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1.
Dengue has been well recognized as a global public health threat,but only sporadic epidemics and imported cases were reported in recent decades in China.Since July 2014,an unexpected large dengue outbreak has occurred in Guangdong province,China,resulting in more than 40000 patients including six deaths.To clarify and characterize the causative agent of this outbreak,the acute phase serum from a patient diagnosed with severe dengue was subjected to virus isolation and high-throughput sequencing(HTS).Traditional real-time RT-PCR and HTS with Ion Torrent PGM detected the presence of dengue virus serotype 2(DENV-2).A clinical DENV-2 isolate GZ05/2014 was obtained by culturing the patient serum in mosquito C6/36 cells.The complete genome of GZ05/2014 was determined and deposited in Gen Bank under the access number KP012546.Phylogenetic analysis based on the complete envelope gene showed that the newly DENV-2 isolate belonged to Cosmopolitan genotype and clustered closely with other Guangdong strains isolated in the past decade.No amino acid mutations that are obviously known to increase virulence or replication were identified throughout the genome of GZ05/2014.The high homology of Guangdong DENV-2 strains indicated the possibility of establishment of local DENV-2 circulation in Guangdong,China.These results help clarify the origin of this epidemic and predict the future status of dengue in China.  相似文献   

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NS2B-NS3 protease is an essential enzyme for the replication of dengue virus (DENV), which continues to be a serious threat to worldwide public health. We designed and synthesized a series of cyclic peptides mimicking the substrates of this enzyme, and assayed their activity against the DENV-2 NS2B-NS3 protease. The introduction of aromatic residues at the appropriate positions and conformational restriction generated the most promising cyclic peptide with an IC50 of 0.95 μM against NS2B-NS3 protease. Cyclic peptides with proper positioning of additional arginines and aromatic residues exhibited antiviral activity against DENV. Furthermore, replacing the C-terminal amide bond of the polybasic amino acid sequence with an amino methylene moiety stabilized the cyclic peptides against hydrolysis by NS2B-NS3 protease, while maintaining their enzyme inhibitory activity and antiviral activity.  相似文献   

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Dengue virus (DENV) infections represent a significant concern for public health worldwide, being considered as the most prevalent arthropod-borne virus regarding the number of reported cases. In this study, we report the complete genome sequencing of a DENV serotype 4 isolate, genotype II, obtained in the city of Manaus, directly from the serum sample, applying Ion Torrent sequencing technology. The use of a massive sequencing technology allowed the detection of two variable sites, one in the coding region for the viral envelope protein and the other in the nonstructural 1 coding region within viral populations.  相似文献   

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Development of complementary and/or alternative drugs for treatment of hepatitis C virus (HCV) infection is still much needed from clinical and economic points of view. Antiviral substances obtained from medicinal plants are potentially good targets to study. Glycyrrhiza uralensis and G. glabra have been commonly used in both traditional and modern medicine. In this study, extracts of G. uralensis roots and their components were examined for anti‐HCV activity using an HCV cell culture system. It was found that a methanol extract of G. uralensis roots and its chloroform fraction possess anti‐HCV activity with 50%‐inhibitory concentrations (IC50) of 20.0 and 8.0 μg/mL, respectively. Through bioactivity‐guided purification and structural analysis, glycycoumarin, glycyrin, glycyrol and liquiritigenin were isolated and identified as anti‐HCV compounds, their IC50 being 8.8, 7.2, 4.6 and 16.4 μg/mL, respectively. However, glycyrrhizin, the major constituent of G. uralensis, and its monoammonium salt, showed only marginal anti‐HCV activity. It was also found that licochalcone A and glabridin, known to be exclusive constituents of G. inflata and G. glabra, respectively, did have anti‐HCV activity, their IC50 being 2.5 and 6.2 μg/mL, respectively. Another chalcone, isoliquiritigenin, also showed anti‐HCV activity, with an IC50 of 3.7 μg/mL. Time‐of‐addition analysis revealed that all Glycyrrhiza‐derived anti‐HCV compounds tested in this study act at the post‐entry step. In conclusion, the present results suggest that glycycoumarin, glycyrin, glycyrol and liquiritigenin isolated from G. uralensis, as well as isoliquiritigenin, licochalcone A and glabridin, would be good candidates for seed compounds to develop antivirals against HCV.  相似文献   

