63 research outputs found

    Evidence of structural genomic region recombination in Hepatitis C virus

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    BACKGROUND/AIM: Hepatitis C virus (HCV) has been the subject of intense research and clinical investigation as its major role in human disease has emerged. Although homologous recombination has been demonstrated in many members of the family Flaviviridae, to which HCV belongs, there have been few studies reporting recombination on natural populations of HCV. Recombination break-points have been identified in non structural proteins of the HCV genome. Given the implications that recombination has for RNA virus evolution, it is clearly important to determine the extent to which recombination plays a role in HCV evolution. In order to gain insight into these matters, we have performed a phylogenetic analysis of 89 full-length HCV strains from all types and sub-types, isolated all over the world, in order to detect possible recombination events. METHOD: Putative recombinant sequences were identified with the use of SimPlot program. Recombination events were confirmed by bootscaning, using putative recombinant sequence as a query. RESULTS: Two crossing over events were identified in the E1/E2 structural region of an intra-typic (1a/1c) recombinant strain. CONCLUSION: Only one of 89 full-length strains studied resulted to be a recombinant HCV strain, revealing that homologous recombination does not play an extensive roll in HCV evolution. Nevertheless, this mechanism can not be denied as a source for generating genetic diversity in natural populations of HCV, since a new intra-typic recombinant strain was found. Moreover, the recombination break-points were found in the structural region of the HCV genome

    Modeling gene sequences over time in 2009 H1N1 Influenza A Virus populations

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    <p>Abstract</p> <p>Background</p> <p>A sudden emergence of Influenza A Virus (IAV) infections with a new pandemic H1N1 IAV is taking place since April of 2009. In order to gain insight into the mode of evolution of these new H1N1 strains, we performed a Bayesian coalescent Markov chain Monte Carlo (MCMC) analysis of full-length neuraminidase (NA) gene sequences of 62 H1N1 IAV strains (isolated from March 30<sup>th </sup>to by July 28<sup>th</sup>, 2009).</p> <p>Results</p> <p>The results of these studies revealed that the expansion population growth model was the best to fit the sequence data. A mean of evolutionary change of 7.84 × 10<sup>-3 </sup>nucleotide substitutions per site per year (s/s/y) was obtained for the NA gene. A significant contribution of first codon position to this mean rate was observed. Maximum clade credibility trees revealed a rapid diversification of NA genes in different genetic lineages, all of them containing Oseltamivir-resistant viruses of very recent emergence. Mapping of naturally occurring amino acid substitutions in the NA protein from 2009 H1N1 IAV circulating in 62 different patients revealed that substitutions are distributed all around the surface of the molecule, leaving the hydrophobic core and the catalytic site essentially untouched.</p> <p>Conclusion</p> <p>High evolutionary rates and fast population growth have contributed to the initial transmission dynamics of 2009 H1N1 IAV. Naturally occurring substitutions are preferentially located at the protein surface and do not interfere with the NA active site. Antigenic regions relevant for vaccine development can differ from previous vaccine strains and vary among patients.</p

    Evidence of increasing diversification of emerging Severe Acute Respiratory Syndrome Coronavirus 2 strains

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    On 30th January 2020, an outbreak of atypical pneumonia caused by a novelbetacoronavirus, named severe acute respiratory syndrome coronavirus 2(SARS‐CoV‐2), was declared a public health emergency of international concern bythe World Health Organization. For this reason, a detailed evolutionary analysis ofSARS‐CoV‐2 strains currently circulating in different geographic regions of theworld was performed. A compositional analysis as well as a Bayesian coalescentanalysis of complete genome sequences of SARS‐CoV‐2 strains recently isolated inEurope, North America, South America, and Asia was performed. The results ofthese studies revealed a diversification of SARS‐CoV‐2 strains in three differentgenetic clades. Co‐circulation of different clades in different countries, as well asdifferent genetic lineages within different clades were observed. The time of themost recent common ancestor was established to be around 1st November 2019.A mean rate of evolution of 6.57 × 10−4substitutions per site per year was found.A significant migration rate per genetic lineage per year from Europe to SouthAmerica was also observed. The results of these studies revealed an increasingdiversification of SARS‐CoV‐2 strains. High evolutionary rates and fast populationgrowth characterizes the population dynamics of SARS‐CoV‐2 strains

