva virus 1 and D. destructiva virus 2, respectively. Phylogenetic analysis indicated that the two viruses were most closely related to Fusarium solani virus 1 and should be considered members of the genus Partitivirus. Another isolate of D. destructiva (272.1) contains a 12 kb dsRNA in addition to the 4 dsRNAs found in isolate 247. Partial sequence of this 12 kb molecule showed a relationship to other large dsRNA molecules isolated from plants.     

Molecular characterization of two mitoviruses co-infecting a hypovirulent isolate of the plant pathogenic fungus Sclerotinia sclerotiorum [corrected

The complete nucleotide sequences of two double-stranded RNA (dsRNA) segments, isolated from the same hypovirulent strain (KL-1) of Sclerotinia sclerotiorum, were determined. Sequence analysis showed that dsRNAs 1 to be 2513 nts long and is A-U rich (61.7%). Excluding the poly(A) tail, dsRNAs2 is 2421 nts long and its AU content is 53.1%. The 5′ and 3′-terminal sequences of the positive-strand of each dsRNA could be folded into predicted stable stem-loop structures. Mitochondrial codon usage revealed that each dsRNA has a single large open reading frame coding for a protein containing RNA-dependent RNA polymerase conserved motifs. Furthermore, dsRNAs 1 and 2 share sequence similarities with other mitoviruses. These results suggest that dsRNAs 1 and 2 represent two distinct new mitoviruses, designated Sclerotinia sclerotiorum mitovirus 1 (SsMV1/KL-1) and SsMV2/KL-1, respectively. The hypovirulence traits of strain KL-1 and the two mitoviruses could be co-transmitted to a virus-free virulent strain via hyphal anastomosis.     

Determination of the 5′- and 3′-Terminal Sequences Completes the Sequences of the Two Double-stranded RNAs of Penicillium stoloniferum Virus S

The two genomic segments of Penicillium Stoloniferum virus S (PsV-S), a member of the Partitiviridae, were recently sequenced and published. We independantly sequenced PsV-S and showed that the original sequence was missing nucleotides at both the 5′ and 3′ termini of both segments. We determined the correct sequence in three independent experiments and found the segments to be 1753 bp (encoding the RNA-dependant RNA polymerase) and 1581 bp (encoding the Capsid Protein). Homology was shown between the 5′ and 3′ ends of PsV-S and other members of the Partitiviridae. The nucleotide sequence data reported in this paper have been submitted to the EMBL nucleotide sequence database and have been assigned the accession numbers AM040148 and AM040149.     

Complexity of dsRNA Mycovirus Isolated from Fusarium graminearum

Fusarium graminearum is the causal agent of a serious scab disease of small grains in Korea. We screened 827 isolates of F. graminearum from diseased barley and maize and tested for the presence of double-stranded RNA (dsRNA) mycovirus. Of them, 19 isolates contained various sizes of dsRNAs. A dsRNA associated with pronounced morphological changes including reduction in mycelial growth, increase in dark orange to red pigmentation, reduced sporulation and virulence was previously observed in nine dsRNA-containing Fusarium isolates (Chu et al., Appl Env Microbiol 68, 2529-2534, 2002). Ten additional isolates were found infected with dsRNA mycoviruses. These mycoviruses contain 2-4 different segments of dsRNAs with the size-range of approximately 1.7-10 kbp in length. The presence of dsRNAs did not affect colony morphology and were transmissible through conidia and ascospore with incidence of 30-100%. Interestingly, dsRNA mycovirus found in F. graminearum isolates, JB33 and JNKY19, that show the pattern of mixed infection of two different viruses were transmitted to all progeny conidia and ascospores. These results indicate that there is genomic diversity of dsRNA mycoviruses that infect F. graminearum isolates and that impact of virus infection on host's morphology and virulence is determined by the interaction between dsRNAs and the fungal host, not by the mere presence of the dsRNAs.     

