Broad spectrum primers were used to amplify a fragment comprising the CP gene and putative ORF6 by RT-PCR from ds-RNA templates originating from 46 Portuguese varieties, totalling 190 samples, including some wild Vitis ssp sylvestris vines, and 2 vines from Slovenia. SSCP analysis was used as a preliminary screen to avoid cloning and sequencing very similar variants. Four groups of variants were recognized. In pair wise comparisons between nucleotide sequences the minimal homology found was 81%. In case of the cultivated varieties, no relationship could be seen between the phylogenetic groups and geographic origin or grape variety. Several isolates were found harbouring mixed infections with genomic variants from different groups, but the mixing did not lead to an extensive recombination between them. The deduced amino-acid sequences revealed a conserved CP subjected to strong purifying selection pressure. Analysis of the selection pressure operating on the putative ORF6 suggests that this ORF does not exist. Previously produced polyclonal antiserum raised against the recombinant CP of RSPaV expressed in Escherichia coli was shown to be able to detect all four groups of variants of RSPaV included in this study, which might enable the diagnosis of the virus on a serological basis.
The genetic variability and population structure of grapevine leafroll-associated virus 3 (GLRaV-3) variants were updated by examining the diversity within the viral coat protein (CP) gene among 174 isolates belonging to a collection of Vitis vinifera representing most of the Portuguese varieties. Phylogenetic analysis revealed the existence of five well-defined clusters. Three of these correspond to previously defined groups, another corresponds to variants from Chile for which only one sequence has been previously identified, and an additional new group includes only Portuguese variants. A typing tool based on asymmetric PCR-ELISA (APET) was developed within the frame of this population structure. This tool was used to assess the prevalence of each phylogenetic group among the infected grapevine varieties. Although most of the isolates harbour variants from groups 1 and 2, variants from the remaining three groups exist in a number of varieties, reinforcing the notion that they are genuine genomic variants and are not isolated, atypical cases.
During autumn 1998, chlorotic mottling, yellowing, and stunting symptoms were observed on cucumber (Cucumis sativus L.) plants in an experimental plot, in Algarve, southern Portugal. The first symptoms appeared 3 weeks after planting, associated with a heavy infestation of Bemisia tabaci (Gennadius). Plants affected early produced few and small fruits. Analysis of double-stranded RNA (dsRNA) extracted from symptomatic cucumber leaves revealed the presence of two dsRNAs of about 8 and 9 kbp, not present in healthy cucumber plants. Reverse-transcription polymerase chain reaction (RT-PCR) using dsRNA or total RNA extracts as template and the oligonucleotide primers 410L and 410U (1), specifically amplified a fragment of expected size of the HSP70-homolog gene of Cucurbit yellow stunting disorder virus (CYSDV). The RT-PCR-amplified fragment was sequenced (Acc. No. AF287474) and showed 99% sequence identities with the corresponding sequences (GenBank accessions AJ223619 and U67170) from two CYSDV isolates belonging to group I (2), confirming CYSDV detection. CYSDV was also detected in samples of cucumber, melon (Cucumis melo L.) and watermelon (Citrullus lanatus [Thunb.] Matsun.) collected during the summer of 1999 in commercial greenhouses. CYSDV is an emerging and important virus of cucurbits in the Middle East and Mediterranean Europe (2). This is the first report of CYSDV infecting cucurbit crops in Portugal. References: (1) A. Célix et al. Phytopathology 86:1370, 1996. (2) L. Rubio et al. Phytopathology 89:707, 1999.
Citrus tristeza virus (CTV) has been studied intensively at the molecular level. However, knowledge regarding the dynamics of its evolution is practically non-existent. In the past, diverse authors have referred to CTV as a highly variable virus, implying rapid evolution. Others have, in recent times, referred to CTV as an exceptionally slowly evolving virus. In this work, we used the capsid protein (CP) gene to estimate the rate of evolution. This was obtained from a large set of heterochronous CP gene sequences using a Bayesian coalescent approach. The best-fitting evolutionary and population models pointed to an evolutionary rate of 1.58¾10"4 nt per site year "1 (95 % highest posterior density, 1.73¾10
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