Browsing by Author "Varsani, Arvind"
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- ItemRestrictedA deletion and point mutation study of the human papillomavirus type 16 major capsid gene(2006) Varsani, Arvind; Williamson, Anna-Lise; Jaffer, Mohamed A; Rybicki, Edward PRecombinant human papillomavirus (HPV) virus-like particles (VLPs) made from the major capsid protein L1 are promising vaccine candidates for use as vaccines against genital and other HPV infections, and particularly against HPV-16. However, HPV-16 genotype variants have different binding affinities for neutralising mouse Mabs raised against HPV-16 L1 VLPs. This paper analyses, using a panel of well-characterised Mabs, the effects on the antigenicity of various C- and N-terminal deletants of HPV-16 L1 made in insect cells via recombinant baculovirus, of an A→T mutation at residue 266 (A266T), and of a C→G mutation at conserved position 428 (C428G). The effects of these changes on assembly of the variant L1s were studied by electron microscopy. Binding of Mab H16:E70 to A266T was reduced by almost half in comparison to wild type L1. Retention of the C-terminal region 428–483 was critical for the binding of conformation-specific Mabs (H16:V5, H16:E70, H16:U4 and H16:9A) whereas deletion of the nuclear localisation signal (NLS) or the C428G mutation or an N-terminal deletion (residues 2–9) did not affect the antigenicity. The N-terminal deletion resulted in a mixed population of 30 and 55 nm VLPs, which differs from the same construct expressed in Escherichia coli, whereas pentamer aggregates resulted from deletion of the 428–465 region or the C428G mutation. The results have implications both for considering use of single-genotype HPV vaccines, and for design of novel second-generation vaccines.
- ItemOpen AccessAdaptive evolution by recombination is not associated with increased mutation rates in Maize streak virus(BioMed Central Ltd, 2012) Monjane, Aderito; Pande, Daniel; Lakay, Francisco; Shepherd, Dionne; van der Walt, Eric; Lefeuvre, Pierre; Lett, Jean-Michel; Varsani, Arvind; Rybicki, Edward; Martin, DarrenBACKGROUND: Single-stranded (ss) DNA viruses in the family Geminiviridae are proving to be very useful in real-time evolution studies. The high mutation rate of geminiviruses and other ssDNA viruses is somewhat mysterious in that their DNA genomes are replicated in host nuclei by high fidelity host polymerases. Although strand specific mutation biases observed in virus species from the geminivirus genus Mastrevirus indicate that the high mutation rates in viruses in this genus may be due to mutational processes that operate specifically on ssDNA, it is currently unknown whether viruses from other genera display similar strand specific mutation biases. Also, geminivirus genomes frequently recombine with one another and an alternative cause of their high mutation rates could be that the recombination process is either directly mutagenic or produces a selective environment in which the survival of mutants is favoured. To investigate whether there is an association between recombination and increased basal mutation rates or increased degrees of selection favoring the survival of mutations, we compared the mutation dynamics of the MSV-MatA and MSV-VW field isolates of Maize streak virus (MSV; Mastrevirus), with both a laboratory constructed MSV recombinant, and MSV recombinants closely resembling MSV-MatA. To determine whether strand specific mutation biases are a general characteristic of geminivirus evolution we compared mutation spectra arising during these MSV experiments with those arising during similar experiments involving the geminivirus Tomato yellow leaf curl virus (Begomovirus genus). RESULTS: Although both the genomic distribution of mutations and the occurrence of various convergent mutations at specific genomic sites indicated that either mutation hotspots or selection for adaptive mutations might elevate observed mutation rates in MSV, we found no association between recombination and mutation rates. Importantly, when comparing the mutation spectra of MSV and TYLCV we observed similar strand specific mutation biases arising predominantly from imbalances in the complementary mutations G->T: C->A. CONCLUSIONS: While our results suggest that recombination does not strongly influence mutation rates in MSV, they indicate that high geminivirus mutation rates are at least partially attributable to increased susceptibility of all geminivirus genomes to oxidative damage while in a single stranded state.
