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.     

An endornavirus from a hypovirulent strain of the violet root rot fungus, Helicobasidium mompa

We determined the complete nucleotide (nt) sequence (16,614 nt) of a large double-stranded (ds) RNA (referred to as L1 dsRNA), previously identified as the hypovirulence factor from strain V670 of the violet root rot fungus, Helicobasidium mompa. The positive-strand of L1 dsRNA contained a long open reading frame (ORF) potentially encoding a protein of 5,373 amino acids (molecular mass 603,080 Da) with conserved motifs characteristic of RNA-dependent RNA polymerase (RdRp) and helicase. The ORF is the longest so far reported in the fungal kingdom. The putative RdRp and helicase were shown to be related to putative RdRps and helicases of members of the genus Endornavirus. As is the case with endornaviruses, the coding (sense) strand of L1 dsRNA contained a discontinuity (nick) at nt position 2,552. A region between the RdRp and helicase domains of the polyprotein also had an amino acid sequence, resembling UDP glycosyltransferases (UGTs) in Oryza sativa endornavirus and Phytophthora endornavirus 1. Regions in the L1 dsRNA-encoded protein presumed to contain putative helicase, UGT and RdRp motifs were present at comparable positions to those in other endornaviruses. L1 dsRNA of H. mompa strain V670 was assigned to the genus Endornavirus, and here, we designate it as H. mompa endornavirus 1-670 (HmEV1-670). This represents the first report of a fungal endornavirus whose complete nucleotide sequence has been determined.     

Molecular characterization of a dsRNA totivirus infecting the sclerotial parasite Coniothyrium minitans

The complete nucleotide sequence, 4975 bp, of the double-stranded RNA (dsRNA) mycovirus infecting the sclerotial parasite Coniothyrium minitans (CmRV) was determined. Sequence analysis revealed the occurrence of two overlapping open reading frames (ORFs): the 5'-proximal large ORF (ORF1; nucleotide positions 62-2389) encodes a putative coat protein (CP) with a predicted molecular mass of 80344 Da, and the 3'-proximal ORF (ORF2, nucleotide positions 2386-4875) encodes a putative RNA dependent RNA Polymerase (RdRp) with a predicted molecular mass of 82551 Da. The tetranucleotide AUGA at nucleotide positions 2386-2389 includes the predicted start codon of ORF2, which overlaps with the stop codon for ORF1. Based on genome organization and sequence analysis encoded proteins, the virus infecting C. minitans strain Chy-1, designated C. minitans RNA virus (CmRV), belongs to the family Totiviridae. Pairwise sequence comparisons of the deduced amino acid sequences encoded by CmRV as well as phylogentic analysis indicated that it is more closely related to the totiviruses that infect filamentous fungi than to those infecting protozoa, yeast and smut fungi. The role of CmRV in the abnormal phenotype associated with a variant of C. minitans is discussed.     

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.     

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.     

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.     

Complete sequence of the Pepino mosaic virus RNA genome

We have determined the complete nucleotide sequence (Accession No. AF484251) of the Pepino mosaic virus (PepMV) RNA genome. PepMV is the etiological agent of a new disease which affects tomato crops in Europe and North America. The PepMV genome consists of one single stranded positive sense RNA 6410 nt long that contains five open reading frames (ORFs). ORF 1 is the putative RNA dependent RNA polymerase (RdRp), as it has the characteristic methyltransferase, NTP-binding and polymerase motifs. ORF 2 to 4 form the PepMV triple gene block. ORF 5 codes for the capsid protein. Two short untranslated regions flank the coding regions and there is a poly(A) tail at the 3'end of the genomic RNA. Thus, the genome organization of PepMV is that of a typical member of the genus Potexvirus. The nucleotide sequence obtained shares an overall 99% identity with the genomic RNA of a PepMV isolate from UK which has been partially sequenced. Protein coded by ORF4 is the least conserved between both isolates (95% amino acid identity), whereas proteins coded by ORF3 and ORF5 are identical.     

The complete nucleotide sequence and genome organization of Fig cryptic virus,a novel bipartite dsRNA virus infecting fig,widely distributed in the Mediterranean basin