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Dengue infection is a major cause of morbidity in tropical and subtropical regions, bringing nearly 40% of the world population at risk and causing more than 20,000 deaths per year. But there is neither a vaccine for dengue disease nor antivirai drugs to treat the infection. In recent years, dengue infection has been particularly prevalent in India, Southeast Asia, Brazil, and Guangdong Province, China. In this article, we present a brief summary of the biological characteristics of dengue virus and associated flaviviruses, and outline the prowess on studies of vaccines and drugs based on potential targets of the dengue virus.  相似文献   

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Dengue virus (DENV) is still a major threat to human health in most tropical and subtropical countries and regions. In the present study, a multi‐epitope DNA vaccine that encodes 15 immunogenic and conserved HLA‐A*0201‐, HLA‐A*1101‐, HLA‐A*2402‐restricted CTL epitopes from DENV serotype 1 (DENV‐1) was constructed based on the eukaryotic expressing plasmid pcDNATM3.1/mycHis(?) A. Immunization of HLA‐A*0201, HLA‐A*1101 and HLA‐A*2402 transgenic mice with the recombinant plasmid pcDNATM3.1/mycHis(?) A‐DENV‐1‐Meg resulted in significantly greater IFN‐γ‐secreting T‐cell responses against most (14/15) CTL epitopes than occurred in mice immunized with the empty plasmid pcDNATM3.1/mycHis(?) A. Additionally, the epitope‐specific T cells directed to some epitopes secreted not only IFN‐γ but also IL‐6 and/or TNF‐α. Finally, the induced epitope‐specific T cells also efficiently lysed epitope‐pulsed splenocytes and DENV‐1‐infected splenic monocytes. The present study confirms the immunogenicity of multi‐epitope DENV vaccine, suggesting that it may contribute to the development of a universal DENV vaccine.
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Dengue virus C protein, essential in the dengue virus life cycle, possesses a segment, peptide PepC, known to bind membranes composed of negatively charged phospholipids. To characterize its interaction with the membrane, we have used the molecular dynamics HMMM membrane model system. This approach is capable of achieving a stable system and sampling the peptide/lipid interactions which determine the orientation and insertion of the peptide upon membrane binding. We have been able to demonstrate spontaneous binding of PepC to the 1,2-divaleryl-sn-glycero-3-phosphate/1,2-divaleryl-sn-glycero-3-phosphocholine membrane model system, whereas no binding was observed at all for the 1,2-divaleryl-sn-glycero-3-phosphocholine one. PepC, adopting an α-helix profile, did not insert into the membrane but did bind to its surface through a charge anchor formed by its three positively charged residues. PepC, maintaining its three-dimensional structure along the whole simulation, presented a nearly parallel orientation with respect to the membrane when bound to it. The positively charged amino acid residues Arg-2, Lys-6, and Arg-16 are mainly responsible for the peptide binding to the membrane stabilizing the structure of the bound peptide. The segment of dengue virus C protein where PepC resides is a fundamental protein–membrane interface which might control protein/membrane interaction, and its positive amino acids are responsible for membrane binding defining its specific location in the bound state. These data should help in our understanding of the molecular mechanism of DENV life cycle as well as making possible the future development of potent inhibitor molecules, which target dengue virus C protein structures involved in membrane binding.  相似文献   

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While virus-like particles (VLPs) containing subgenomic replicons, which can transduce replicons into target cells efficiently for studying viral replication and vectors of gene therapy and vaccine, have been established for several flaviviruses, none has been reported for the four serotypes of dengue virus, the causal agent of the most important arboviral diseases in this century. In this study, we successfully established a cell line stably expressing the precursor membrane/envelope (PrM/E) proteins of dengue virus type 2 (DENV2), which can package a DENV2 replicon with deletion of PrM/E genes and produce single-round infectious VLPs. Moreover, it can package a similar replicon of different serotype, dengue virus type 4, and produce infectious chimeric VLPs. To our knowledge, this study reports for the first time replicon-containing VLPs of dengue virus. Moreover, this convenient system has potential as a valuable tool to study encapsidation of dengue virus and to develop novel chimeric VLPs containing dengue virus replicon as vaccine in the future.  相似文献   

