Sequence analysis of RNA-2 of different isolates of broad bean wilt virus confirms the existence of two distinct species

Summary.  The complete nucleotide sequence of RNA-2 from a Japanese isolate IP of broad bean wilt virus (BBWV) was determined. The sequence encodes a single large polyprotein, which contains a putative movement protein and two coat proteins (CPs). The 3′-terminal sequences of RNA-2 were also determined for three other Japanese isolates and two ATCC isolates (PV132 and PV176) of BBWV. The CPs of the four Japanese isolates share 86.8–98.0% amino acid sequences homology with one another and 88.3–96.5% with those reported for the isolate PV131 (BBWV-2). However, they have only 57.9–66.2% homology with those of PV132 and PV176 (BBWV-1). Received December 7, 1998 Accepted February 23, 1999     

Complete genomic sequence of a Tobacco rattle virus isolate from Michigan-grown potatoes

Tobacco rattle virus (TRV) causes stem mottle on potato leaves and necrotic arcs and rings in potato tubers, known as corky ringspot disease. Recently, TRV was reported in Michigan potato tubers cv. FL1879 exhibiting corky ringspot disease. Sequence analysis of the RNA-1-encoded 16-kDa gene of the Michigan isolate, designated MI-1, revealed homology to TRV isolates from Florida and Washington. Here, we report the complete genomic sequence of RNA-1 (6,791 nt) and RNA-2 (3,685 nt) of TRV MI-1. RNA-1 is predicted to contain four open reading frames, and the genome structure and phylogenetic analyses of the RNA-1 nucleotide sequence revealed significant homologies to the known sequences of other TRV-1 isolates. The relationships based on the full-length nucleotide sequence were different from than those based on the 16-kDa gene encoded on genomic RNA-1 and reflect sequence variation within a 20–25-aa residue region of the 16-kDa protein. MI-1 RNA-2 is predicted to contain three ORFs, encoding the coat protein (CP), a 37.6-kDa protein (ORF 2b), and a 33.6-kDa protein (ORF 2c). In addition, it contains a region of similarity to the 3′ terminus of RNA-1, including a truncated portion of the 16-kDa cistron. Phylogenetic analysis of RNA-2, based on a comparison of nucleotide sequences with other members of the genus Tobravirus, indicates that TRV MI-1 and other North American isolates cluster as a distinct group. TRV M1-1 is only the second North American isolate for which there is a complete sequence of the genome, and it is distinct from the North American isolate TRV ORY. The relationship of the TRV MI-1 isolate to other tobravirus isolates is discussed.     

Molecular diversity of RNA-2 genome segments in pecluviruses causing peanut clump disease in West Africa and India

Summary.  The complete nucleotide sequence of RNA-2 genome segments of four isolates of Peanut clump virus (PCV) and two isolates of Indian peanut clump virus (IPCV) were determined. Comparisons among the complete RNA-2 sequences of six isolates from this study and two published earlier, revealed a high degree of variability in size (between 4290 and 4652 nucleotides) and nucleotide sequence identities (between 58 % and 79 %). Amino acid sequence alignments of the five open reading frames (ORF) showed that ORF 4, which encodes the second of the triple gene block proteins, is highly conserved (90 to 98 % identical) whereas the protein encoded by ORF 2, whose function is unknown, is less conserved (25 to 60 % identical). The coat protein of the eight isolates showed amino acid identities between 37 % and 89 % and contained several conserved residues. Phylogenetic comparisons, based on complete RNA-2 sequences, revealed that the eight isolates grouped into two distinct clusters with no geographical distinction between PCV and IPCV isolates. Phylogenetic tree topologies for individual ORFs showed an overall similarity with that obtained from entire RNA-2 sequences, although the relative positions of individual isolates vary within each cluster. The results indicate that there is substantial divergence among the RNA-2 genomes of pecluviruses and suggest that different proteins have evolved differently, possibly due to different selection pressures. Received May 8, 2002; accepted August 9, 2002     

Nucleotide sequence of both genomic RNAs of a North American tobacco rattle virus isolate