Two double-stranded RNA (dsRNA) segments of a virus with a bipartite genome identified in fig (Ficus carica L.) and denoted Fig cryptic virus (FCV) were cloned and sequenced. Viral dsRNAs are 1696 bp (RNA-1) and 1415 bp (RNA-2) in size. RNA-1 contains a single ORF (1419 nt) potentially encoding a 54 kDa protein and comprising the conserved amino acid motifs of the RNA-dependent RNA polymerase (RdRp) domain of species of the genus Alphacryptovirus. Its full-length amino acid sequence has the highest identity with Raphanus sativus cryptic virus 2 (RsCV-2) (36%), Beet cryptic virus 3 (BCV-3) (36%) and Fragaria chiloensis cryptic virus (FCCV) (34%). RNA-2 has also a single ORF (1014 nt) coding for a polypeptide with a predicted molecular mass of 38 kDa, identified as the viral coat protein (CP). In a phylogenetic tree constructed with the amino acid sequences of the RdRp domain, FCV clusters in a clade comprising BCV-3 and a number of tentative species of the genus Alphacryptovirus. FCV is not mechanically transmissible. It was detected in fig orchards of six Mediterranean countries (Albania, Algeria, Italy, Lebanon, Syria and Tunisia) where it does not seem to induce a visible disease.     

A totivirus infecting the mutualistic fungal endophyte Epichloë festucae

Epichlo? festucae (Ascomycota) infects the grass Festuca rubra. Infected plants may be more resistant to herbivores and obtain other benefits. The 5109bp dsRNA genome of a virus which infects E. festucae was sequenced, and its incidence in natural populations and transmission were studied. The viral genome has characteristics of the family Totiviridae. Its two ORFs are overlapped by four nucleotides; ORF1 codes a 765 amino acid putative coat protein (CP); ORF2 is in a -1 frameshift with respect to ORF1, and codes a 826 amino acid RNA dependent RNA polymerase (RdRp). This virus, denominated Epichlo? festucae virus 1 (EfV1), is closely related to members of the genus Totivirus which infect filamentous fungi, as deduced from phylogenetic analyses of CPs and RdRps. In two natural populations of Epichlo? festucae, 36.4% of the isolates were infected by EfV1. The virus was efficiently transmitted to asexual fungal spores. However, when ascospore progeny of matings between virus-free and infected strains was analyzed, it was found that the virus was not transmitted to progeny of sexual spores.     

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.     

Characterization of a novel single-stranded RNA mycovirus in Pleurotus ostreatus

A mycovirus, named oyster mushroom spherical virus (OMSV), was isolated from cultivated oyster mushrooms with a severe epidemic of oyster mushroom Die-back disease. OMSV was a 27-nm spherical virus encapsidating a single-stranded RNA (ssRNA) of 5.784 kb with a coat protein of approximately 28.5 kDa. The nucleotide sequence of the virus revealed that its genomic RNA was positive strand, containing 5784 bases with seven open reading frames (ORF). ORF1 had the motifs of RNA-dependent RNA polymerases (RdRp) and helicase. ORF2 encoded a coat protein. ORF3 to 7 could encode putative polypeptides of approximately 12, 12.5, 21, 14.5, and 23 kDa, respectively, but none of them showed significant similarity to any other known polypeptides. The 5' end of the viral RNA was uncapped and the 3' end was polyadenylated with 74 bases. Genomic structure and organization and the derived amino acid sequence of RdRp and helicase domain were similar to those of tymoviruses, a plant virus group.     

Searching for a New Putative Cryptic Virus in Pinus sylvestris L

Double-stranded RNAs (dsRNAs) were detected in different pine populations in Germany and Hungary. Two dsRNA species of 1.5 and 1.58 kbp, respectively, persisted in the same trees for at least 2 years and their presence was not associated with any symptoms. The dsRNAs were found to sediment in the VLP (virus-like particles) fraction and to be protected by protein(s) against RNase A digestion at low salt. cDNA cloning and sequencing of the smaller segment (dsRNA2) led to the identification of a putative RNA-dependent RNA-polymerase (RdRp) containing the GDD, as well as three other, conserved motifs. Sequence comparison with different RNA viruses and phylogenetic analysis indicates that the putative RdRp from pine shows highest similarity to the homologous proteins of Beet cryptic virus 3 and of a cryptic virus of Pyrus pyrifolia. On the basis of these results we suggest that the 1.5 and 1.58 kbp dsRNAs in P. sylvestris may represent the genomic segments of a new plant cryptic virus, Cryptoviruses have not yet been reported to occur in Gymnosperms.     