- ItemOpen AccessThe ancient evolutionary history of polyomaviruses(Public Library of Science, 2016) Buck, Christopher B; Van Doorslaer, Koenraad; Peretti, Alberto; Geoghegan, Eileen M; Tisza, Michael J; An, Ping; Katz, Joshua P; Pipas, James M; McBride, Alison A; Camus, Alvin C; McDermott, Alexa J; Dill, Jennifer A; Delwart, Eric; Ng, Terry F F; Farkas, Kata; Austin, Charlotte; Kraberger, Simona; Davison, William; Pastrana, Diana V; Varsani, ArvindAuthor Summary: Polyomaviruses are a family of DNA-based viruses that are known to infect various terrestrial vertebrates, including humans. In this report, we describe our discovery of highly divergent polyomaviruses associated with various marine fish. Searches of public deep sequencing databases unexpectedly revealed the existence of polyomavirus-like sequences in scorpion and spider datasets. Our analysis of these new sequences suggests that polyomaviruses have slowly co-evolved with individual host animal lineages through an established mechanism known as intrahost divergence. The proposed model is similar to the mechanisms through with other DNA viruses, such as papillomaviruses, are thought to have evolved. Our analysis also suggests that distantly related polyomaviruses sometimes recombine to produce new chimeric lineages. We propose a possible taxonomic scheme that can account for these inferred ancient recombination events.
- ItemOpen AccessArchitecture and assembly of maize streak virus: insights from 3D electron microscopy(2014) Dent,Kyle Clayton; Varsani, Arvind; Sewell, TrevorMaize streak virus (MSV), circular single stranded DNA (ssDNA) virus (~2.7kb), is the causative agent of Maize streak disease, and is a devastating pathogen that causes severe crop losses to subsistence farmers in sub-Saharan Africa. MSV is transmitted by the leafhopper Cicadulina mbila, and is the type member of the Mastrevirus genus (family Geminiviridae). MSV shares a unique twinned icosahedral ("geminate") virion architecture (22 x 38 nm) with all other family members. Geminate particles consist of 110 coat protein (CP) subunits that assemble onto a circular single-stranded DNA (ssDNA) genome. Each T= I unit is an incomplete icosahedron assembled from 55 CPs. The structures of MSV and African cassava mosaic virus (ACMV, genus Begomovirus) have been studied by electron cryo- microscopy (cryo-EM) previously. While these investigations revealed some details about the geminate architecture, the interactions of capsid components have not yet been adequately modelled. The two incomplete icosahedral "heads" of the geminate particle are offset from one another and apparently make distinct CP:CP contacts at this region of the virion. Information regarding the nature of quasi- equivalent CP conformers or the sets of amino acid residues that mediate these interactions has not been forthcoming. Since the experimental results of these previous studies are not available in a public database, we were motivated to revisit the structure of MSV in order to obtain a 3D experimental density that might aid pseudo-atomic modelling. The MSV CP:ssDNA interaction has also been shown to be crucial for systemic movement through the host. Hence, quasi-atomic modelling may inform development of antiviral strategies which aim to interfere with virion assembly. MSV virions were isolated from the leaves of maize plants infected by agro-inoculation and visualized in both heavy metal stain and vitreous ice after they had been adsorbed to a thin-layer of continuous carbon to prevent virion aggregation. Virus preparations consisted of distinct CP assemblies consisting of multiples of the incomplete T=I icosahedral unit. Monopartite (icosahedral), bipartite (geminate), tripartite, and higher assemblies were observed suggesting the MSV CP is not only multifunctional but also structurally versatile being able to package ssDNA of variable sizes. Low-dose images were recorded on film, and 3D reconstruction of both monopartite and bipartite capsid species carried out using standard single-particle image processing methodology. The resolution of the bipartite reconstructions was 26 A for the negative-stain dataset, and 23 A for cryo-EM dataset, while the resolution of the monopartite reconstruction was estimated to be ~15 A. Comparative modelling of the MSV CP was undertaken using the pentamer (CPs) of Satellite tobacco necrosis virus (STNV) as a structural template. Correlation-based fitting of icosahedral and geminate atomic models that varied in geometric arrangement of MSV CPs allowed the geometric parameters of the bipartite capsid to be determined. Fitting ofMSV CPs into the EM densities informed our understanding of interfaces which allow the CP to self-associate, and showed that CPs is in fact displaced within the icosahedral geometry of the heads by a 10° rotation about the 5-fold axes of symmetry in comparison to STNV; hence, while quaternary structure of the pentameric capsomer is conserved between these viruses, the quaternary interactions between capsomers of the T=I unit has diverged considerably. This study shows that the offset between the geminate heads of the MSV virion is ~-11°, and that this geometry appears to arise owing to a distinct set of CP:CP interfaces which occur across the equator between two quasi-icosahedral heads and involve regions that would interact to form the CPs: CPs interfaces within each of the heads (across 2-fold and 3-fold symmetry axes). Notably this offset differs from that reported for ACMV, which has a reported offset of 20°. Additionally, the resolution afforded by the icosahedral monopartite reconstruction provided the first structural evidence to suggest that the calcium ion binding site of the STNV CPs (located on the CS axis) is likely to be conserved in MSV. This result suggests that in common with other plant viruses, depletion of calcium ions may be required for genome egress in a newly infected host cell. This study highlights the importance of future high-resolution studies of this unique virion morphology by both X-ray crystallography and cryo-EM.