The genome of <Emphasis Type="Italic">Beet cryptic virus</Emphasis> 1 shows high homology to certain cryptoviruses present in phylogenetically distant hosts

This study determined the complete nucleotide sequence of Beet cryptic virus 1 (BCV1). As expected by analogy to previously sequenced alphacryptoviruses, dsRNA1 (2008 bp) encodes a 72.5-kDa protein containing sequence motifs characteristic for RNA-dependent RNA polymerases (RdRp). In addition to the full-length dsRNA1, a truncated form was also detected in dsRNA extracts. dsRNA2 (1783 bp) codes for the viral coat protein (CP) as proven by the identity of the predicted CP sequence to peptide sequences of the purified virion protein. The amino acid sequence of BCV1 RdRp as well as the 5′- and 3′-UTRs show 81–85% identity to the corresponding regions of Vicia cryptic virus (VCV), White clover cryptic virus 1 (WCCV1) and Carrot cryptic virus (CaCV). The amino acid sequence identity of the CP is about 55–62%, moreover, a strong conservation of predicted α-helical regions was observed. The high degree of similarity of these seed- and pollen-transmitted viruses persisting in phylogenetically distant hosts, together with their high similarity to fungal partitiviruses strongly supports the hypothesis that horizontal transfer by a fungus played a role in the emergence of the present cryptovirus species. The change in the distribution of cryptic viruses may also be due to human influence: While earlier BCV1 occurred frequently in sugar beet cultivars, it is very rare in cultivars currently used in agricultural practice and was detected in only one of the 28 cultivars investigated in our experiments.     

Molecular characterization of the genome segments S4, S6 and S7 of rice gall dwarf virus

Summary Rice gall dwarf virus (RGDV) is a member of the genus Phytoreovirus within the family Reovirdae. Its genome has 12 segments of double-stranded RNA (dsRNA), of which the nucleotide sequences of segments S4, S6, and S7 were determined, providing the first complete genome sequence of RGDV. Each of the segments S4, S6, and S7 contained conserved terminal sequences conforming to the RGDV consensus, 5′-GGXA … UGAU-3′ (X = U or C). Each segment had a single predicted open reading frame encoding proteins with calculated molecular weights of 79.8, 58.6, and 53.3 kDa. These proteins appeared to be homologous to those encoded by the corresponding segments of rice dwarf virus and wound tumor virus, the other known members of the same genus, having about 20–30% amino acid identity to them. It is therefore likely that RGDV S4 and S6 encode non-structural proteins and S7 an inner core protein. Probable homologies between the segments of all known phytoreoviruses are summarized. Beyond these similarities, the RGDV proteins displayed no significant similarity to any other reported viral proteins.     

Characterisation and partial sequence analysis of two novel cypoviruses isolated from the winter moth <Emphasis Type="Italic">Operophtera brumata</Emphasis> (Lepidoptera: Geometridae)

The complete nucleotide sequences of genomic segments S5 to S10 from Operophtera brumata cypovirus 18 (OpbuCPV18), and the complete nucleotide sequences of genomic segments S2, S5, S9 and S10 from Operophtera brumata cypovirus 19 (OpbuCPV19) have been determined. Each genome segment contained a single open reading frame (ORF). Conserved motifs 5′ (AGUAAA....GUUAGCU) 3′ were found at the ends of each segment of OpbuCPV18, whilst conserved motifs 5′ (AACAAA....UUUGC) 3′ were found at each segment terminus of OpbuCPV19. The putative proteins were compared with those of other members of the Reoviridae family. Phylogenetic analysis using the polyhedrin gene (S10) indicated that OpbuCPV18 was most closely related to Dendrolimus punctatus cypovirus 1, whilst OpbuCPV19 was most closely related to Trichoplusia ni cypovirus 15. In addition, analysis of S2, which encoded a putative RNA-dependant RNA polymerase gene, confirmed OpbuCPV19 belonged to the genus Cypovirus. Following the expression of the ORF from OpbuCPV19 S10, using a baculovirus expression vector, occlusion bodies were observed in insect cell culture. This demonstrated that segment 10 coded for the polyhedrin gene, capable of forming a polyhedral crystalline matrix. The nucleotide sequence data reported in this paper have been submitted to the Genbank nucleotide sequence database and have been assigned the accession numbers DQ192245, DQ192246, DQ192247, DQ192248, DQ192249, DQ192250, DQ192251, DQ192252, DQ192253, and DQ192254.     

