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.     

A new putative alphapartitivirus recovered from the powdery mildew fungus <Emphasis Type="Italic">Erysiphe palczewskii</Emphasis>

Two double-stranded RNAs (dsRNA) likely representing the genome of a novel alphapartitivirus which we provisionally named Erysiphe palczewskii alphapartitivirus 1 (EpV1) were recovered from the powdery mildew fungus E. palczewskii infecting Sophora japonica in Jingzhou, Hubei province of China. The two dsRNAs, 1955 (dsRNA1) and 1917 (dsRNA2) bp in size, respectively, each contains a single open reading frame (ORF) encoding a 585- and 528-aa protein, respectively. The 585-aa protein contains a conserved RNA-dependent RNA polymerase (RdRp) domain and shows significant homology to RdRps of approved or putative partitiviruses, particularly those belonging to the genus Alphapartitivirus. However, it shares an aa sequence identity lower than 80% with its closest relative, the RdRp of the putative alphapartitivirus Grapevine partitivirus, and lower than 60% with the RdRps of other partitiviruses. In a phylogenetic tree constructed with RdRp aa sequences of selected partitiviruses, the putative virus EpV1 clustered with Grapevine partitivirus and formed a well-supported monophyletic clade with known or putative alphapartitiviruses.     

Origin,Adaptation and Evolutionary Pathways of Fungal Viruses

Fungal viruses or mycoviruses are widespread in fungi and are believed to be of ancient origin. They have evolved in concert with their hosts and are usually associated with symptomless infections. Mycoviruses are transmitted intracellularly during cell division, sporogenesis and cell fusion, and they lack an extracellular phase to their life cycles. Their natural host ranges are limited to individuals within the same or closely related vegetative compatibility groups. Typically, fungal viruses are isometric particles 25–50 nm in diameter, and possess dsRNA genomes. The best characterized of these belong to the family Totiviridae whose members have simple undivided dsRNA genomes comprised of a coat protein (CP) gene and an RNA dependent RNA polymerase (RDRP) gene. A recently characterized totivirus infecting a filamentous fungus was found to be more closely related to protozoan totiviruses than to yeast totiviruses suggesting these viruses existed prior to the divergence of fungi and protozoa. Although the dsRNA viruses at large are polyphyletic, based on RDRP sequence comparisons, the totiviruses are monophyletic. The theory of a cellular self-replicating mRNA as the origin of totiviruses is attractive because of their apparent ancient origin, the close relationships among their RDRPs, genome simplicity and the ability to use host proteins efficiently. Mycoviruses with bipartite genomes (partitiviruses), like the totiviruses, have simple genomes, but the CP and RDRP genes are on separate dsRNA segments. Because of RDRP sequence similarity, the partitiviruses are probably derived from a totivirus ancestor. The mycoviruses with unencapsidated dsRNA-like genomes (hypoviruses) and those with bacilliform (+) strand RNA genomes (barnaviruses) have more complex genomes and appear to have common ancestry with plant (+) strand RNA viruses in supergroup 1 with potyvirus and sobemovirus lineages, respectively. The La France isometric virus (LIV), an unclassified virus with multipartite dsRNA genome, is associated with a severe die-back disease of the cultivated mushroom. LIV appears to be of recent origin since it differs from its host in codon usage.     

Satellite and defective RNAs of Cryphonectria hypovirus 3-grand haven 2, a virus species in the family Hypoviridae with a single open reading frame