- ItemOpen AccessCervicovaginal Human Papillomavirus Genomes, Microbiota Composition and Cytokine Concentrations in South African Adolescents(Multidisciplinary Digital Publishing Institute, 2023-03-15) Happel, Anna-Ursula; Balle, Christina; Havyarimana, Enock; Brown, Bryan; Maust, Brandon S.; Feng, Colin; Yi, Byung H.; Gill, Katherine; Bekker, Linda-Gail; Passmore, Jo-Ann S.; Jaspan, Heather B.; Varsani, ArvindThe interaction between cervicovaginal virome, bacteriome and genital inflammation has not been extensively investigated. We assessed the vaginal DNA virome from 33 South African adolescents (15–19 years old) using shotgun DNA sequencing of purified virions. We present analyses of eukaryote-infecting DNA viruses, with a focus on human papillomavirus (HPV) genomes and relate these to the vaginal bacterial microbiota (assessed by 16S rRNA gene sequencing) and cytokines (assessed by Luminex). The DNA virome included single-stranded (Anelloviridae, Genomoviridae) and double-stranded DNA viruses (Adenoviridae, Alloherpesviridae, Herpesviridae, Marseilleviridae, Mimiviridae, Polyomaviridae, Poxviridae). We identified 110 unique, complete HPV genomes within two genera (Alphapapillomavirus and Gammapapillomavirus) representing 40 HPV types and 12 species. Of the 40 HPV types identified, 35 showed positive co-infection patterns with at least one other type, mainly HPV-16. HPV-35, a high-risk genotype currently not targeted by available vaccines, was the most prevalent HPV type identified in this cohort. Bacterial taxa commonly associated with bacterial vaginosis also correlated with the presence of HPV. Bacterial vaginosis, rather than HPV, was associated with increased genital inflammation. This study lays the foundation for future work characterizing the vaginal virome and its role in women’s health.
- ItemOpen AccessComparative analysis of Panicum streak virus and Maize streak virus diversity, recombination patterns and phylogeography(BioMed Central Ltd, 2009) Varsani, Arvind; Monjane, Aderito; Donaldson, Lara; Oluwafemi, Sunday; Zinga, Innocent; Komba, Ephrem; Plakoutene, Didier; Mandakombo, Noella; Mboukoulida, Joseph; Semballa, Silla; Briddon, Rob; Markham, Peter; Lett, Jean-Michel; Lefeuvre, Pierre; RyBACKGROUND: Panicum streak virus (PanSV; Family Geminiviridae; Genus Mastrevirus) is a close relative of Maize streak virus (MSV), the most serious viral threat to maize production in Africa. PanSV and MSV have the same leafhopper vector species, largely overlapping natural host ranges and similar geographical distributions across Africa and its associated Indian Ocean Islands. Unlike MSV, however, PanSV has no known economic relevance. RESULTS: Here we report on 16 new PanSV full genome sequences sampled throughout Africa and use these together with others in public databases to reveal that PanSV and MSV populations in general share very similar patterns of genetic exchange and geographically structured diversity. A potentially important difference between the species, however, is that the movement of MSV strains throughout Africa is apparently less constrained than that of PanSV strains. Interestingly the MSV-A strain which causes maize streak disease is apparently the most mobile of all the PanSV and MSV strains investigated. CONCLUSION: We therefore hypothesize that the generally increased mobility of MSV relative to other closely related species such as PanSV, may have been an important evolutionary step in the eventual emergence of MSV-A as a serious agricultural pathogen.The GenBank accession numbers for the sequences reported in this paper are GQ415386-GQ415401
- ItemOpen AccessComplex recombination patterns arising during geminivirus coinfections preserve and demarcate biologically important intra-genome interaction networks(Public Library of Science, 2011) Martin, Darren P; Lefeuvre, Pierre; Varsani, Arvind; Hoareau, Murielle; Semegni, Jean-Yves; Dijoux, Betty; Vincent, Claire; Reynaud, Bernard; Lett, Jean-MichelAuthor Summary Genetic recombination between viruses is a form of parasexual reproduction during which two parental viruses each contribute genetic information to an offspring, or recombinant, virus. Unlike with sexual reproduction, however, recombination in viruses can even involve the transfer of sequences between the members of distantly related species. When parental genomes are very distantly related, it is anticipated that recombination between them runs the risk of producing defective offspring. The reason for this is that the interactions between different parts of genomes and the proteins they encode (such as between different viral proteins or between viral proteins and the virus genomic DNA or RNA) often depend on particular co-evolved binding sites that recognize one another. When in a recombinant genome the partners in a binding site pair are each inherited from different parents there is a possibility that they will not interact with one another properly. Here we examine recombinant genomes arising during experimental mixed infections of two distantly related viruses to detect evidence that intra-genome interaction networks are broadly preserved in these genomes. We show this preservation is so strict that patterns of recombination in these viruses can even be used to identify the interacting regions within their genomes.
