Phylogenetic analysis of <Emphasis Type="Italic">Wheat dwarf virus</Emphasis> isolates from Iran

Wheat dwarf virus (WDV) adversely affects cereal production in Asia, Europe, and North Africa. In this study, sequences of several WDV isolates from Iran which is located in the Fertile Crescent were analyzed. Analysis revealed a new geographic cluster for WDV-Wheat from Iran. Recombination analysis demonstrated the existence of several breakpoints in different regions of the viral genome. Data analysis demonstrated that WDV-Barley has an older history and lower diversity than WDV-Wheat. Sequence analysis identified a rare occasion of a co-infection of wheat with WDV-Wheat and WDV-Barley.     

Evidence for recombination among isolates of <Emphasis Type="Italic">Tobacco leaf curl Japan virus</Emphasis> and <Emphasis Type="Italic">Honeysuckle yellow vein mosaic virus</Emphasis>

Summary Complete nucleotide sequences of Tobacco leaf curl Japan virus (TbLCJV) isolates from infected tomato (Lycopersicon esculentum) plants in Nara (-[Jp2], 2764nt; -[Jp3], 2761nt), Kochi (-[Koc], 2760nt) and Yamaguchi (-[Yam], 2758nt) Prefectures, of Japan were determined. These sequences were compared with each other and the sequences of further begomoviruses from Japan. TbLCJV, TbLCJV-[Jp2], TbLCJV-[Jp3], TbLCJV-[Koc], TbLCJV-[Yam], Honeysuckle yellow vein mosaic virus (HYVMV), Eupatorium yellow vein virus (EpYVV), EpYVV-[MNS2], EpYVV-[SOJ3], EpYVV-[Yam] and EpYVV-[Tob] are monophyletic. The intergenic region (IR) of TbLCJV has highest nucleotide sequence identity with that of HYVMV (93%) whereas the rest of the genomic DNA had higher identity with that of TbLCJV-[Jp2] or -[Jp3] (91100%) than with that of HYVMV. In conclusion, TbLCJV has a chimeric genome which may have arisen by recombination between TbLCV-[Jp2] or -[Jp3]-like and HYVMV-like ancestors. Similarly, TbLCJV-[Yam] DNA has a hybrid genome, with a major parent HYVMV and minor parent TbLCJV-[Koc].     

Molecular characterization of two Chinese isolates of <Emphasis Type="Italic">Beet mosaic virus</Emphasis>

The complete genomic sequences of Beet mosaic virus Xinjiang (BtMV-XJ) and Inner Mongolia (BtMV-IM) isolates from China were determined and compared with US and German isolates, reported previously. Results showed that viral genome of the two isolates both comprise 9,591 nucleotides, and contain the large single open reading frame (ORF) encoding a single polyprotein of 3,085 amino acid residues, from which ten putative functional proteins may be produced by autolytic cleavage processing as the US (BtMV-Wa) and German (BtMV-G) isolates. Sequence comparisons showed that BtMV-XJ shared 89.8% and 98.3% overall nucleotide identity with BtMV-Wa and BtMV-G isolates, and BtMV-IM exhibited the overall identities of 91.6% and 93.8% with BtMV-Wa and BtMV-G, respectively. Further, analyses revealed that BtMV-XJ shared higher identities in almost every region to BtMV-G than to BtMV-Wa both at the nucleotide and the amino acid levels. While BtMV-IM in the regions (6,666–7,671 and 7,672–9,591) showed highest homology with BtMV-XJ and BtMV-G, especially, after nt 7,672 with similarity up to 99.2% with BtMV-G; the region (2,331–4,083) showed highest identity (98.0% nt identity) with BtMV-Wa. That suggested BtMV-XJ had a more close relationship to BtMV-G, while BtMV-IM was more likely to be a natural recombination virus. In addition, phylogenetic analysis of the available BtMV CP sequences showed that BtMV isolates fell into two distinct groups: Euroasia group (Europe and China) and America group (USA). To the best of our knowledge, this study reported the complete sequences of two BtMV isolates from Asia for the first time. H. Xiang and Y.-H. Han contributed equally to this paper.     