Summary.  The complete sequence of a North American tobacco rattle virus (TRV) isolate, ‘Oregon yellow’ (ORY), was determined from cDNA and RT-PCR clones derived from the two genomic RNAs of this isolate. The RNA-1 is 6790 bases and RNA-2 is 3261 bases. The sequence of TRV-ORY RNA-1 was similar to RNA-1 of TRV isolate SYM, and differs in 48 nucleotides. TRV-ORY RNA-1 was one base shorter than -SYM, and had 47 base substitutions resulting in 12 amino acid substitutions of which 4 were conservative. The RNA-2 of TRV-ORY was distinct from RNA-2 of other characterized TRV isolates and contained three open reading frames (ORFs) that could potentially code for proteins of MW 22.4 kDa, 37.6 kDa and 17.9 kDa. Based on the homology of the predicted amino acid sequence with those of other tobraviruses, ORF1 of RNA-2 encodes the coat protein (CP). The protein sequence of ORF2 had regions of limited similarity with those of ORF2 of two other TRV isolates and pea early browning tobravirus. The ORF3 was unique to TRV-ORY. Phylogenetic analysis of tobravirus CPs indicated that TRV-ORY was most closely related to pepper ringspot tobravirus and TRV-TCM. The relationship of tobravirus CPs to other rod-shaped tubular plant viruses vis also discussed. Accepted March 21, 1998     

Genome characterization of sugarcane yellow leaf virus from China reveals a novel recombinant genotype

Sugarcane yellow leaf virus (SCYLV; genus Polerovirus, family Luteoviridae) is a recombinant virus associated with yellow leaf disease, a serious threat to sugarcane in China and worldwide. Among the nine known SCYLV genotypes existing worldwide, COL, HAW, REU, IND, CHN1, CHN2, BRA, CUB and PER, the last five have been reported in China. In this study, the complete genome sequences (5,880 nt) of GZ-GZ18 and HN-CP502 isolates from the Chinese provinces of Guizhou and Hainan, respectively, were cloned, sequenced and characterized. Phylogenetic analysis showed that, among 29 SCYLV isolates described worldwide, the two Chinese isolates clustered together into an independent clade based on the near-complete genome nucleotide (ORF0-ORF5) or amino acid sequences of individual genes, except for the MP protein (ORF4). We propose that the two isolates represent a novel genotype, CHN3, diverging from other genotypes by 1.7-13.6 % nucleotide differences in ORF0-ORF5, and 2.7-28.1 %, 1.8-20.4 %, 0.5-5.1 % and 2.7-15.9 % amino acid differences in P0 (ORF0), RdRp (RNA-dependent RNA polymerase) (ORF1+2), CP (coat protein) (ORF3) and RT (readthrough protein) (ORF3+5), respectively. CHN3 was closely related to the BRA, HAW and PER genotypes, differing by 1.7-3.8 % in the near-complete genome nucleotide sequence. Recombination analysis further identified CHN3 as a new recombinant strain, arising from the major parent CHN-HN1 and the minor parent CHN-GD-WY19. Recombination breakpoints were distributed mostly within the RdRp region in CHN3 and the four significant recombinant genotypes, IND, REU, CUB and BRA. Recombination is considered to contribute significantly to the evolution and emergence of such new SCYLV variants.     

Strain diversity and conserved genome elements in <Emphasis Type="Italic">Strawberry mild yellow edge virus</Emphasis>

Summary. The complete nucleotide sequence of Strawberry mild yellow edge virus isolate D74, and the sequences of a 878nt region of the coat protein and flanking regions of twenty three isolates of SMYEV were obtained and analysed. The full sequence of the aphid transmissible strain D74 was deduced and found to have an 86% sequence identity to the non-transmissible Agrobacterium infectious MY18 strain. In contrast to isolate MY18 the 5 terminal nucleotides (GAAAAC) of D74 are typical of those from other potexviruses. However, both MY18 and D74 have a non-AUG initiation codon for ORF2 encoding the triple gene block protein 1 (TGB1), and an overlapping TGB3 and coat protein (CP), features unique in the Potexvirus genus. Other conserved features of the genome, including stem-loop structures in the untranslated regions, and motifs common to related viruses are described. The previously postulated ORF6 of MY18 is absent in twenty of the isolates sequenced, including D74. Phylogenetic analysis places all isolates in one of three distinct groups/strains named here I (type-D74), II (type-9Redland), and III (type-MY18), with the majority of isolates, including all European isolates tested, belonging to strain I (type-D74).     