- ItemOpen AccessDevelopment of candidate Human papillomavirus vaccines(2003) Varsani, Arvind; Rybicki, Ed; Williamson, Anne-LiseThe objective of this thesis was to investigate novel and plant-based vaccines against the Human papillomavirus type 16 (HPV-16), which is primarily responsible for cervical cancer. As a first study, the L1 gene of a South Africna variant of HPV-16 (L1 504) and a mutant (504[ΔA266T]), where the alanine at 266 was mutated to a threonine, were expressed in insect cells by recombinant baculovirus, and the resulting virus-like particles (VLPs) were tested with a panel of well-characterised monoclonal antibodies (Mabs).
- ItemOpen AccessEast African cassava mosaic-like viruses from Africa to Indian ocean islands: molecular diversity, evolutionary history and geographical dissemination of a bipartite begomovirus(BioMed Central Ltd, 2012) De Bruyn, Alexandre; Villemot, Julie; Lefeuvre, Pierre; Villar, Emilie; Hoareau, Murielle; Harimalala, Mireille; Abdoul-Karime, Anli; Abdou-Chakour, Chadhouliati; Reynaud, Bernard; Harkins, Gordon; Varsani, Arvind; Martin, Darren; Lett, Jean-MichelBACKGROUND: Cassava (Manihot esculenta) is a major food source for over 200 million sub-Saharan Africans. Unfortunately, its cultivation is severely hampered by cassava mosaic disease (CMD). Caused by a complex of bipartite cassava mosaic geminiviruses (CMG) species (Family: Geminivirideae; Genus: Begomovirus) CMD has been widely described throughout Africa and it is apparent that CMG's are expanding their geographical distribution. Determining where and when CMG movements have occurred could help curtail its spread and reveal the ecological and anthropic factors associated with similar viral invasions. We applied Bayesian phylogeographic inference and recombination analyses to available and newly described CMG sequences to reconstruct a plausible history of CMG diversification and migration between Africa and South West Indian Ocean (SWIO) islands. RESULTS: The isolation and analysis of 114 DNA-A and 41 DNA-B sequences demonstrated the presence of three CMG species circulating in the Comoros and Seychelles archipelagos (East African cassava mosaic virus, EACMV; East African cassava mosaic Kenya virus, EACMKV; and East African cassava mosaic Cameroon virus, EACMCV). Phylogeographic analyses suggest that CMG's presence on these SWIO islands is probably the result of at least four independent introduction events from mainland Africa occurring between 1988 and 2009. Amongst the islands of the Comoros archipelago, two major migration pathways were inferred: One from Grande Comore to Moheli and the second from Mayotte to Anjouan. While only two recombination events characteristic of SWIO islands isolates were identified, numerous re-assortments events were detected between EACMV and EACMKV, which seem to almost freely interchange their genome components. CONCLUSIONS: Rapid and extensive virus spread within the SWIO islands was demonstrated for three CMG complex species. Strong evolutionary or ecological interaction between CMG species may explain both their propensity to exchange components and the absence of recombination with non-CMG begomoviruses. Our results suggest an important role of anthropic factors in CMGs spread as the principal axes of viral migration correspond with major routes of human movement and commercial trade. Finer-scale temporal analyses of CMGs to precisely scale the relative contributions of human and insect transmission to their movement dynamics will require further extensive sampling in the SWIO region.