The wide distribution of endornaviruses, large double-stranded RNA replicons with plasmid-like properties

Summary. The International Committee on Taxonomy of Viruses (ICTV) recently accepted Endornavirus as a new genus of plant dsRNA virus. We have determined the partial nucleotide sequences of the RNA-dependent RNA polymerase regions from the large dsRNAs (about 14 kbp) isolated from barley (Hordeum vulgare), kidney bean (Phaseolus vulgaris), melon (Cucumis melo), bottle gourd (Lagenaria siceraria), Malabar spinach (Basella alba), seagrass (Zostera marina), and the fungus Helicobasidium mompa. Phylogenetic analyses of these seven dsRNAs indicate that these dsRNAs are new members of the genus Endornavirus that are widely distributed over the plant and fungal kingdoms.     

Genome Organization and Expression of the Penicillium stoloniferum Virus S

The complete sequences of two double-stranded RNAs (dsRNAs) (referred to S1 and S2) of Penicillium stoloniferum virus S (PsV-S) were established. The S1 dsRNA was 1,690bp in length, and it contained a unique open reading frame (ORF) of 539 amino acids (molecular weight of 62kDa, referred to P62). The S2 dsRNA was 1,523bp in length, and also it contained one ORF of 434 amino acids (molecular weight of 47kDa, referred to P47). Both S1 and S2 ORFs were identified only on the positive strand of each dsRNA segment. A sequence motif of (5-CUG-3) was found at the 3-termini of the positive strands of PsV-S1 and S2 dsRNAs. The predicted amino acid sequences of S1 dsRNA showed high sequence homology with the putative RNA-dependent RNA polymerases of RNA viruses. Near full-length and positive-sense single-stranded RNAs derived from the S1 and S2 dsRNAs were detected from the PsV-infected host cell. The expressed proteins of P62 and P47 showed a positive reaction against PsV-S antiserum in Western blot analysis. Phylogenetic analysis using the RDRP sequences and the capsid proteins of the various partitiviruses revealed that PsV-S is a definite member of the partitivirus, the family Partitiviridae, and especially clusters well along with D. destructiva virus 1 and 2.     

A double-stranded RNA as the genome of a potential virus infecting <Emphasis Type="Italic">Vicia faba</Emphasis>

Preparations of double-stranded (ds) RNAs extracted from naturally infected Vicia faba Linn. growing in Hangzhou, Zhejiang Province, Eastern China displayed 3 dominant bands (FaR1, FaR2, and FaR3). FaR2 and FaR3 were found to be identical to the genomic dsRNAs of a recently reported Vicia cryptic virus (VCV). The positive strand of FaR1 contained two large open reading frames (ORFs), ORF1 and ORF2. The putative proteins encoded by these ORFs were found to have certain similarities to the putative capsid protein [ABO36237] and RNA-dependent RNA polymerase [ABC96788], respectively, of Tomato yellow stunt virus. Thus, FaR1 may represent the genome of a new dsRNA virus, which we have named Vicia cryptic virus M. The GenBank Accession numbers of the sequences reported in this paper are EU605883, EU605884, and EU371896.     