Molecular phylogenetic analysis of <Emphasis Type="Italic">Barley yellow mosaic virus</Emphasis>

Complete nucleotide sequences of three strains (I, III, and IV) of Barley yellow mosaic virus (BaYMV) isolated in Japan were determined. The length of the genome was the same among the three strains; RNA1 was 7,642 nt and RNA2 was 3,585 nt. The molecular phylogenetic analysis showed that strain I was most closely related to the Chinese isolate, and these two strains formed one cluster with European isolates. Strains II, III, and IV, and the Korean isolate formed another cluster. Amino acid sequences of each viral gene product were compared among strains. The sequences of the VPg protein showed less identity among almost strains (less than 92%) than the sequences of other proteins (more than 93%). VPg is thought to be involved in interactions with host factors, especially initiation factor 4E (eIF4E) or eIF(iso)4E, and infection. Therefore, the relationship between amino acid substitutions and infection of host plants is analyzed.     

Low genetic diversity among <Emphasis Type="Italic">Cucumber vein yellowing virus</Emphasis> isolates from Spain

The population structure and genetic diversity of Cucumber vein yellowing virus (CVYV) from Spain were estimated by analyses of partial nucleotide sequences of the P1-proteinase (P1-Pro), P3 protein (P3), and the coat protein (CP) coding regions. Analysis of 56 CVYV Spanish field isolates collected from 2001 to 2005 showed low genetic diversity (0.0026, 0.0013, and 0.0012 for the P1-Pro, P3, and CP regions, respectively). The ratio between nonsynonymous and synonymous substitutions was among the lowest found in a plant virus, indicating a strong negative selective pressure in the regions analyzed. Nonsynonymous nucleotide substitutions were only found within the P1-Pro regions, although these do not appear to have been selected with time. The results support the hypothesis that the Spanish CVYV population could derive from a single origin of recent introduction.     

Distribution of various types and P25 subtypes of <Emphasis Type="Italic">Beet necrotic yellow vein virus</Emphasis> in Germany and other European countries

The distribution of various Beet necrotic yellow vein virus (BNYVV) genotypes was studied using beet samples received from Germany and neighbouring countries. Almost exclusively B type BNYVV was detected in Germany, whereas in neighbouring countries BNYVV A types with different compositions of the amino acid tetrad in positions 67–70 of the RNA-3-encoded P25 are widely distributed. Neither A types nor the P type have been able to become established in Germany in the past decades, although there must have been many opportunities for their introduction from neighbouring countries. In one field, however, an RNA-5-containing BNYVV genotype closely resembling the Chinese isolate Har4 was found. The GenBank accession numbers for the P25 coding sequences on RNA 3 of various genotypes are listed in the footnote of Table 1. The partial sequences for RNAs 1, 2, 3, 4 and 5 of the OW1 isolate have the accession numbers EU864117, EU864118, EU770693, EU864119 and EU864120, respectively.     

Complete genomic sequence analyses of <Emphasis Type="Italic">Turnip mosaic virus</Emphasis> basal-BR isolates from China

Isolates of Turnip mosaic virus (TuMV) are divided into four molecular lineages based on host range and geographical origins. Basal-BR is one of the four lineages and represented a new emergent lineage in East Asia. In one previous paper, we report the occurrence of basal-BR isolates in China. Here, we presented the first two complete genomic sequences of Chinese TuMV basal-BR isolates, WFLB06 and TANX2. The genomes of both isolates were 9833 nucleotides excluding the poly(A) tail, and had identical genomic structure. Most of their genes shared the highest identities with Japanese isolates. Recombination analysis showed that WFLB06 was an interlineage recombinant of basal-BR and Asian-BR parents, while TANX2 was an intralineage recombinant of basal-BR parents, and these two isolates represented two novel recombination patterns of TuMV. The ratio of nonsynonymous and synonymous substitution for the P1 gene of Chinese TuMV population was the highest and amounted to 12 times higher than that for the NIa-Pro gene, which implies that the selection pressure on the P1 gene was the highest among the genes present in the genome. Hong-Yan Wang and Jin-Liang Liu contributed equally.     