    Genome-wide analysis of codon usage bias in Bovine Coronavirus

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    Background Bovine coronavirus (BCoV) belong to the genus Betacoronavirus of the family Coronaviridae. BCoV are widespread around the world and cause enteric or respiratory infections among cattle, leading to important economic losses to the beef and dairy industry worldwide. To study the relation of codon usage among viruses and their hosts is essential to understand host-pathogen interaction, evasion from host's immune system and evolution. Methods We performed a comprehensive analysis of codon usage and composition of BCoV. Results The global codon usage among BCoV strains is similar. Significant differences of codon preferences in BCoV genes in relation to codon usage of Bos taurus host genes were found. Most of the highly frequent codons are U-ending. G + C compositional constraint and dinucleotide composition also plays a role in the overall pattern of BCoV codon usage. Conclusions The results of these studies revealed that mutational bias is a leading force shaping codon usage in this virus. Additionally, relative dinucleotide frequencies, geographical distribution, and evolutionary processes also influenced the codon usage pattern

    Development of an IgY-Based treatment to control bovine Coronavirus diarrhea in dairy calves

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    Bovine Coronavirus (BCoV) is a major pathogen associated with neonatal calf diarrhea. Standard practice dictates that to prevent BCoV diarrhea, dams should be immunized in the last stage of pregnancy to increase BCoV-specific antibody (Ab) titers in serum and colostrum. For the prevention to be effective, calves need to suck maternal colostrum within the first six to twelve hours of life before gut closure to ensure a good level of passive immunity. The high rate of maternal Ab transfer failure resulting from this process posed the need to develop alternative local passive immunity strategies to strengthen the prevention and treatment of BCoV diarrhea. Immunoglobulin Y technology represents a promising tool to address this gap. In this study, 200 laying hens were immunized with BCoV to obtain spray-dried egg powder enriched in specific IgY Abs to BCoV on a large production scale. To ensure batch-to-batch product consistency, a potency assay was statistically validated. With a sample size of 241, the BCoV-specific IgY ELISA showed a sensitivity and specificity of 97.7% and 98.2%, respectively. ELISA IgY Abs to BCoV correlated with virus-neutralizing Ab titers (Pearson correlation, R2 = 0.92, p < 0.001). Most importantly, a pilot efficacy study in newborn calves showed a significant delay and shorter duration of BCoV-associated diarrhea and shedding in IgY-treated colostrum-deprived calves. Calves were treated with milk supplemented with egg powder (final IgY Ab titer to BCoV ELISA = 512; VN = 32) for 14 days as a passive treatment before a challenge with BCoV and were compared to calves fed milk with no supplementation. This is the first study with proof of efficacy of a product based on egg powder manufactured at a scale that successfully prevents BCoV-associated neonatal calf diarrhea.Instituto de VirologĂ­aFil: Bok, Marina. Instituto Nacional de TecnologĂ­a Agropecuaria (INTA). INCUINTA. Instituto de VirologĂ­a e Innovaciones Tecnologicas; ArgentinaFil: Bok, Marina. Consejo Nacional de Investigaciones CientĂ­ficas y TĂ©cnicas; ArgentinaFil: Bok, Marina. Bioinnovo S.A.; ArgentinaFil: Vega, Celina Guadalupe. Instituto Nacional de TecnologĂ­a Agropecuaria (INTA). INCUINTA. Instituto de VirologĂ­a e Innovaciones Tecnologicas; ArgentinaFil: Vega, Celina Guadalupe. Consejo Nacional de Investigaciones CientĂ­ficas y TĂ©cnicas; ArgentinaFil: Vega, Celina Guadalupe. Bioinnovo S.A.; ArgentinaFil: Castells, Matias. Universidad de la RepĂșblica. Centro Universitario de Salto. CENUR Litoral Norte. Laboratorio de VirologĂ­a Molecular; UruguayFil: Castells, Matias. National Institute of Agricultural Research (INIA). Animal Health Research; UruguayFil: Colina, Rodney. Universidad de la RepĂșblica. Centro Universitario de Salto. CENUR Litoral Norte. Laboratorio de VirologĂ­a Molecular; UruguayFil: Colina, Rodney. National Institute of Agricultural Research (INIA). Animal Health Research; UruguayFil: Wigdorovitz, Andres. Instituto Nacional de TecnologĂ­a Agropecuaria (INTA). INCUINTA. Instituto de VirologĂ­a e Innovaciones TecnolĂłgicas (IVIT),; ArgentinaFil: Wigdorovitz, Andres. Consejo Nacional de Investigaciones CientĂ­ficas y TĂ©cnicas; ArgentinaFil: Wigdorovitz, Andres. Bioinnovo S.A.; ArgentinaFil: Parreño, Gladys Viviana. Instituto Nacional de TecnologĂ­a Agropecuaria (INTA). INCUINTA. Instituto de Virologia e Innovaciones Tecnologicas (IVIT); ArgentinaFil: Parreño, Gladys Viviana. Consejo Nacional de Investigaciones CientĂ­ficas y TĂ©cnicas; ArgentinaFil: Parreño, Gladys Viviana. Bioinnovo S.A.; Argentin