Cryphonectria parasitica hypovirus 3-Grand Haven 2 (CHV3-GH2) is the most recently characterized member of the Hypoviridae family of viruses associated with hypovirulence of the chestnut blight fungus. Isolates of CHV3-GH2 contain either three or four double-stranded (ds) RNAs that are visible on ethidium bromide-stained agarose or polyacrylamide gels. Only the largest dsRNA appears to be required for virus infectivity, and was characterized previously (C. D. Smart et al., 1999, Virology 265, 66-73). In this study, we report the cloning, sequencing, and analysis of the other three dsRNAs. Sizes of the accessory dsRNAs are 3.6 kb (dsRNA 2), 1.9 kb (dsRNA 3), and 0.9 kb (dsRNA 4), compared to 9.8 kb for the genomic dsRNA segment (dsRNA 1). All three accessory dsRNA species are polyadenylated on the 3'-end of one strand, as is genomic dsRNA. DsRNA 2 represents a defective form of dsRNA 1, with the 5'-terminal 1.4 kb derived from the 5'-end of dsRNA 1 and the 3'-terminal 2.2 kb from the 3'-end of dsRNA 1. A single major open reading frame (ORF) is evident from deduced translations of dsRNA 2. The deduced translation product is a 91-kDa protein that represents a fusion consisting of the entire N-terminal protease and the entire putative helicase domain. DsRNAs 3 and 4 represent satellite RNAs that share very little sequence with dsRNA 1 and 2. DsRNA 4 is 937 nucleotides, excluding the poly(A)(+). The first AUG of the polyadenylated strand of dsRNA 4 occurs eight residues in from the 5'-terminus and would initiate the largest ORF on dsRNA 4, with the coding capacity for a 9.4-kDa protein. Within the deduced ORF and approximately 100 nucleotides from the 5'-end of dsRNA 4 is a 22-base sequence that is identical to sequences found in the nontranslated leaders of dsRNAs 1 and 2. DsRNA 3 accumulation in infected cultures varied, but it was less abundant than dsRNA 4. DsRNA 3 was found to represent a head-to-tail dimer of dsRNA 4 linked by a poly(A)/(U) stretch of 40-70 residues.     

Molecular characterisation of two novel double-stranded RNA elements from <Emphasis Type="Italic">Phlebiopsis gigantea</Emphasis>

The incomplete sequences of two large, 10–12 kbp, double-stranded RNAs (dsRNAs) found in the TW-2 isolate of the saprophytic fungus, Phlebiopsis gigantea (Pg) are reported. Both PgV-TW2 dsRNA1 and dsRNA2 potentially encode fusion proteins which are apparently expressed by a translational frameshifting mechanism. The C-terminal region of both predicted proteins was 21% identical and contained the eight motifs conserved in RNA-dependent RNA polymerases of dsRNA mycoviruses and had highest similarity with members of the family Totiviridae, but possibly do not form virions. The remainder of the N-terminal protein sequences predicted from the PgV-TW2 dsRNA1 and dsRNA2 sequences and the 3′-terminal nucleotide sequences of both dsRNAs had no homology with one another or any sequence in the database suggesting that individually both may be members of novel families of mycoviruses. The nucleotide sequence data reported in this article has been assigned the accession numbers AM111O96 and AM111097 for PgV-TW2 dsRNA1 and PgV-TW2 dsRNA2 respectively.     

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.     

A novel double-stranded RNA mycovirus from Fusarium graminearum: nucleic acid sequence and genomic structure

Ten Fusarium graminearum isolates from China were screened for dsRNA mycoviruses. Five dsRNAs (2.4 to 3.5 kbp) were purified from isolate China 9, cloned, and sequenced. BLAST analysis showed that the proteins encoded by dsRNA1 possess motifs that are conserved in RNA-dependent RNA polymerases, dsRNA2 resembles the hypothetical protein encoded by dsRNA3 of Magnaporthe oryzae chrysovirus 1, dsRNA4 shares no significant similarity to any published protein, and dsRNA5 has a C2H2 zinc finger domain. Tandem mass spectrophotometry, surface protein labeling of virus-like particles, SDS-PAGE, and protein BLAST results supports the notion that three of the virus segments code for structural proteins, of which dsRNA3 possibly codes for the capsid protein. Relative quantitative RT-PCR studies of the 5 dsRNAs suggested that the segments are encapsidated separately in unequal amounts. Genomic structure and phylogenic studies support the possibility that this virus may be a candidate for the type species of a novel genus in the family Chrysoviridae.     