Recombinant-antibody-mediated resistance against <Emphasis Type="Italic">Tomato yellow leaf curl virus</Emphasis> in <Emphasis Type="Italic">Nicotiana benthamiana</Emphasis>

Tomato yellow leaf curl virus (TYLCV) is a geminivirus species whose members cause severe crop losses in the tropics and subtropics. We report the expression of a single-chain variable fragment (scFv) antibody that protected Nicotiana benthamiana plants from a prevalent Iranian isolate of the virus (TYLCV-Ir). Two recombinant antibodies (scFv-ScRep1 and scFv-ScRep2) interacting with the multifunctional replication initiator protein (Rep) were obtained from phage display libraries and expressed in plants, both as stand-alone proteins and as N-terminal GFP fusions. Initial results indicated that both scFvs and both fusions accumulated to a detectable level in the cytosol and nucleus of plant cells. Transgenic plants challenged with TYLCV-Ir showed that the scFv-ScRep1, but more so the fusion proteins, were able to suppress TYLCV-Ir replication. These results show that expression of a scFv-ScRep1-GFP fusion protein can attenuate viral DNA replication and prevent the development of disease symptoms. The present article describes the first successful application of a recombinant antibody-mediated resistance approach against a plant DNA virus.     

A simple and efficient method for agroinfection of <Emphasis Type="Italic">Vernonia cinerea</Emphasis> with infectious clones of <Emphasis Type="Italic">Vernonia yellow vein virus</Emphasis>

Vernonia yellow vein virus (VeYVV) is a distinct monopartite begomovirus associated with a satellite DNA β. After constructing dimers of both DNA A and DNA β in binary vectors, a number of infection methods were attempted. However, only a modified stem-prick method produced up to 83% infection in the natural host Vernonia cinerea, thus, fulfilling the Koch’s postulate. The presence of the viral DNA in the agroinfected plants was confirmed by rolling circle amplification (RCA), followed by Southern hybridization. DNA β induces typical symptoms of Vernonia yellow vein disease (VeYVD) when co-agroinoculated with the begomovirus to Vernonia and also leads to the accumulation of DNA A systemically. VeYVV represents a new member of the emerging group of monopartite begomoviruses requiring a satellite component for symptom induction.     

Population structure of <Emphasis Type="Italic">Citrus tristeza virus</Emphasis> from field Argentinean isolates

We studied the genetic variability of three genomic regions (p23, p25 and p27 genes) from 11 field Citrus tristeza virus isolates from the two main citrus growing areas of Argentina, a country where the most efficient vector of the virus, Toxoptera citricida, is present for decades. The pathogenicity of the isolates was determinated by biological indexing, single-strand conformation polymorphism analysis showed that most isolates contained high intra-isolate variability. Divergent sequence variants were detected in some isolates, suggesting re-infections of the field plants. Phylogenetic analysis of the predominant sequence variants of each isolate revealed similar grouping of isolates for genes p25 and p27. The analysis of p23 showed two groups contained the severe isolates. Our results showed a high intra-isolate sequence variability suggesting that re-infections could contribute to the observed variability and that the host can play an important role in the selection of the sequence variants present in these isolates. N. G. Iglesias and S. P. Gago-Zachert contributed equally to this study.     

Molecular characterization and evolutionary analysis of <Emphasis Type="Italic">soybean mosaic virus</Emphasis> infecting <Emphasis Type="Italic">Pinellia ternata</Emphasis> in China