The nucleotide sequence of Indian peanut clump virus RNA 2: sequence comparisons among pecluviruses

Summary.  The RNA-2 molecule of an isolate of the L serotype of Indian peanut clump virus (IPCV) was shown to consist of 4290 nucleotides with five open reading frames (ORF). The arrangement of the ORFs resembled that in RNA-2 of Peanut clump virus (PCV) from West Africa. The proteins encoded by the ORFs in IPCV-L RNA are between 32% and 93% identical to those encoded by PCV RNA. Partial sequence data for the RNA-2 of isolates of the H and T serotypes of IPCV show that the coat and P40 proteins encoded by the 5′-most ORFs of RNA-2 of IPCV-L, IPCV-H and IPCV-T are as similar to each other as any is to the corresponding proteins of PCV. A conserved motif ‘F-E-x₆-W’ is present near the C-termini of the coat proteins of all three IPCV serotypes and of PCV, as it is in the coat proteins of other viruses that have rod-shaped particles, such as Tobacco mosaic virus and Tobacco rattle virus. The results support the distinction of IPCV and PCV as separate virus species, but also raise the question of how the serotypes of IPCV should be classified. Received December 17, 1999/Accepted March 15, 2000     

Comparative study on genomes of two Japanese melon necrotic spot virus isolates

Nucleotide sequences of the genomes of two Japanese Melon necrotic spot virus (MNSV) isolates, NH and NK were determined. The open reading frames (ORFs) in both genomes encode five proteins: p29 (the pre-readthrough domain of p89), p89 (the readthrough domain of p89 identified as the putative RNA-dependent RNA polymerase), p14 (the pre-readthrough domain of p7A), p7A (the putative movement protein), and p42 (coat protein, CP). Nucleotide and amino acid sequence identities of the five proteins of NH and NK isolates were estimated at 97.4-99.5% and 97.7-100%, respectively. NK isolate but not NH isolate infected systemically leaves of Cucumis melo plants. When deduced amino acid sequences of p7A proteins of NH and NK isolates were compared, only one difference at position 16 (serine in NH isolate and isoleucine in NK isolate) was observed. p7A protein is considered the putative movement protein. The serine of p7A protein of NH isolates may be involved in systemic infection. In addition, phylogenetic relationships of genes based on nucleotide sequences revealed that NH and NK isolates might form a group, and S isolate, serologically different from NH and NK isolates, might represent a distinct isolate not belonging to this group.     

Sequence and phylogenetic analysis of the RNA1 and RNA2 segments of Korean <Emphasis Type="Italic">Rice stripe virus</Emphasis> isolates and comparison with those of China and Japan

Rice stripe virus (RSV) is one of the most destructive pathogens of rice plants in East Asia. The RSV genome consists of four single-stranded RNA segments. We have determined and compared the complete nucleotide sequences of the RNA1 and RNA2 segments and the deduced amino acid sequence of each ORF of the 13 Korean RSV isolates and established their relationships with reported RSV sequences from China and Japan. Our results showed that the average percent nucleotide divergence based on the full-length genome is higher in RNA2 (2.2%) than in RNA1 (2.0%). The average percent amino acid variation of the RNA-dependent RNA polymerase (RdRp), glycoprotein and NS2 genes encoded by viral complementary (vc) RNA1, viral RNA2 and vcRNA2, showed 2.8, 2.5 and 6.46%, respectively. On the other hand, the average percent nucleotide variation in the intergenic region (IGR) of RNA2 among the 13 Korean-RSV isolates was 3.5%. Phylogenetic analysis of the 13 Korean, 1 Japanese and 5 Chinese isolates based on their complete nucleotide sequences revealed two distinct types of RNA1 and three distinct types of RNA2. Most Chinese isolates grouped with one of the RNA1 types, but they were distributed among the three types when grouped by RNA2. Japanese isolate T was grouped with Korean isolates into one of the RNA1 and RNA2 genotypes. Taken together, our results suggest that the RSV population in Korea consists of mixtures of RNA1–RNA4 genome segments originating from distinctive ancestors, most likely due to either reassortment or recombination events among isolates.     