The complete genomic sequence of a novel mycovirus from Rhizoctonia solani AG-1 IA strain B275

The complete genome of a novel mycovirus, Rhizoctonia solani dsRNA virus 1 (RsRV1) was sequenced and analyzed. It is composed of two dsRNA genome segments, 2379 bp and 1811 bp in length, which were referred to as RsRV1-1 and RsRV1-2, respectively. RsRV1-1 contains a single open reading frame (ORF1), which has a conserved RNA-dependent RNA polymerase (RdRp) domain, whereas RsRV1-2 contains a single ORF2, which might encode a multifunctional protein. The genome organization of RsRV1 is similar to that of members of the family Partitiviridae. However, phylogenetic analysis indicated that RsRV1 formed a distinct clade together with three other unclassified viruses, suggesting that RsRV1 may belong to a new family of dsRNA mycoviruses. This is the first report of the full-length nucleotide sequence of a novel dsRNA mycovirus, RsRV1, infecting R. solani AG-1 IA strain B275, the causal agent of rice sheath blight.     

Molecular characterization and detection of Vicia cryptic virus in different Vicia faba cultivars

Summary After extraction of double-stranded (ds) RNAs from Vicia faba, dsRNA1 and dsRNA2 of Vicia cryptic virus (VCV), a member of the genus Alphacryptovirus (family Partitiviridae), were detected in six out of seven different cultivars by agarose gel electrophoresis. In attempts to sequence the complete VCV genome, the dsRNA1 and dsRNA2 sequences from a total of five different V. faba cultivars were determined. Analysis of these sequences indicated that V. faba cultivars contain almost indistinguishable VCV sequences. The larger dsRNA1 was 2012 bp in length and contained a major open reading frame (ORF) encoding a putative RNA-dependent RNA polymerase (RdRp). The smaller dsRNA2 was 1779 bp in length and comprised a single ORF on its plus-strand encoding the coat protein (CP). The sequences of the dsRNA1 and dsRNA2 ORFs shared highest amino acid sequence identities (84 and 56%, respectively) with the corresponding gene products of the alphacryptovirus white clover cryptic virus 1 (WCCV-1). The 5′-terminal untranslated regions of dsRNA1 and dsRNA2 of VCV were highly conserved and were strikingly similar to the corresponding regions of WCCV-1. RdRp amino acid sequence alignments revealed conserved motifs, which correlate with the phylogenetic clustering of the family Partitiviridae.     

A novel quadripartite dsRNA virus isolated from a phytopathogenic filamentous fungus, Rosellinia necatrix

Here we report the biological and molecular attributes of a novel dsRNA virus isolated from Rosellinia necatrix, a filamentous phytopathogenic fungus. The virus, termed Rosellinia necatrix quadrivirus 1 (RnQV1), forms rigid spherical particles approximately 45 nm in diameter in infected mycelia. The particles contain 4 dsRNA segments, dsRNA1 to dsRNA4, with a size range of 4.9 to 3.7 kbp, each possessing a single large ORF. A comparison of the virus-infected and -cured isogenic fungal strains suggested that RnQV1 infection has no appreciable phenotypic effects. Phylogenetic analysis using the dsRNA3-encoded RdRp sequence revealed that RnQV1 is more distantly related to quadripartite chrysoviruses than to monopartite totiviruses, and is placed in a distinct group from other mycoviruses. No significant sequence similarities were evident between known proteins and RnQV1 structural proteins shown to be encoded by dsRNA2 or dsRNA4. These suggest that RnQV1 is a novel latent virus, belonging to a new family.     

Complete nucleotide sequence of a South African isolate of Grapevine fanleaf virus

The complete sequences of RNA1 and RNA2 have been determined for a South African isolate of Grapevine fanleaf virus (GFLV-SAPCS3). The two RNAs are, respectively, 7,342 and 3,817 nucleotides in length, excluding the poly(A) tails. RNA1 has a large open reading frame (ORF) of 6,852 nucleotides and a 5′-UTR and a 3′-UTR of 243 and 244 nucleotides, respectively. RNA2 encodes for an ORF of 3,330 nucleotides and has the highest nucleotide identity (90.4 %) with GFLV-F13. The full length nucleotide sequence of GFLV-SAPCS3 RNA1 had the highest nucleotide identity (86.5 %) to the French isolate GFLV-F13. The 5′- and 3′-UTRs of GFLV-SAPCS3 RNA2 are 272 nucleotides and 212 nucleotides (nt) in length, respectively. The GFLV-SAPCS3 RNA2 5′-UTR is 32–53 nt longer compared to other GFLV isolates. The GFLV-SAPCS3 RNA2 5′-UTR is also more closely related to GFLV-GHu and Arabis mosaic virus (ArMV) isolates than to other GFLV isolates. Putative intra- and interspecies recombination events between GFLV and ArMV isolates involving GFLV-SAPCS3 RNA1 and RNA2 were investigated. Recombination analysis software has indicated that the GFLV-SAPCS3 5′-UTR might have evolved from a recombinational event between GFLV-F13-type and ArMV-Ta-type isolate.     