    Complete genome sequence of a novel recombinant Citrus tristeza virus, a resistance-breaking isolate from Uruguay

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    We report here the complete genome sequence of a Citrus tristeza virus (CTV) from Uruguay, sequenced by using Illumina and Sanger sequencing technology. This CTV DSST-17 genome clustered within genotype resistance breaking (RB) and presents two recombination events

    Phylogenetic analyses of rotavirus a from cattle in uruguay reveal the circulation of common and uncommon genotypes and suggest interspecies transmission

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    Uruguay is one of the main exporters of beef and dairy products, and cattle production is one of the main economic sectors in this country. Rotavirus A (RVA) is the main pathogen associated with neonatal calf diarrhea (NCD), a syndrome that leads to significant economic losses to the livestock industry. The aims of this study are to determine the frequency of RVA infections, and to analyze the genetic diversity of RVA strains in calves in Uruguay. A total of 833 samples from dairy and beef calves were analyzed through RT-qPCR and sequencing. RVA was detected in 57.0% of the samples. The frequency of detection was significantly higher in dairy (59.5%) than beef (28.4%) calves (p < 0.001), while it did not differ significantly among calves born in herds that were vaccinated (64.0%) or not vaccinated (66.7%) against NCD. The frequency of RVA detection and the viral load were significantly higher in samples from diarrheic (72.1%, 7.99 log10 genome copies/mL of feces) than non-diarrheic (59.9%, 7.35 log10 genome copies/mL of feces) calves (p < 0.005 and p = 0.007, respectively). The observed G-types (VP7) were G6 (77.6%), G10 (20.7%), and G24 (1.7%), while the P-types were P[5] (28.4%), P[11] (70.7%), and P[33] (0.9%). The G-type and P-type combinations were G6P[11] (40.4%), G6P[5] (38.6%), G10P[11] (19.3%), and the uncommon genotype G24P[33] (1.8%). VP6 and NSP1-5 genotyping were performed to better characterize some strains. The phylogenetic analyses suggested interspecies transmission, including transmission between animals and humans.Fil: Castells, MatĂ­as. Universidad de la RepĂșblica; UruguayFil: Caffarena, RubĂ©n DarĂ­o. Universidad de la RepĂșblica; UruguayFil: Casaux, MarĂ­a Laura. Universidad de la RepĂșblica; UruguayFil: Schild, Carlos. Universidad de la RepĂșblica; UruguayFil: Miño, Samue. Instituto Nacional de TecnologĂ­a Agropecuaria; ArgentinaFil: Castells, Felipe. Universidad de la RepĂșblica; UruguayFil: Castells, Daniel. Universidad de la RepĂșblica; UruguayFil: Victoria, MatĂ­as. Universidad de la RepĂșblica; UruguayFil: Riet Correa, Franklin. Universidad de la RepĂșblica; UruguayFil: Giannitti, Federico. Universidad de la RepĂșblica; UruguayFil: Parreño, Gladys Viviana. Instituto Nacional de TecnologĂ­a Agropecuaria. Centro de InvestigaciĂłn En Ciencias Veterinarias y AgronĂłmicas. Instituto de VirologĂ­a E Innovaciones TecnolĂłgicas. - Consejo Nacional de Investigaciones CientĂ­ficas y TĂ©cnicas. Oficina de CoordinaciĂłn Administrativa Pque. Centenario. Instituto de VirologĂ­a E Innovaciones TecnolĂłgicas; ArgentinaFil: Colina, Rodney. Universidad de la RepĂșblica; Urugua