Genome segment RNA-1 of a flat apple isolate of <Emphasis Type="Italic">Cherry rasp leaf virus</Emphasis>: nucleotide sequence analysis and RT-PCR detection

Summary. The sequence of the RNA-1 of a flat apple isolate of Cherry rasp leaf virus (CRLV-FA) was determined using overlapping cDNA fragments. CRLV-FA RNA-1 consists of 6992 nucleotides (nt), excluding a 3′ poly (A) tail. A single open reading frame (ORF) consisting of 6705 nt was identified. This ORF encodes a putative polyprotein consisting of 2235 amino acid (aa) residues, approximately 249.6 kDa. When compared to CRLV-pot (potato isolate) RNA-1 ORF, 2 deletions of 5 aa and 10 aa (total 15 aa) were observed at the variable N-terminus of the protease cofactor of CRLV-FA. Non-coding regions were identified at the 5′-(142 nt) and 3′-end (145 nt). CRLV-FA and CRLV-pot are isolates of the same virus with identity levels for the RNA-1 associated nt and deduced aa of 94% and 95%, respectively. RT-PCR targeting CRLV-FA RNA-1 appear to be of similar sensitivity and just as reliable as RT-PCR targeting RNA-2.     

Sequence analysis of grapevine isolates of Raspberry ringspot nepovirus

Summary. The nucleotide sequences of RNAs 1 and 2 of a German isolate of Raspberry ringspot virus (RpRSV) infecting grapevine (RpRSV-Grapevine), as well as partial sequences of another grapevine isolate from Switzerland (RAC815) were determined. The sequences of the protease-polymerase region encoded by RNA1, and the movement protein and coat protein genes encoded by RNA 2, of these isolates were compared with those of other isolates available in databases. The coat proteins of the grapevine isolates formed a sister group to all those from other RpRSV isolates, but whether this resulted from divergence or recombination was uncertain.     

Characterization of a flowering cherry strain of <Emphasis Type="Italic">Cherry necrotic rusty mottle virus</Emphasis>

The host range and complete nucleotide sequences of two Cherry necrotic rusty mottle virus (CNRMV) isolates (FC4 and FC5) infecting flowering cherry accessions imported from Japan are described. Of the plants tested, cherry, peach, apricot and almond became infected, but only sweet cherry cv. ‘Canindex’, Nanking cherry and apricot cv. ‘Tilton’ showed a mild foliar mottle. The genomic sequences of CNRMV-FC4 and CNRMV-FC5 are 8,430 and 8,429 nt in length, excluding the 3′ poly (A) tail. They contain seven open reading frames encoding for a putative virus replicase, “triple gene block” proteins, a coat protein and two proteins with unknown functions. The two CNRMV-FC isolates share 96% identity in the genomic sequences, and their genome organizations are virtually identical to that of a German CNRMV isolate (CNRMV-GER). However, they differ from CNRMV-GER by 14% in the overall nucleotide sequence and 2% (ORF2) to 30% (ORF5a) in the derived amino acid sequences of individual gene products.     

Genome sequence and phylogenetic analysis of a novel comovirus from tabasco pepper (Capsicum frutescens)

A virus isolate from tabasco pepper (Capsicum frutescens) has been reported as a strain of the comovirus Andean potato mottle virus (APMoV). Using the replicative intermediate viral dsRNA, the pepper virus strain was sequenced by Illumina MiSeq. The viral genome was de novo assembled resulting in two RNAs with lengths of 6028 and 3646 nt. Nucleotide sequence analysis indicated that they corresponded to the RNA-1 and RNA-2 of a novel comovirus which we tentatively named pepper mild mosaic virus (PepMMV). Predictions of the open reading frame (ORF) of RNA-1 resulted in a single ORF of 5871 nt with five cistrons typical of comoviruses, cofactor proteinase, helicase, viral protein genome-linked, 3C-like proteinase (Pro), and RNA-dependent RNA polymerase (RdRP). Similarly, sequence analysis of RNA-2 resulted in a single ORF of 3009 nt with two cistrons typical of comoviruses: movement protein and coat protein (large coat protein and small coat proteins). In pairwise amino acid sequence alignments using the Pro-Pol protein, PepMMV shared the closest identities with broad bean true mosaic virus and cowpea mosaic virus, 56% and 53.9% respectively. In contrast, in alignments of the amino acid sequence of the coat protein (small and large coat proteins) PepMMV shared the closest identities to APMoV and red clover mottle virus, 54% and 40.9% respectively. A phylogenetic tree constructed using the conserved domains for the Pro-Pol from all members of the family Secoviridae confirmed the comovirus nature of the virus. Phylogenetic and sequence analyses supports proposing PepMMV as a new species of the genus Comovirus.