A novel mycovirus from Clitocybe odora

The Ninth Report of the International Committee on Taxonomy of Viruses (ICTV) reports only a few species whose members replicate in fungi. Most of these mycoviruses are described to replicate in phytopathogenic and commercially cultivated fungi. A few reports describe virus-like symptoms and virus-like particles in non-cultivated basidiocarps such as Boletus edulis, Laccaria spp. and Cantharellus spp. However, viral sequences from non-cultivated Agaricomycotina are not available yet. In this report, I present a partial sequence of a virus found in Clitocybe odora (Bull.:Fr.) P. Kumm var. odora coding for a putative RNA-dependent RNA polymerase (RdRp) and a small 20-kDa ORF that may encode a coat protein (CP). The sequence of the putative RdRp (ORF 1) of C. odora clusters with those of the Tanathephorus cucumeris virus RdRp and the Tuber aestivum mitovirus RdRp. In addition to sequence homology, Tanathephorus cucumeris virus shows a similar codon usage and TA content in the 5'- and 3' non-translated regions, but it does not encode a putative CP. A viral DNA form proposed for Tanathephorus cucumeris virus was not found in Clitocybe odora. This viral sequence does not fit into any of the existing virus taxa.     

Coding properties of the S and the M genome segments of Sapporo rat virus: comparison to other causative agents of hemorrhagic fever with renal syndrome

Three serologically distinct groups of hantaviruses have been associated with severe, moderate, and mild forms of hemorrhagic fever with renal syndrome (HFRS). To gain a better understanding of the genetic variation among these viruses, we cloned and sequenced the M and the S genome segments of Sapporo rat virus, an etiologic agent of moderate HFRS, and compared the predicted gene products to those of Hantaan virus, and the H?lln?s strain of Puumala virus, which are etiologic agents of severe and mild HFRS, respectively. The SR-11 S segment consisted of 1769 nucleotides and had an open reading frame (ORF) in the virus-complementary sense RNA with a coding capacity of 429 amino acids. Deduced amino acids from the SR-11 S segment ORF displayed 83% homology with those of Hantaan nucleocapsid (N) protein. Comparison of the S segment ORFs of all three viruses revealed 58% homology. No evidence for additional nonstructural protein(s) encoded by the SR-11 S segment was obtained. The SR-11 M segment consisted of 3651 nucleotides and had an ORF in the virus-complementary sense RNA with a coding capacity of 1134 amino acids. Amino acid sequences predicted from the SR-11 M segment ORF were 75% homologous with those encoding Hantaan G1 and G2 envelope glycoproteins. Comparison of the deduced amino acid sequences of the M segment ORFs of SR-11, Hantaan, and H?lln?s viruses revealed a 43% homology for amino acids constituting the G1 proteins and a 55% homology for amino acids constituting the G2 proteins of the three viruses. The envelope proteins of SR-11 virus were localized within the M segment ORF by amino-terminal sequence analysis of purified G1 and G2. G1 initiated at amino acid 17 and G2 at amino acid 647 within the ORF. Five potential asparagine-linked glycosylation sites were identified in the SR-11 G1 coding sequences, four of which were conserved between Hantaan and SR-11 viruses and three of which were conserved among all three viruses. One potential glycosylation site was identified in the SR-11 G2 coding sequences and was conserved among Hantaan, SR-11 and H?lln?s viruses. Cysteine residues were highly conserved within the M segment ORFs of all three viruses, suggesting a similar structure and function of the G1 and G2 proteins.     