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Development of a serotyping-capable dengue detection test is hampered by the absence of an identified unique marker that can detect specific dengue virus (DENV) serotype. In the current commercially available antibody-capture diagnostic methods, immobilized nonstructural 1 (NS1) antigen indiscriminately binds and detects immunoglobulin M or immunoglobulin G against any serotype, thus limiting its capability to distinguish existing serotypes of dengue. Identification of dengue serotype is important because certain serotypes are associated with severe forms of dengue as well as dengue hemorrhagic fever. In this study, we aimed to identify an immunogenic epitope unique to DENV2 NS1 antigen and determine the binding specificity of its synthetic peptide mimotope to antibodies raised in animal models. Selection of a putative B-cell epitope from the reported DENV2 NS1 antigen was done using Kolaskar and Tongaonkar Antigenicity prediction, Emini surface accessibility prediction, and Parker hydrophilicity prediction available at the immune epitope database and analysis resource. Uniqueness of the B-cell epitope to DENV2 was analyzed by BLASTp. Immunogenicity of the synthetic peptide analog of the predicted immunogenic epitope was tested in rabbits. The binding specificity of the antibodies raised in animals and the synthetic peptide mimotope was tested by indirect ELISA. A synthetic peptide analog comprising the unique epitope of DENV2 located at the 170th–183rd position of DENV2 NS1 was found to be immunogenic in animal models. The antipeptide antibody produced in rabbits showed specific binding to the synthetic peptide mimotope of the predicted unique DENV2 NS1 immunogenic epitope.  相似文献   

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采用高保真RT-PCR自登革2型病毒43株基因组RNA中扩增全长C基因及缺失羧基端Cv片段,分别构建可表达C及Cv的重组质粒pLEX—C和pLEX—Cv,转化E.coliGI724后用色氨酸诱导表达。经SDS—PAGE分析,表达的C及Cv蛋白相对分子质量分别约为12000和10000,分别约占菌体蛋白总量的19%和13%。Western印迹检测表明重组表达的C蛋白均可被特异识别登革病毒衣壳蛋白的单克隆抗体特异识别。表达的蛋白经过硫酸铵沉淀和蔗糖密度梯度离心后,通过琼脂糖凝胶电泳和负染电镜均未能检测到衣壳样颗粒的存在,说明登革病毒衣壳蛋白可能不具体外自组装活性。  相似文献   

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目的构建以乙型脑炎病毒(Japanese encephalitis virus,JEV)疫苗株SA14-14-2为基因骨架的乙脑/登革4型嵌合病毒,并分析该嵌合病毒对小鼠的神经毒力。方法通过重叠PCR方法扩增含有登革病毒4型(DENV-4)H241株pr ME基因序列和乙型脑炎病毒疫苗株SA14-14-2的NS1蛋白前177个核苷酸的融合片段,用Nar I和Bgl II双酶切后替换乙型脑炎病毒疫苗株SA14-14-2全长克隆中的相应区域,构建成乙脑/登革4型嵌合全长克隆,通过体外转录和转染BHK21细胞获得嵌合病毒(JEV/DENV-4 chimeric virus,JD4)。通过测定嵌合病毒JD4和2个母本株JEV SA14-14-2株及DENV-4 H241株蚀斑大小、小鼠脑内神经毒力和皮下感染入脑能力、乳鼠脑内神经毒力,比较JD4和母本株之间的差异。通过将JD4在原代地鼠肾(primary hamster kidney,PHK)细胞传代30次,分析传代后嵌合病毒的神经毒力是否减弱及减弱的程度。结果测序结果表明,构建的嵌合病毒JD4基因组序列和预期一致,没有产生新的位点突变。JD4蚀斑较SA14-14-2明显偏小,但和DENV-4 H241株没有明显区别。JD4对3周龄小鼠具有较强的脑内神经毒力,和母本株DENV-4 H241没有差异,对小鼠没有神经侵袭力。乳鼠实验结果表明,嵌合病毒JD4脑内神经毒力虽然略低于母本株DENV-4 H241,但两者之间没有明显差异,都明显强于乙脑疫苗株SA14-14-2。在PHK细胞传代30次后,小鼠神经毒力虽然有所减低,但并不明显。结论成功构建了嵌合病毒JD4,通过测定并比较JD4与母本株的蚀斑特征、小鼠及乳鼠神经毒力等试验,为分析登革疫苗候选株安全性研究奠定了基础。  相似文献   