     

Sequence characterization of cotton leaf curl virus from Rajasthan: phylogenetic relationship with other members of geminiviruses and detection of recombination

Diseased cotton plants showing typical leaf curl symptoms were collected from experimental plot of Agriculture Research Station—Sriganganagar, Rajasthan. Complete DNA-A component from samples taken from two areas were amplified through rolling circle amplification (RCA) using templiphi kit (GE Healthcare) and characterized. DNA-A of one isolate consists of 2751 nucleotides and second isolate of 2759 nucleotide. Both sequences comprised six ORF’s. Genome organization of DNA-A of one isolate shows high sequence similarity with other characterized local begomovirus isolates of Rajasthan, while other isolate shows high sequence similarity with CLCuV reported from Pakistan. The maximum similarity of first isolate, CLCuV-SG01, shows highest sequence identity with Cotton leaf curl Abohar (Rajasthan) virus, and second isolate, CLCuV-SG02, shows highest sequence identity with cotton leaf curl virus from Pakistan. Both isolates showed 85% similarities with each other. The sequence data revealed probable infiltration of some strains of Cotton leaf curl virus from Pakistan to India, or co-existence of different isolates under similar geographical conditions. While CLCuV-SG01 shows highest nt sequence similarity with CLCuV Rajasthan (Abohar), nt identity of V1 ORF (encoding coat protein) of SG01 shows the highest nt identity (100%) with CLCuV Multan (Bhatinda) and Abohar virus while AC1 region also showed difference. Complete nucleotide sequence of SG01 shows only 86% similarity with CLCuV Multan virus. Similarity search revealed significant difference in AV1 and AC1 regions with respect to DNA-A suggesting an evolutionary history of recombination. Computer based analysis, recombination detection Program (RDP) supports the recombination hypothesis, indicated that recombination with other begomoviruses had taken place within V1 ORF and AC1 ORF of CLCuV-SG01 and AC1 ORF of CLCuV-SG02 and also in noncoding intergenic region (IR).     

Phylogenetic Analysis Reveals that a Dwarfing Disease on Different Cereal Crops in China is due to Rice Black Streaked Dwarf Virus (RBSDV)

A viral disease with dwarfing symptoms is associated with severe damage of different cereal crops including rice, maize, wheat and sorghum grown in China. It is believed that the pathogenic agent of the disease on rice and sorghum is rice black streaked dwarf virus (RBSDV), however, the cause of maize dwarf disease in China is still inconclusive. In this report, dsRNA was isolated from virus particles obtained from the diseased plants of rice, maize, wheat and sorghum from two Chinese provinces. Full-length cDNAs of genome segments 9 (S9) and 10 (S10) were obtained through a RT-PCR approach. Sequence analysis showed that the S9 sequences of Chinese isolates and Japanese RBSDV isolate were very similar to each other (89.1–89.6% identity at the nucleotide level, 92.3–92.9% and 95.8–98.6% identity at the amino acid level for ORF1 and ORF2, respectively). In addition, the S10 sequences of Chinese isolates and Japanese RBSDV were very similar to each other (93.0–95.4% identical nucleotides and 96.2–97.0% identical amino acids, respectively). However, there were lower similarities for S9 and S10 sequences between Chinese isolates and an Italian Maize Rough Dwarf Virus (MRDV) isolate. Phylogenetic analysis indicates that Chinese viral isolates found to infect rice, maize, wheat and sorghum and leading to similar cereal dwarfing manifestations could be grouped to the same virus species, RBSDV.     