Cryphonectria hypovirus 3, a virus species in the family hypoviridae with a single open reading frame

Isolate Grand Haven (GH) 2 is a naturally occurring isolate of the chestnut blight fungus, Cryphonectria parasitica, that is greatly reduced in virulence due to the presence of a double-stranded RNA virus. Unlike many other virus-infected, hypovirulent isolates, GH2 is not substantially reduced in pigmentation, conidiation, or laccase expression compared to its virus-free counterpart. The dsRNA genome of the GH2 virus was cloned, sequenced, and compared to hypovirulence-associated viruses of the family Hypoviridae. GH2 dsRNA is considerably smaller than previously characterized members of the family, 9.8 kb compared to 12.5-12.7 kb for other members. The genome organization of GH2 dsRNA reflected the substantial difference in genome size. Like other members of the family, one strand contained a poly(A)(+) tail at the 3' end and a long sequence with several minicistrons at the 5' end of the same strand. Only a single open reading frame (ORF) of 8622 nucleotides was predicted from deduced translations of the poly(A)(+)-containing strand, however. This contrasts with the two-ORF structures of previously characterized members. Analysis of the deduced ORF of GH2 dsRNA revealed putative proteinase, RNA polymerase, and helicase domains similar to those previously identified in confirmed members of the virus family Hypoviridae. GH2 dsRNA was more distantly related to Cryphonectria hypovirus (CHV) 1-EP713 and CHV2-NB58 than the latter two were to each other but has features in common with each of those viruses. We propose that the GH2 virus be included in this taxon as a member of the genus Hypovirus, representing a strain of a new species, CHV3.     

A novel alphapartitivirus detected in Japanese pear

Pyrus pyrifolia cryptic virus (PpCV) had been previously reported from Japanese pear (Pyrus pyrifolia). In analyses of Japanese pear, two other double-stranded (ds) RNA molecules (dsRNA4 and 5) were observed along with the three dsRNA segments from PpCV on an electrophoretic profile of isolated dsRNA. When the purified dsRNA sample was deep sequenced by a next-generation sequencer, two de novo assembled contigs corresponding to dsRNA4 and 5, with predicted amino acid sequences showing homologies to the RNA-dependent RNA polymerase and the capsid protein of Rose partitivirus, respectively, were found by BLAST analysis. The relationships between the two contigs and dsRNA4, 5 were confirmed by northern blot analyses with probes amplified using primers designed from the contigs. Terminal sequence analyses by rapid amplification of cDNA ends revealed that dsRNA4 and 5 were 1945 and 1788 bp long, respectively. The 5′ terminal sequences (GUCAAAUU) of dsRNA4 and 5 were conserved. Based on genome size and phylogenetic analyses, the newly found virus is thought to be a member of the genus Alphapartitivirus. Thus, it has been designated as Pyrus pyrifolia partitivirus 2.     

Nucleotide sequence of a Thai isolate of Papaya ringspot virus type W

The complete nucleotide sequence of a Thai isolate of Papaya ringspot virus (PRSV) type W (PRSV-W) was determined. The viral genome is 10,323 nucleotides (nts) long and contains an ORF encoding polyprotein 3,343 amino acids (aa) long, flanked with 5'- and 3'-non-coding regions (NCRs) of 85 and 206 nts, respectively. Out of the ten putative proteins P1 is the most variable (73.9% similarity) as compared to the PRSV type P (PRSV-P) sequences, while the CI protein is most conserved (99.1% similarity). The sequence similarity among the type W and P isolates also suggests that the P type arose from the W type. However, no significant difference between types P and W that would account for the host specificity was disclosed.     

Curing viruses in Pleurotus ostreatus by growth on a limited nutrient medium containing cAMP and rifamycin

Oyster mushroom spherical virus (OMSV) and oyster mushroom isometric virus (OMIV) are the causative agents of a fruiting body deformation disease in the edible mushroom Pleurotus ostreatus. The curing of these mycoviruses was facilitated by a serial transfer of infected mycelia onto a limited nutrient medium containing 1mM of cAMP and 75 μg/ml of rifamycin (cAMP-rifamycin plate). The mycelia were grown on cAMP-rifamycin plates for 5 successive passages. ELISA and RT-PCR showed that the amount of mycoviruses inside the mycelia decreased significantly with increasing numbers of passages. The mycelia became free of viruses after 5 successive passages. Cultivation of the virus-cured mycelia on a mushroom compost medium produced a normal harvest, whereas the spawn infected with viruses failed to produce any fruiting bodies.     

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.