Twenty-nine Pinellia ternata specimens were collected from representative areas in China, including the major production provinces of Zhejiang, Henan, Shanxi, Hunan, Shandong and Hubei. Seven isolates related to soybean mosaic virus (SMV), which could be pathogenic on P. ternata and some soybean [Glycine max (L.) Merr.] cultivars, were detected using double antibody sandwich immunosorbent assay (DAS-ELISA) and RT-PCR amplification performed with degenerate primer of potyviruses. It is revealed that the common potyvirus infecting P. ternata is, indeed, only SMVs rather than Dasheen mosaic virus (DsMV) as previously reported. Further molecular phylogenetic analysis of the coat protein (CP) genes of these SMV isolates from P. ternata and G. max, along with some other potyvirus members, such as DsMV and Watermelon mosaic virus (WMV) reconstructed the evolutionary route on both nucleotide and amino acid levels. Similarity and homology of nucleotide sequences for SMV CP genes demonstrated high host correlation and low partial habitat correlation, while those of amino acid sequences also showed that the host correlation was more notable than the habitat correlation. The amino acid sequence of conserved region within CP determines the main function, which shows high homology between species. This study outspreaded from the viruses themselves and their relationship to the infected hosts and revealed the evolutionary strategies, especially the rapid variation or recombination of SMV of P. ternata, in order to adapt itself naturally to the special host. The GenBank Accession numbers of the sequences reported in this article are DQ360817-DQ360823.     

High sequence conservation among <Emphasis Type="Italic">Odotoglossum ringspot virus</Emphasis> isolates from orchids

The variability in the nucleotide (nt) and amino acid (aa) sequences of the coat protein (CP) of Odontoglossum ringspot virus (ORSV), which naturally infects orchids worldwide, was investigated. The CP genes of 48 ORSV isolates originating from different locations in Korea were amplified using RT-PCR and sequenced. The encoded CP consists of 158 aa. The CP sequences of the Korean isolates were compared at the nt and aa levels with those of the previously published ORSV isolates originating from different countries. The Korean isolates share 94.8–100% and 92.4–100% CP identity to ORSV isolates from other countries at the nt and aa levels, respectively. No particular region of variability could be found in either sequence of the viruses. In the deduced aa sequence, the N-terminal region was more conserved than the C-terminal region in ORSV. The phylogenetic tree analysis and recombination analysis revealed that there was no distinct grouping between geographic locations and sequence identity, and nor distinct intra-specific recombination events among ORSV isolates.     

Molecular characterization of two Chinese isolates of <Emphasis Type="Italic">Beet western yellows virus</Emphasis> infecting sugar beet

Beet western yellows virus (BWYV) has previously been reported as an agent of sugar beet yellowing disease in China. In this article, the complete genomic RNA sequences of two Chinese BWYV isolates infecting beet from Inner Mongolia (BWYV-IM) and Gansu (BWYV-GS) were determined and compared with three beet poleroviruses (BMYV, BChV and BWYV-US) and other non-beet-infecting poleroviruses. The genomes of the two isolates were 5,668 nt in length, and had almost the same genomic organization and characteristics as BWYV-US. The full length of BWYV-IM shared nucleotide sequence identities of 97.4, 86.6, 64.4 and 70.8% with BWYV-GS, BWYV-US, BChV and BMYV, respectively. Further sequence analysis indicated that the Chinese BWYV isolates were more closely related to BWYV-US; however, the identity of any gene product between the Chinese isolates and BWYV-US was <90%. Therefore, on the basis of genome sequence, we propose that these Chinese isolates are a distinct strain of BWYV that infect sugar beet. In addition, recombinant detection analysis revealed that BWYV-IM might be a recombinant virus.     

Characterisation of the welsh onion isolate of <Emphasis Type="Italic">Shallot yellow stripe virus</Emphasis> from China

Summary. The host range and nucleotide sequence of shallot yellow stripe virus (SYSV) from welsh onion in Shandong province, China is described. Of the plants tested, only shallot and welsh onion became infected but most shallot plants were symptomless. The complete sequence of one isolate (10429 nt) and the 3′-terminal 3540 nts of a second isolate were determined. They had c. 90% nt identity to one another and to published (partial) sequences of SYSV. SYSV was most closely related to onion yellow dwarf virus (OYDV) and resembled it in having a much larger P3 protein than other species in the genus.     