Complete nucleotide sequence of the genome of a severe cherry isolate of apple chlorotic leaf spot trichovirus (ACLSV)

Summary.  The genome of the Balaton1 severe cherry isolate of apple chlorotic leaf spot trichovirus (ACLSV-Bal1) has been cloned and sequenced. The genomic RNA is 7 549 nucleotide long, excluding the poly A tail. The genomic organization, with three overlapping open reading frames (ORF), is similar to that of the other sequenced ACLSV isolates. Sequence comparisons indicate a high variability between ACLSV isolates, with overall nucleotide sequence homology levels between 76 and 82%. The coat protein, encoded internally inside a larger ORF, is the most conserved protein (identity levels between 87 and 93%) while the central ORF, encoding the putative movement protein, is the most divergent (77 to 85% identity). Received August 5, 1996 Accepted October 21, 1996     

Konjak mosaic virus: the complete nucleotide sequence of the genomic RNA and its comparison with other potyviruses

Summary. Konjak mosaic virus (KoMV) belongs to the genus Potyvirus, family Potyviridae. The complete nucleotide sequence of KoMV F isolate (KoMV F) was determined. The genome is 9,544 nucleotides long excluding the 3′ terminal poly A tail and encodes a typical potyviral 350-kDa polyprotein of 3,087 amino acids. Phylogenetic analysis using known potyvirus polyproteins shows that KoMV constitutes a branch with yam mosaic virus, close to another branch including Japanese yam mosaic virus, turnip mosaic virus, scallion mosaic virus and lettuce mosaic virus. The 3′ terminal 1,842 nucleotides of a different isolate of KoMV, K-2, was also determined, covering the C-terminal 292 amino acids of the nuclear inclusion protein b (NIb), coat protein (CP), and the 3′ untranslated region. The amino acid sequences of the KoMV F CP and the nucleotide sequences of the KoMV F 3′ untranslated region showed 92.5 and 90.5% identity to the corresponding genes of K-2, 88.7–96.8 and 92.7–94.4% to those of Zantedeschia mosaic virus (ZaMV) isolates, 87.5–89.7% and 85.5–90.3% to those of Japanese hornwort mosaic virus (JHMV) isolates. These results showed that KoMV is a distinct potyvirus and that KoMV, ZaMV, and JHMV are members of the same potyvirus species. Considering that KoMV was the first of these to be described, ZaMV and JHMV may be considered isolates of KoMV.     

Identification of conserved and variable regions in the envelope glycoprotein sequences of two feline immunodeficiency viruses isolated in Zurich, Switzerland.

The nucleotide sequences of the envelope (env) coding regions of two strains of the feline immunodeficiency virus isolated in Zurich, Switzerland (FIVZ1, FIVZ2) have been analysed. In addition, the complete sequence of the FIVZ1 isolate has been determined. Comparisons have been made with the previously published sequences of three North American isolates (PPR and the Petaluma strains FIV34TF10 and FIV14). The isolate FIVZ1 was very similar to the Petaluma strains of FIV and may represent a clonal derivative acquired by 'contamination'. Overall there are between 2.6% and 15.1% amino acid changes in the env gene products of the five isolates. Of the Zurich isolates, FIVZ2 exhibited the greatest divergence to the other viruses and based on its genotype, phenotype and origins probably represents a new isolate of FIV. Possibly the viruses diverged only recently from a common ancestor. Some 31 of the 33 cysteine residues and 17 of the 21 potential N-linked glycosylation sites of the FIV34TF10 env gene product were conserved among all five isolates. The open reading frame 3 (ORF3, or D) which overlaps the env gene (but is encoded in a different frame) has an ATG codon downstream of a potential splice acceptor site in all five isolates, supporting the view that it encodes a viral gene product. In ORF3 of FIVZ1 a stop codon was located 16 amino acids upstream of the stop codon of ORF3 of the other isolates. The ORF4 (or G) of isolate FIVZ2, thought to be the second coding exon of an FIV rev-like gene, contained a nucleotide deletion in amino acid 45 of ORF4, resulting in a--1 frameshift at this position. Comparison of the LTR sequences of the five isolates identified conserved promoter/enhancer elements. A potential stem-loop structure was identified in the R region of the LTRs of all the isolates, despite the heterogeneity of nucleotide sequences in that region. Such structures (TAR) are present in analogous regions of other lentiviruses and are responsible for tat-mediated trans-activation.