- ItemRestrictedEvidence of ancient papillomavirus recombination(Microbiology Society, 2006) Varsani, Arvind; van der Walt, Eric; Heath, Livio; Rybicki, Edward P; Williamson, Anna Lise; Martin, Darren PAn open question amongst papillomavirus taxonomists is whether recombination has featured in the evolutionary history of these viruses. Since the onset of the global AIDS epidemic, the question is somewhat less academic, because immune-compromised human immunodeficiency virus patients are often co-infected with extraordinarily diverse mixtures of human papillomavirus (HPV) types. It is expected that these conditions may facilitate the emergence of HPV recombinants, some of which might have novel pathogenic properties. Here, a range of rigorous analyses is applied to full-genome sequences of papillomaviruses to provide convincing statistical and phylogenetic evidence that evolutionarily relevant papillomavirus recombination can occur.
- ItemOpen AccessExperimental evidence indicating that mastreviruses probably did not co-diverge with their hosts(BioMed Central Ltd, 2009) Harkins, Gordon; Delport, Wayne; Duffy, Siobain; Wood, Natasha; Monjane, Aderito; Owor, Betty; Donaldson, Lara; Saumtally, Salem; Triton, Guy; Briddon, Rob; Shepherd, Dionne; Rybicki, Edward; Martin, Darren; Varsani, ArvindBACKGROUND:Despite the demonstration that geminiviruses, like many other single stranded DNA viruses, are evolving at rates similar to those of RNA viruses, a recent study has suggested that grass-infecting species in the genus Mastrevirus may have co-diverged with their hosts over millions of years. This "co-divergence hypothesis" requires that long-term mastrevirus substitution rates be at least 100,000-fold lower than their basal mutation rates and 10,000-fold lower than their observable short-term substitution rates. The credibility of this hypothesis, therefore, hinges on the testable claim that negative selection during mastrevirus evolution is so potent that it effectively purges 99.999% of all mutations that occur. RESULTS: We have conducted long-term evolution experiments lasting between 6 and 32 years, where we have determined substitution rates of between 2 and 3 x 10-4 substitutions/site/year for the mastreviruses Maize streak virus (MSV) and Sugarcane streak Reunion virus (SSRV). We further show that mutation biases are similar for different geminivirus genera, suggesting that mutational processes that drive high basal mutation rates are conserved across the family. Rather than displaying signs of extremely severe negative selection as implied by the co-divergence hypothesis, our evolution experiments indicate that MSV and SSRV are predominantly evolving under neutral genetic drift. CONCLUSION: The absence of strong negative selection signals within our evolution experiments and the uniformly high geminivirus substitution rates that we and others have reported suggest that mastreviruses cannot have co-diverged with their hosts.
- ItemOpen AccessExperimental observations of rapid Maize streak virus evolution reveal a strand-specific nucleotide substitution bias(BioMed Central Ltd, 2008) van der Walt, Eric; Martin, Darren; Varsani, Arvind; Polston, Jane; Rybicki, EdwardBACKGROUND: Recent reports have indicated that single-stranded DNA (ssDNA) viruses in the taxonomic families Geminiviridae, Parvoviridae and Anellovirus may be evolving at rates of ~10-4 substitutions per site per year (subs/site/year). These evolution rates are similar to those of RNA viruses and are surprisingly high given that ssDNA virus replication involves host DNA polymerases with fidelities approximately 10 000 times greater than those of error-prone viral RNA polymerases. Although high ssDNA virus evolution rates were first suggested in evolution experiments involving the geminivirus maize streak virus (MSV), the evolution rate of this virus has never been accurately measured. Also, questions regarding both the mechanistic basis and adaptive value of high geminivirus mutation rates remain unanswered. RESULTS: We determined the short-term evolution rate of MSV using full genome analysis of virus populations initiated from cloned genomes. Three wild type viruses and three defective artificial chimaeric viruses were maintained in planta for up to five years and displayed evolution rates of between 7.4 x 10-4 and 7.9 x 10-4 subs/site/year. CONCLUSION: These MSV evolution rates are within the ranges observed for other ssDNA viruses and RNA viruses. Although no obvious evidence of positive selection was detected, the uneven distribution of mutations within the defective virus genomes suggests that some of the changes may have been adaptive. We also observed inter-strand nucleotide substitution imbalances that are consistent with a recent proposal that high mutation rates in geminiviruses (and possibly ssDNA viruses in general) may be due to mutagenic processes acting specifically on ssDNA molecules.
