Browsing by Subject "DNA sequence analysis"
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- 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 AccessAvoidance of Protein Fold Disruption in Natural Virus Recombinants(Public Library of Science, 2007) Lefeuvre, Pierre; Lett, Jean-Michel; Reynaud, Bernard; Martin, Darren PAuthor Summary The exchange of genetic material between different virus species, called inter-species recombination, has the potential to generate, within a single genome replication cycle, an almost unimaginable number of genetically distinct virus strains, including many that might cause deadly new human, animal, or plant diseases. Many fear that inter-species recombination could provide viruses with quick access to evolutionary innovations such as broader host ranges, altered tissue tropisms, or increased severities. However, mounting evidence suggests that recombination is not an unconstrained process and that most inter-species recombinants that occur in nature are probably defective. It is suspected that networks of coevolved interactions between different parts of virus genomes and their encoded proteins must be kept intact for newly formed inter-species recombinants to have any chance of out-competing their parents. One category of coevolved interaction is that between contacting amino acids within the 3-D structures of folded proteins. Here we examine the distributions of recombination events across the genomes of a group of rampantly recombining plant viruses and find very good evidence that this class of interaction tends to be preserved amongst recombinant sequences sampled from nature. This indicates that selection against misfolded proteins strongly influences the survival of natural recombinants.
- ItemOpen AccessEvolutionary time-scale of the begomoviruses: evidence from integrated sequences in the Nicotiana genome(Public Library of Science, 2011) Lefeuvre, Pierre; Harkins, Gordon W; Lett, Jean-Michel; Briddon, Rob W; Chase, Mark W; Moury, Benoit; Martin, Darren PDespite having single stranded DNA genomes that are replicated by host DNA polymerases, viruses in the family Geminiviridae are apparently evolving as rapidly as some RNA viruses. The observed substitution rates of geminiviruses in the genera Begomovirus and Mastrevirus are so high that the entire family could conceivably have originated less than a million years ago (MYA). However, the existence of geminivirus related DNA (GRD) integrated within the genomes of various Nicotiana species suggests that the geminiviruses probably originated >10 MYA. Some have even suggested that a distinct New-World (NW) lineage of begomoviruses may have arisen following the separation by continental drift of African and American proto-begomoviruses ∼110 MYA. We evaluate these various geminivirus origin hypotheses using Bayesian coalescent-based approaches to date firstly the Nicotiana GRD integration events, and then the divergence of the NW and Old-World (OW) begomoviruses. Besides rejecting the possibility of a<2 MYA OW-NW begomovirus split, we could also discount that it may have occurred concomitantly with the breakup of Gondwanaland 110 MYA. Although we could only confidently narrow the date of the split down to between 2 and 80 MYA, the most plausible (and best supported) date for the split is between 20 and 30 MYA - a time when global cooling ended the dispersal of temperate species between Asia and North America via the Beringian land bridge.