    eIF2α Phosphorylation Bidirectionally Regulates the Switch from Short- to Long-Term Synaptic Plasticity and Memory

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    SummaryThe late phase of long-term potentiation (LTP) and memory (LTM) requires new gene expression, but the molecular mechanisms that underlie these processes are not fully understood. Phosphorylation of eIF2α inhibits general translation but selectively stimulates translation of ATF4, a repressor of CREB-mediated late-LTP (L-LTP) and LTM. We used a pharmacogenetic bidirectional approach to examine the role of eIF2α phosphorylation in synaptic plasticity and behavioral learning. We show that in eIF2α+/S51A mice, in which eIF2α phosphorylation is reduced, the threshold for eliciting L-LTP in hippocampal slices is lowered, and memory is enhanced. In contrast, only early-LTP is evoked by repeated tetanic stimulation and LTM is impaired, when eIF2α phosphorylation is increased by injecting into the hippocampus a small molecule, Sal003, which prevents the dephosphorylation of eIF2α. These findings highlight the importance of a single phosphorylation site in eIF2α as a key regulator of L-LTP and LTM formation

    Evolution of naturally occurring 5'non-coding region variants of Hepatitis C virus in human populations of the South American region

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    <p>Abstract</p> <p>Background</p> <p>Hepatitis C virus (HCV) has been the subject of intense research and clinical investigation as its major role in human disease has emerged. Previous and recent studies have suggested a diversification of type 1 HCV in the South American region. The degree of genetic variation among HCV strains circulating in Bolivia and Colombia is currently unknown. In order to get insight into these matters, we performed a phylogenetic analysis of HCV 5' non-coding region (5'NCR) sequences from strains isolated in Bolivia, Colombia and Uruguay, as well as available comparable sequences of HCV strains isolated in South America.</p> <p>Methods</p> <p>Phylogenetic tree analysis was performed using the neighbor-joining method under a matrix of genetic distances established under the Kimura-two parameter model. Signature pattern analysis, which identifies particular sites in nucleic acid alignments of variable sequences that are distinctly representative relative to a background set, was performed using the method of Korber & Myers, as implemented in the VESPA program. Prediction of RNA secondary structures was done by the method of Zuker & Turner, as implemented in the <it>mfold </it>program.</p> <p>Results</p> <p>Phylogenetic tree analysis of HCV strains isolated in the South American region revealed the presence of a distinct genetic lineage inside genotype 1. Signature pattern analysis revealed that the presence of this lineage is consistent with the presence of a sequence signature in the 5'NCR of HCV strains isolated in South America. Comparisons of these results with the ones found for Europe or North America revealed that this sequence signature is characteristic of the South American region.</p> <p>Conclusion</p> <p>Phylogentic analysis revealed the presence of a sequence signature in the 5'NCR of type 1 HCV strains isolated in South America. This signature is frequent enough in type 1 HCV populations circulating South America to be detected in a phylogenetic tree analysis as a distinct type 1 sub-population. The coexistence of distinct type 1 HCV subpopulations is consistent with quasispecies dynamics, and suggests that multiple coexisting subpopulations may allow the virus to adapt to its human host populations.</p
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