The discovery of endogenous pararetroviral sequences (EPRVs) has had a deep impact on the approaches needed for diagnosis, taxonomy, safe movement of germplasm and management of diseases caused by pararetroviruses. In this article, we illustrate this through the example of yam (Dioscorea spp.) badnaviruses. To enable progress, it is first necessary to clarify the taxonomical status of yam badnavirus sequences. Phylogeny and pairwise sequence comparison of 121 yam partial reverse transcriptase sequences provided strong support for the identification of 12 yam badnavirus species, of which ten have not been previously named. Virus prevalence data were obtained, and they support the presence of EPRVs in D. rotundata, but not in D. praehensilis, D. abyssinica, D. alata or D. trifida. Five yam badnavirus species characterised by a wide host range seem to be of African origin. Seven other yam badnavirus species with a limited host range are probably of Asian-Pacific origin. Recombination under natural circumstances appears to be rare. Average values of nucleotide intra-species genetic distances are comparable to data obtained for other RNA and DNA virus families. The dispersion scenarios proposed here, combined with the fact that host-switching events appear common for some yam badnaviruses, suggest that the risks linked to introduction via international plant material exchanges are high.
To evaluate the genetic diversity and understand the evolution of Yam mosaic virus (YMV), a highly destructive pathogen of yam (Dioscorea sp.), sequencing was carried out of the C-terminal part of the replicase (NIb), the coat protein (CP) and the 3h-untranslated region (3h-UTR) of 27 YMV isolates collected from the three main cultivated species (Dioscorea alata, the complex Dioscorea cayenensis-Dioscorea rotundata and Dioscorea trifida). YMV showed the most variable CP relative to eight other potyviruses. This high variability was structured into nine distant molecular groups, as revealed by phylogenetic analyses and validated by assessment of the molecular evolutionary noise. No correlation was observed between the CP and 3h-UTR diversities and phylogenies. The most diversified and divergent groups included isolates from Africa. The remaining groups clustered in a single clade and a geographical distinction between isolates from the Caribbean, South America and Africa was observed. The role of the host in the selection of particular isolates was illustrated by the case of a divergent cultivar from Burkina Faso. Phylogenetic topological incongruence and complementary statistical tests highlighted the fact that recombination events, with single and multiple crossover sites, largely contributed to the evolution of YMV. We hypothesise an African origin of YMV from the yam complex D. cayenensis-D. rotundata, followed by independent transfers to D. alata and D. trifida during virus evolution.
The coat protein gene (ORF4) and the 3' untranslated region of a sample of 40 isolates of Rice yellow mottle virus (RYMV), 32 from West Africa and 8 from East Africa, have been sequenced. Five major strains were differentiated, three from West Africa (S1, S2, S3) and two from East Africa (S4, S5), with a spatial overlap of the strains within each of these two regions. Nucleotide and amino-acid divergence between strains was up to 11%. Although more isolates from West African were sequenced, variability was twofold lower than among East African isolates. Variability in ORF4 and in ORF2 coincided. Within strain and within isolate variations in nucleotide sequences were low. Bipartite nuclear targeting motif, Ca2+ binding sites and at least two stretches of amino-acids were conserved among the 40 RYMV isolates and the other sobemoviruses. Variants associating sequence motifs characteristic of different strains have been found, possibly resulting from recombination events. Differences in pathogenicity among isolates were associated with changes of amino-acids in the bipartite nuclear targeting motif of the R domain of the capsid protein, and around conserved positions 151-154 of the S domain. We hypothesise that the observed pattern of variation of RYMV reflects the effect of spatial isolation between East and West Africa coupled with adaptive changes associated to the original virus reservoirs of the different strains.
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