- ItemOpen AccessExperimental observations of rapid Maize streak virus evolution reveal a strand-specific nucleotide substitution bias(BioMed Central, 2008) van der Walt, Eric; Martin, Darren P A; Varsani, Arvind; Polston, Jane E; Rybicki, Edward PBackground: Recent reports have indicated that single-stranded DNA (ssDNA) viruses in the taxonomic families Geminiviridae, Parvoviridae and Anellovirus may be evolving at rates of ~10-4 substitutions per site per year (subs/site/year). These evolution rates are similar to those of RNA viruses and are surprisingly high given that ssDNA virus replication involves host DNA polymerases with fidelities approximately 10 000 times greater than those of error-prone viral RNA polymerases. Although high ssDNA virus evolution rates were first suggested in evolution experiments involving the geminivirus maize streak virus (MSV), the evolution rate of this virus has never been accurately measured. Also, questions regarding both the mechanistic basis and adaptive value of high geminivirus mutation rates remain unanswered. Results: We determined the short-term evolution rate of MSV using full genome analysis of virus populations initiated from cloned genomes. Three wild type viruses and three defective artificial chimaeric viruses were maintained in planta for up to five years and displayed evolution rates of between 7.4 × 10-4 and 7.9 × 10-4 subs/site/year. Conclusion: These MSV evolution rates are within the ranges observed for other ssDNA viruses and RNA viruses. Although no obvious evidence of positive selection was detected, the uneven distribution of mutations within the defective virus genomes suggests that some of the changes may have been adaptive. We also observed inter-strand nucleotide substitution imbalances that are consistent with a recent proposal that high mutation rates in geminiviruses (and possibly ssDNA viruses in general) may be due to mutagenic processes acting specifically on ssDNA molecules.
- ItemOpen AccessA highly divergent South African geminivirus species illuminates the ancient evolutionary history of this family(BioMed Central, 2009) Varsani, Arvind; Shepherd, Dionne N; Dent, Kyle; Monjane, Aderito L; Rybicki, Edward P; Martin, Darren PBackground: We have characterised a new highly divergent geminivirus species, Eragrostis curvula streak virus (ECSV), found infecting a hardy perennial South African wild grass. ECSV represents a new genus-level geminivirus lineage, and has a mixture of features normally associated with other specific geminivirus genera. Results: Whereas the ECSV genome is predicted to express a replication associated protein (Rep) from an unspliced complementary strand transcript that is most similar to those of begomoviruses, curtoviruses and topocuviruses, its Rep also contains what is apparently a canonical retinoblastoma related protein interaction motif such as that found in mastreviruses. Similarly, while ECSV has the same unusual TAAGATTCC virion strand replication origin nonanucleotide found in another recently described divergent geminivirus, Beet curly top Iran virus (BCTIV), the rest of the transcription and replication origin is structurally more similar to those found in begomoviruses and curtoviruses than it is to those found in BCTIV and mastreviruses. ECSV also has what might be a homologue of the begomovirus transcription activator protein gene found in begomoviruses, a mastrevirus-like coat protein gene and two intergenic regions. Conclusion: Although it superficially resembles a chimaera of geminiviruses from different genera, the ECSV genome is not obviously recombinant, implying that the features it shares with other geminiviruses are those that were probably present within the last common ancestor of these viruses. In addition to inferring how the ancestral geminivirus genome may have looked, we use the discovery of ECSV to refine various hypotheses regarding the recombinant origins of the major geminivirus lineages.
- ItemOpen AccessA highly divergent South African geminivirus species illuminates the ancient evolutionary history of this family(BioMed Central Ltd, 2009) Varsani, Arvind; Shepherd, Dionne; Dent, Kyle; Monjane, Aderito; Rybicki, Edward; Martin, DarrenBACKGROUND:We have characterised a new highly divergent geminivirus species, Eragrostis curvula streak virus (ECSV), found infecting a hardy perennial South African wild grass. ECSV represents a new genus-level geminivirus lineage, and has a mixture of features normally associated with other specific geminivirus genera. RESULTS: Whereas the ECSV genome is predicted to express a replication associated protein (Rep) from an unspliced complementary strand transcript that is most similar to those of begomoviruses, curtoviruses and topocuviruses, its Rep also contains what is apparently a canonical retinoblastoma related protein interaction motif such as that found in mastreviruses. Similarly, while ECSV has the same unusual TAAGATTCC virion strand replication origin nonanucleotide found in another recently described divergent geminivirus, Beet curly top Iran virus (BCTIV), the rest of the transcription and replication origin is structurally more similar to those found in begomoviruses and curtoviruses than it is to those found in BCTIV and mastreviruses. ECSV also has what might be a homologue of the begomovirus transcription activator protein gene found in begomoviruses, a mastrevirus-like coat protein gene and two intergenic regions. CONCLUSION: Although it superficially resembles a chimaera of geminiviruses from different genera, the ECSV genome is not obviously recombinant, implying that the features it shares with other geminiviruses are those that were probably present within the last common ancestor of these viruses. In addition to inferring how the ancestral geminivirus genome may have looked, we use the discovery of ECSV to refine various hypotheses regarding the recombinant origins of the major geminivirus lineages.