- ItemOpen AccessGenotypic diversity is associated with clinical outcome and phenotype in cryptococcal meningitis across Southern Africa(Public Library of Science, 2015) Beale, Mathew A; Sabiiti, Wilber; Robertson, Emma J; Fuentes-Cabrejo, Karen M; O'Hanlon, Simon J; Jarvis, Joseph N; Loyse, Angela; Meintjes, Graeme; Harrison, Thomas S; May, Robin CCryptococcal meningitis is a major cause of mortality throughout the developing world, yet little is known about the genetic markers underlying Cryptococcal virulence and patient outcome. We studied a cohort of 230 Cryptococcus neoformans (Cn) isolates from HIV-positive South African clinical trial patients with detailed clinical follow-up using multi-locus sequence typing and in vitro phenotypic virulence assays, correlating these data with clinical and fungal markers of disease in the patient. South African Cn displayed high levels of genetic diversity and locus variability compared to globally distributed types, and we identified 50 sequence types grouped within the main molecular types VNI, VNII and VNB, with 72% of isolates typed into one of seven 'high frequency' sequence types. Spatial analysis of patients' cryptococcal genotype was not shown to be clustered geographically, which might argue against recent local acquisition and in favour of reactivation of latent infection. Through comparison of MLST genotyping data with clinical parameters, we found a relationship between genetic lineage and clinical outcome, with patients infected with the VNB lineage having significantly worse survival (n=8, HR 3.35, CI 1.51-7.20, p=0.003), and this was maintained even after adjustment for known prognostic indicators and treatment regimen. Comparison of fungal genotype with in vitro phenotype (phagocytosis, laccase activity and CSF survival) performed on a subset of 89 isolates revealed evidence of lineage-associated virulence phenotype, with the VNII lineage displaying increased laccase activity (p=0.001) and ex vivo CSF survival (p=0.0001). These findings show that Cryptococcus neoformans is a phenotypically heterogeneous pathogen, and that lineage plays an important role in cryptococcal virulence during human infection. Furthermore, a detailed understanding of the genetic diversity in Southern Africa will support further investigation into how genetic diversity is structured across African environments, allowing assessment of the risks different ecotypes pose to infection.
- ItemOpen AccessMolecular mechanisms of recombination restriction in the envelope gene of the human immunodeficiency virus(Public Library of Science, 2009) Simon-Loriere, Etienne; Galetto, Roman; Hamoudi, Meriem; Archer, John; Lefeuvre, Pierre; Martin, Darren P; Robertson, David L; Negroni, MatteoAuthor Summary Recombination allows mixing portions of genomes of different origins, generating chimeric genes and genomes. With respect to the random generation of new mutations, it can lead to the simultaneous insertion of several substitutions, introducing more drastic changes in the genome. Furthermore, recombination is expected to yield a higher proportion of functional products since it combines variants that already exist in the population and that are therefore compatible with the survival of the organism. However, when recombination involves genetically distant strains, it can be constrained by the necessity to retain the functionality of the resulting products. In pathogens, which are subjected to strong selective pressures, recombination is particularly important, and several viruses, such as the human immunodeficiency virus (HIV), readily recombine. Here, we demonstrate the existence of preferential regions for recombination in the HIV-1 envelope gene when crossing sequences representative of strains observed to recombine in vivo. Furthermore, some recombinants give a decreased proportion of functional products. When considering these factors, one can retrace the history of most natural HIV recombinants. Recombination in HIV appears not so unpredictable, therefore, and the existence of recombinants that frequently generate nonfunctional products highlights previously unappreciated limits of the genetic flexibility of HIV.
- ItemOpen AccessThe spread of Tomato yellow leaf curl virus from the Middle East to the world(Public Library of Science, 2010) Lefeuvre, Pierre; Martin, Darren P; Harkins, Gordon; Lemey, Philippe; Gray, Alistair J A; Meredith, Sandra; Lakay, Francisco; Monjane, Adérito; Lett, Jean-Michel; Varsani, ArvindAuthor Summary Tomato yellow leaf curl virus (TYLCV) poses a serious threat to tomato production throughout the temperate regions of the world. Our analysis, using a suite of bioinformatic tools applied to all publically available TYLCV genome sequences, suggests that the virus probably arose somewhere in the Middle East between the 1930s and 1950s and that its global spread only began in the 1980s after the emergence of two strains - TYLCV-Mld and -IL. In agreement with others, we also find that the highly invasive TYLCV-IL strain has jumped at least twice to the Americas - once from the Mediterranean basin in the early 1990s and once from Asia in the early 2000s. Although our results corroborate historical accounts of TYLCV-like symptoms in tomato crops in the Jordan Valley in the late 1920s, they indicate that the region around Iran is both the current center of TYLCV diversity and is the site where the most intensive ongoing TYLCV evolution is taking place. However, our analysis indicates that this region is epidemiologically isolated suggesting that novel TYLCV variants found there are probably not direct global threats. Moreover, we identify the Mediterranean basin as the main launch-pad of global TYLCV movements.