Three unrelated viruses occur in a single isolate of Gremmeniella abietina var. abietina type A

Five enclosed double-stranded RNA (dsRNA) bands in electrophoresis, probably of viral origin, were found from a single isolate (SurS4) of Gremmeniella abietina var. abietina type A. Analysis of the dsRNAs revealed that they represented three different viruses, named as Gremmeniella abietina mitochondrial RNA virus S2 (GaMRV-S2), Gremmeniella abietina RNA virus MS2 (GaRV-MS2) and Gremmeniella abietina RNA virus L2 (GaRV-L2). The genome of GaMRV-S2 was 2587 base pairs (bp) long and had a very low GC content (31%). Sequence variations occurred at both ends. The genome coded for a putative RNA-dependent RNA polymerase (RdRp) under a mitochondrial translation code. The GaRV-MS2 genome was composed of three dsRNA molecules (1781 bp, 1586 bp and 1186 bp). They coded for a putative RdRp, a coat protein (CP) and a protein with an unknown function, respectively. The GaRV-L2 genome was 5129 bp long and contained two ORFs. The 5′-proximal ORF coded for a putative CP, whereas the 3′-proximal ORF encoded for a putative RdRp. The buoyant density of GaRV-MS2 and GaRV-L2 were 1.37 and 1.42 g/ml, respectively. GaMRV-S2, GaRV-MS2 and GaRV-L2 were closely related to the previously described viruses GaMRV-S1, GaRV-MS1 and GaRV-L1, respectively, and are putative members of the genera Mitovirus, Partitivirus and Totivirus, respectively. This is the first report on the occurrence of viruses of all these different genera in a single fungal isolate.     

Human group C rotavirus: completion of the genome sequence and gene coding assignments of a non-cultivatable rotavirus

Genome segments 1 and 2 of human group C rotavirus 'Bristol' strain were sequenced and their gene-protein coding properties assigned. This work completed the genome sequence of a human group C rotavirus (17,910 bp) and allowed the full gene-protein coding assignment of the 11 segments of dsRNA. Gene 1 is 3309 bp in size and contains a single ORF of 3272 nucleotides, encoding a protein of 1090 amino acids in length with a predicted molecular mass of 125 kDa. Comparison of the translated sequence with cognate published mammalian group A, B and C rotavirus sequences showed 45.2, 26.4 and 92.6% identity, respectively. The sequence contains conserved amino acid motifs including the classic RNA-dependent RNA polymerase motif GDD, indicating that segment 1 encodes the group C rotavirus polymerase protein. Gene 2 is 2736 bp in size and contains a single ORF of 2655 nucleotides encoding a protein of 884 amino acids in length with a calculated molecular mass of 102 kDa. Database searches showed highest homology with VP2, the main structural component of the 'core' from group A rotaviruses (46% identity). Alignment of the human group C and A rotavirus VP2 proteins revealed several characteristics common to nucleic acid binding proteins. However, these features were not shared with group B rotavirus VP2.     

Mycoviruses infecting the endophytic and entomopathogenic fungus Tolypocladium cylindrosporum

A mixed virus infection in a strain of the endophytic and entomopathogenic fungus Tolypocladium cylindrosporum was deduced from a study of the transmission to conidia of several double-stranded RNA (dsRNA) elements. The transmission rates of each dsRNA were different, and monosporic isolates harbouring different combinations of the original set of six dsRNAs were obtained. A 5196 bp dsRNA element was sequenced and represents the genome of T. cylindrosporum virus 1 (TcV1), a new member of the genus Victorivirus in the Totiviridae family. This virus was transmitted to 81.4% of the conidia; in contrast, four dsRNAs of 3.1-3.7 kbp were transmitted only to 4.7% of the monosporic isolates obtained from the infected parental strain. These four dsRNAs did not show segregation during transmission, and one of them was shown by sequence analysis to encode an RdRp, suggesting that the four molecules might represent the whole genome of a quadripartite chrysovirus. A third possible virus with a genome of approximately 4.2 kbp was transmitted to 79.1% of the monosporic isolates produced by the infected strain. Ribavirin was used to cure T. cylindrosporum from viruses, and TcV1 was sensitive to this drug. All monosporic cultures derived from the infected strain treated with 80 and 100 μM concentrations of the drug were free of TcV1.     

The complete genomic sequence of a novel botybirnavirus isolated from a phytopathogenic <Emphasis Type="Italic">Bipolaris maydis</Emphasis>

Bipolaris maydis is the causal agent of corn southern leaf blight. Here, we report a novel double-stranded RNA (dsRNA) mycovirus designated Bipolaris maydis botybirnavirus 1 (BmBRV1) from B. maydis strain JZ11 in Jingzhou, Hubei province of China. BmBRV1 has a genome consisting of two dsRNAs (dsRNA1 and dsRNA2) with a size of 6435 and 5987 bp, respectively, each of which contains a single open reading frame (ORF). The two polyproteins encoded by dsRNA1 and dsRNA2 share the highest amino acid identities of 81.8 and 75.3%, respectively, with the RdRp and coat protein of Sclerotinia sclerotiorum botybirnavirus 1 (SsBRV1), a tentative species of the genus Botybirnavirus. Phylogenetic analysis based on the amino acid sequences of RdRp indicated that BmBRV1 belongs to a distinct species of the newly proposed family Botybirnaviridae.     

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.