- ItemOpen AccessHIV type 1 subtype C gag and nef diversity in Southern Africa.(Mary Ann Liebert, 2007) Bredell, Helba; Martin, Darren P; Van Harmelen Joanne; Varsani, Arvind; Sheppard, Haynes W; Donovan, R; Gray, C; HIVNET028 Study Team; Williamson, CSeveral HIV-1 subtype C-specific gag- and/or nef-based vaccines are currently intended for clinical trial in southern Africa. Here we provide sequences of 64 gag and 45 nef genes sampled in Malawi, Zambia, Zimbabwe, and South Africa and assess the degree of southern African HIV-1 diversity that will confront these vaccines. Whereas reasonable phylogenetic evidence exists for geographical clustering of subtype C gag and nef sequences from various other parts of the world, there is little evidence of similar population founder effects in the southern African epidemic. The entire breadth of subtype C diversity is represented in the southern African genes suggesting there may be no advantage in producing region- or country-specific subtype C vaccines. We do not, however, find much evidence of intersubtype recombination in the Southern African genes, implying that the likelihood of vaccine failure due to the emergence of intersubtype recombinants is probably low.
- ItemRestrictedIdentification of phytoplasmas associated with cultivated and ornamental plants in Kerman Province, Iran(Wiley, 2010) Tazehkand, Susan Asghari; Pour, Akbar Hossein; Heydarnejad, Jahangir; Varsani, Arvind; Massumi, HossainHossain Kerman Province is a major agricultural centre in south-eastern Iran and an increase in agricultural activities results in an increase in disease. We report phytoplasmal infections in Iran of five plant species; spinach (Spinacia oleracea L.), sunflower (Helianthus annuus L.), canola (Brassica napus L.), cucumber (Cucumis sativus L.) and Aegean wallflower (Erysimum cheiri (L.) Crantz; Family Brassicaceae) using in silico restriction fragment length polymorphism and sequence analysis. Amplicons of approximately 300 bp were amplified using polymerase chain reaction ampli- fication with universal P3 ⁄ P7 primer pair. The ampli- fied products were cloned and sequenced. On the basis of in silico restriction analysis of the amplicon digested with 17 distinct restriction enzymes and 16 ⁄ 23S spacer region sequence, Erysimum and cucumber phyllodies (EPh and CuPh2, respectively) were 100% identical and showed closest similarity with members of the peanut witches-broom group (16SrII). Whereas spinach yellows (SpY) and canola phyllody (CaPh) revealed closest homology with phytoplasmas of the aster yellows group (AY) 16SrI. Mixed infections of the SuWB sample were confirmed in which two different phytoplasmas belonging to 16SrII and 16SrVI groups were found. This is the first report of phytoplasmal infection of Aegean wallflower (EPh) caused by a phytoplasma belonging to the 16SrII group. While spinach phytoplasmas have been isolated in the past; however, our isolate from spinach belonging to the 16SrI group is the first spinach isolate from Iran.