The complete sequence of <Emphasis Type="Italic">Cymbidium mosaic virus</Emphasis> from <Emphasis Type="Italic">Vanilla fragrans</Emphasis> in Hainan,China

The complete nucleotide sequence of Cymbidium mosaic virus (CymMV) isolated from vanilla in Hainan province, China was determined for the first time. It comprised 6,224 nucleotides; sequence analysis suggested that the isolate we obtained was a member of the genus Potexvirus, and its sequence shared 86.67–96.61% identities with previously reported sequences. Phylogenetic analysis suggested that CymMV from vanilla fragrans was clustered into subgroup A and the isolates in this subgroup displayed little regional difference.     

Genetic diversity of Hungarian <Emphasis Type="Italic">Maize dwarf mosaic virus</Emphasis> isolates

The genetic diversity of the coat-protein (CP) region and the untranslated C-terminal region (3′UTR) of Maize dwarf mosaic virus (MDMV) was analyzed to evaluate the variability between isolates (inter-isolate sequence diversity). The results of inter-isolate sequence diversity analysis showed that the diversity of the MDMV CP gene is fairly high (p-distance: up to 0.136). During sequence analysis, a 13 amino-acid residue insertion and an 8 amino-acid residue deletion were found within the N-terminal region of the CP gene. The phylogenetic analysis showed that—unlike other potyvirus species in this subgroup—the MDMV isolates could not be distinguished on the basis of their host plants or geographic origins.     

Genetic variation among isolates of <Emphasis Type="Italic">White spot syndrome virus</Emphasis>

Summary. White spot syndrome virus (WSSV), member of a new virus family called Nimaviridae, is a major scourge in worldwide shrimp cultivation. Geographical isolates of WSSV identified so far are very similar in morphology and proteome, and show little difference in restriction fragment length polymorphism (RFLP) pattern. We have mapped the genomic differences between three completely sequenced WSSV isolates, originating from Thailand (WSSV-TH), China (WSSV-CN) and Taiwan (WSSV-TW). Alignment of the genomic sequences of these geographical isolates revealed an overall nucleotide identity of 99.32%. The major difference among the three isolates is a deletion of approximately 13kb (WSSV-TH) and 1kb (WSSV-CN), present in the same genomic region, relative to WSSV-TW. A second difference involves a genetically variable region of about 750bp. All other variations >2bp between the three isolates are located in repeat regions along the genome. Except for the homologous regions (hr1, hr3, hr8 and hr9), these variable repeat regions are almost exclusively located in ORFs, of which the genomic repeat regions in ORF75, ORF94 and ORF125 can be used for PCR based classification of WSSV isolates in epidemiological studies. Furthermore, the comparison identified highly invariable genomic loci, which may be used for reliable monitoring of WSSV infections and for shrimp health certification.     

Cysteine proteinases from promastigotes of <Emphasis Type="Italic">Leishmania</Emphasis> (<Emphasis Type="Italic">Viannia</Emphasis>) <Emphasis Type="Italic">braziliensis</Emphasis>

Leishmania (Viannia) braziliensis is the major causative agent of American tegumentary leishmaniasis, a disease that has a wide geographical distribution and is a severe public health problem. The cysteine proteinase B (CPB) from Leishmania spp. represents an important virulence factor. In this study, we characterized and localized cysteine proteinases in L. (V.) braziliensis promastigotes. By a combination of triton X-114 extraction, concanavalin A-affinity, and ion exchange chromatographies, we obtained an enriched fraction of hydrophobic proteins rich in mannose residues. This fraction contained two proteinases of 63 and 43 kDa, which were recognized by a CPB antiserum, and were partially sensitive to E-64 in enzymatic assays with the peptide Glu-Phe-Leu. In confocal microscopy, the CPB homologues localized in the peripheral region of the parasite. This data together with direct agglutination and flow cytometry assays suggest a surface localization of the CPB homologues. The incubation of intact promastigotes with phospholipase C reduced the number of CPB-positive cells, while anti-cross-reacting determinant and anti-CPB antisera recognized two polypeptides (63 and 43 kDa) derived from phospholipase C treatment, suggesting that some CPB isoforms may be glycosylphosphatidylinositol-anchored. Collectively, our results suggest the presence of CPB homologues in L. braziliensis surface and highlight the need for further studies on L. braziliensis cysteine proteinases, which require enrichment methods for enzymatic detection.