Two pairs of degenerate primers were designed from sequences within the potyviral CI (CIFor/CIRev) and HC-Pro-coding regions (HPFo/HPRev), and these were shown to be highly specific to members of the genus Potyvirus. Using the CIFor and CIRev primers, three novel potyviruses infecting crop and weed species from Vietnam were detected, namely telosma mosaic virus (TelMV) infecting telosma (Telosma cordata, Asclepiadaceae), peace lily mosaic virus (PeLMV) infecting peace lily (Spathiphyllum patinii, Araceae) and wild tomato mosaic virus (WTMV) infecting wild tomato (Solanum torvum, Solanaceae). The fragments amplified by the two sets of primers enabled additional PCR and complete genomic sequencing of these viruses and a banana bract mosaic virus (BBrMV) isolate from the Philippines. All four viruses shared genomic features typical of potyviruses. Sequence comparisons and phylogenetic analyses indicated that WTMV was most closely related to chilli veinal mottle virus (ChiVMV) and pepper veinal mottle virus (PVMV), while PeLMV, TelMV and BBrMV were related to different extents to members of the bean common mosaic virus (BCMV) subgroup.
Sixteen viruses, belonging to 16 species of begomovirus, that infect crops and weeds in Vietnam were identified. Sequence analysis of the complete genomes showed that nine of the viruses (six monopartite and three bipartite) belong to novel species and five of them were identified in Vietnam for the first time. Additionally, eight DNA-β and three nanovirus-like DNA-1 molecules were also found associated with some of the monopartite viruses. Five of the DNA-β molecules were novel. Importantly, a second bipartite begomovirus, Corchorus golden mosaic virus, shared several features with the previously characterized virus Corchorus yellow vein virus and with other bipartite begomoviruses from the New World, supporting the hypothesis that New World-like viruses were present in the Old World. This, together with a high degree of virus diversity that included putative recombinant viruses, satellite molecules and viruses with previously undescribed variability in the putative stem–loop sequences, suggested that South-East Asia, and Vietnam in particular, is one of the origins of begomovirus diversity.
The potyvirus Papaya ringspot virus (PRSV) is found throughout the tropics and subtropics. Its P biotype is a devastating pathogen of papaya crops and its W biotype of cucurbits. PRSV-P is thought to arise by mutation from PRSV-W. However, the relative impact of mutation and movement on the structure of PRSV populations is not well characterized. To investigate this, we have determined the coat protein sequences of isolates of both biotypes of PRSV from Vietnam (50), Thailand (13), India (1) and the Philippines (1), and analysed them together with 28 PRSV sequences already published, so that we can better understand the molecular epidemiology and evolution of PRSV. In Thailand, variation was greater among PRSV-W isolates (mean nucleotide divergence 7n6 %) than PRSV-P isolates (mean 2n6 %), but in Vietnamese populations the P and W biotypes were more but similarly diverse. Phylogenetic analyses of PRSV also involving its closest known relative, Moroccan watermelon mosaic virus, indicate that PRSV may have originated in Asia, particularly in the Indian subcontinent, as PRSV populations there are most diverse and hence have probably been present longest. Our analyses show that mutation, together with local and longdistance movement, contributes to population variation, and also confirms an earlier conclusion that populations of the PRSV-P biotype have evolved on several occasions from PRSV-W populations.
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