Complete nucleotide sequence of double-stranded RNA viruses from <Emphasis Type="Italic">Fusarium graminearum</Emphasis> strain DK3

The complete genomes two different dsRNA mycoviruses, Fusarium graminearum virus 3 (FgV3) and Fusarium graminearum virus 4 (FgV4), was sequenced and analyzed. The viral genome of FgV3 is 9,098 base pairs (bp) long and contains two open reading frames (ORF) encoding a putative RNA-dependent RNA polymerase (RdRp) and a protein of unknown function. The FgV4 genome is composed of two dsRNA genome segments of 2,383 bp and 1,739 bp. FgV4 dsRNA-1 contains a single ORF, which has a conserved RdRp motif, while FgV4 dsRNA-2 contains two putative ORFs coding for products of unknown function. Both the genome organization and phylogenetic analysis indicated that FgV3 was closely related to members of the families Totiviriridae and Chrysoviridae, but it was placed outside of their main clusters, whereas FgV4 formed a distinct clade with the family Partitiviridae. This is the first report of the full-length nucleotide sequences of FgV3 and FgV4 infecting Fusarium graminearum.     

Sequence diversity of readthrough proteins of <Emphasis Type="Italic">Soybean dwarf virus</Emphasis> isolates from the Midwestern United States

The amino acid sequence diversity of readthrough proteins (RTPs) of 24 dwarfing isolates of Soybean dwarf virus (SbDV) from Wisconsin and Illinois was analyzed. The RTP, a minor component of viral capsids, has a significant role in specificity of aphid transmission of luteovirids. Among the isolates, nucleotide sequence identities ranged from 95 to 100%. The predicted amino acid sequences differed at 56 amino acid positions in the 54 kDa RTD compared to only five positions in the 22 kDa CP. Phylogenetic analysis of both amino acid and nucleotide sequences showed three distinct clusters of SbDV isolates. The GenBank accession numbers of the sequence reported in this paper are EU095846, EU095847, and EU419570–EU419584.     

Nucleotide sequence relationships of double-stranded RNAs in flax rust,Melampsora lini

Flax rust, Melampsora lini strain SP6, contains 11 double-stranded (ds) RNA molecules with a total length of about 25 kbp. The dsRNAs are inherited in three genetic units: the L unit comprising a single 5.2 kbp dsRNA and contained within a 40-nm virus-like particle, and the A and B units each consisting of five dsRNAs (A1–A5, and B1–B5) ranging in size from 1.2 to 2.7 kbp. This paper reports the isolation of a cDNA library representing 10 of the 11 dsRNAs. By nucleic-acid hybridization techniques it has been shown that all ten sequences are unique showing no detectable cross-hybridization with any other dsRNA present in the rust. A near fulllength sequence of 1932 bp of the B3 dsRNA is reported and contains several open reading frames, the largest of which comprises most of the molecule.     

Molecular characterization of a new begomovirus infecting Sida cordifolia and its associated satellite DNA molecules

Two virus isolates Hn57 and Hn60 were obtained from Sida cordifolia showing mild upward leaf-curling symptoms in Hainan province of China. Comparison of partial sequences of DNA-A like molecule confirmed the existence of a single type of begomovirus. The complete nucleotide sequence of DNA-A of Hn57 was determined to be 2757 nucleotides, with a genomic organization typical of begomoviruses. Complete sequence comparison with other reported begomoviruses revealed that Hn57 DNA-A has the highest sequence identity (71.0%) with that of Tobacco leaf curl Yunnan virus. Consequently, Hn57 was considered to be a new begomovirus species, for which the name Sida leaf curl virus (SiLCV) is proposed. In addition to DNA-A molecule, two additional circular single-stranded satellite DNA molecules corresponding to DNAβ and DNA1 were found to be associated with SiLCV isolates. Both DNAβ and DNA1 were approximately half the size of their cognate genomic DNA. Sequence analysis shows that DNAβ of Hn57 and Hn60 share 93.8% nucleotide sequence identity, and they have the highest sequence identity (58.5%) with DNAβ associated with Ageratum leaf curl disease (AJ316027). The nucleotide sequence identity between DNA1 of Hn57 and that of Hn60 was 83.8%, they share 58.2–79.3% nucleotide sequence identities in comparison with other previously reported DNAl. The GenBank accession numbers of the sequences reported in this paper are AM050730-35.