- ItemOpen AccessIdentification of the Begomoviruses Squash Leaf Curl Virus and Watermelon Chlorotic Stunt Virus in Various Plant Samples in North America(2021-04-30) Fontenele, Rafaela S; Bhaskara, Amulya; Cobb, Ilaria N; Majure, Lucas C; Salywon, Andrew M; Avalos-Calleros, Jesús A; Argüello-Astorga, Gerardo R; Schmidlin, Kara; Roumagnac, Philippe; Ribeiro, Simone G; Kraberger, Simona; Martin, Darren P; Lefeuvre, Pierre; Varsani, ArvindGeminiviruses are a group of plant-infecting viruses with single-stranded DNA genomes. Within this family, viruses in the genus Begomovirus are known to have a worldwide distribution causing a range of severe diseases in a multitude of dicotyledonous plant species. Begomoviruses are transmitted by the whitefly Bemisia tabaci, and their ssDNA genomes can be either monopartite or bipartite. As part of a viral survey, various plants including those in the families Alliaceae, Amaranthaceae, Apiaceae, Asteraceae, Brassicaceae, Cactaceae, Cucurbitaceae, Lamiaceae, Lauraceae, Malvaceae, Oleaceae and Solanaceae were sampled and screened for begomoviruses using both a high-throughput sequencing and a begomovirus-specific primer pair approach. Based on the sequences derived using these approaches, the full-length genome of various begomoviruses were amplified from plants using abutting primers. Squash leaf curl virus (SLCV) and watermelon chlorotic stunt virus (WCSV) were identified in Cactaceae (n = 25), Solanaceae (n = 7), Cucurbitaceae (n = 2) and Lamiaceae (n = 1) samples. WCSV is an Old World bipartite begomovirus that has only recently been discovered infecting watermelons in the Americas. Our discovery of WCSV in the USA is the first indication that it has reached this country and indicates that this virus might be widespread throughout North America. Phylogenetic analysis suggests WCSV was introduced to the New World twice. The detection of begomoviruses in cactus plants suggests possible spillover events from agricultural areas into native vegetation. Since WCSV and SLCV have previously been found in mixed infections, pseudo-recombination infection experiments were conducted. We demonstrate that WCSV DNA-B is successfully trans-replicated by SLCV DNA-A despite very low degree of similarity between the replication-associated iterative sequences present in their common region, an essential feature for binding of the replication associated protein. This study highlights the importance of viral surveys for the detection of spillover events into native vegetation, but also suggests the need for more surveillance of WCSV in the USA, as this virus is a serious threat to watermelon cultivation in the Middle East.
- ItemOpen AccessIn Silico Characterisation of Putative Prophages in Lactobacillaceae Used in Probiotics for Vaginal Health(2022-01-20) Happel, Anna-Ursula; Kullin, Brian R; Gamieldien, Hoyam; Jaspan, Heather B; Varsani, Arvind; Martin, Darren; Passmore, Jo-Ann S; Froissart, RémyWhile live biotherapeutics offer a promising approach to optimizing vaginal microbiota, the presence of functional prophages within introduced Lactobacillaceae strains could impact their safety and efficacy. We evaluated the presence of prophages in 895 publicly available Lactobacillaceae genomes using Phaster, Phigaro, Phispy, Prophet and Virsorter. Prophages were identified according to stringent (detected by ≥4 methods) or lenient criteria (detected by ≥2 methods), both with >80% reciprocal sequence overlap. The stringent approach identified 448 prophages within 359 genomes, with 40.1% genomes harbouring at least one prophage, while the lenient approach identified 1671 prophages within 83.7% of the genomes. To confirm our in silico estimates in vitro, we tested for inducible prophages in 57 vaginally-derived and commercial Lactobacillaceae isolates and found inducible prophages in 61.4% of the isolates. We characterised the in silico predicted prophages based on weighted gene repertoire relatedness and found that most belonged to the Siphoviridae or Myoviridae families. ResFam and eggNOG identified four potential antimicrobial resistance genes within the predicted prophages. Our results suggest that while Lactobacillaceae prophages seldomly carry clinically concerning genes and thus unlikely a pose a direct risk to human vaginal microbiomes, their high prevalence warrants the characterisation of Lactobacillaceae prophages in live biotherapeutics.
- ItemRestrictedAn investigation into the use of human papillomavirus type 16 virus-like particles as a delivery vector system for foreign proteins: N- and C-terminal fusion of GFP to the L1 and L2 capsid proteins(Springer Verlag (Germany), 2008) Windram, Oliver P; Weber, Brandon; Jaffer, Mohamed A; Rybicki, Edward P; Shepherd, Dionne N; Varsani, ArvindDevelopment of vaccine strategies against human papillomavirus (HPV), which causes cervical cancer, is a priority. We investigated the use of virus-like particles (VLPs) of the most prevalent type, HPV-16, as carriers of foreign proteins. Green fluorescent protein (GFP) was fused to the N or C terminus of both L1 and L2, with L2 chimeras being co-expressed with native L1. Purified chimaeric VLPs were comparable in size (*55 nm) to native HPV VLPs. Conformation-specific monoclonal antibodies (Mabs) bound to the VLPs, thereby indicating that they possibly retain their antigenicity. In addition, all of the VLPs encapsidated DNA in the range of 6–8 kb.
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