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Dengue fever is one of the most widespread tropical diseases in the world. The disease is caused by a virus member of the Flaviviridae family, a group of enveloped positive sense single-stranded RNA viruses. Dengue virus infection is mediated by virus glycoprotein E, which binds to the cell surface. After uptake by endocytosis, this protein induces the fusion between viral envelope and endosomal membrane at the acidic environment of the endosomal compartment. In this work, we evaluated by steady-state and time-resolved fluorescence spectroscopy the interaction between the peptide believed to be the dengue virus fusion peptide and large unilamellar vesicles, studying the extent of partition, fusion capacity and depth of insertion in membranes. The roles of the bilayer composition (neutral and anionic phospholipids), ionic strength and pH of the medium were also studied. Our results indicate that dengue virus fusion peptide has a high affinity to vesicles composed of anionic lipids and that the interaction is mainly electrostatic. Both partition coefficient and fusion index are enhanced by negatively charged phospholipids. The location determined by differential fluorescence quenching using lipophilic probes demonstrated that the peptide is in an intermediate depth in the hemilayers, in-between the bilayer core and its surface. Ultimately, these data provide novel insights on the interaction between dengue virus fusion peptide and its target membranes, namely, the role of oligomerization and specific types of membranes.  相似文献   

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The virulence of bacterial communities may be regulated by mechanisms involving the synthesis of the quorum-sensing signal autoinducer 2 (AI-2), which allows both intra- and interspecies communication. AI-2 is produced in bacteria that express the gene luxS . In the present study, expressed and purified LuxS from Streptococcus suis serotype 2 (SS2) was used to catalyze the substrate S -ribosylhomocysteine in a reaction that leads to the production of AI-2. The biological activity of the in vitro synthesized AI-2 was demonstrated in a Vibrio harveyi strain BB170 bioassay; real-time PCR results showed that biosynthesis of AI-2 can increase the virulence of SS2. Phage-encoded peptides that specifically interact with the LuxS enzyme were selected following three rounds of phage display. One such peptide inhibitor (TNRHNPHHLHHV) of LuxS was shown to partially inhibit the activity of the enzyme. Furthermore, 14 peptides containing the consensus sequence HSIR showed high affinity with LuxS. The selected and characterized specific inhibitor as well as the high-affinity ligands may facilitate the identification of new vaccination targets, opening up new approaches to the development of therapeutic drugs.  相似文献   

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登革Ⅱ型病毒在白纹伊蚊体内分布的研究   总被引:7,自引:2,他引:7  
利用蚊虫连续石蜡切片免疫组织化学技术,对登革Ⅱ型病毒(DEN-2)感染白纹伊蚊Aedes albopictus后的散播时间、程度及组织器官的感染顺序进行监测,以了解DEN-2在媒介白纹伊蚊体内的分布规律。结果表明:大剂量感染登革Ⅱ型病毒后,在蚊虫消化道的主要部位以及大多数组织器官包括神经及内分泌系统在内,如涎腺、脑、神经节等亦检测到病毒抗原。登革Ⅱ型病毒一旦感染并逸出中肠会迅速侵染其它组织。从各组织感染率的高低推断,病毒逸出中肠后通过血淋巴传播到其它组织的顺序通常为:前肠、涎腺、咽部神经节、脑及食管下神经节、后肠及复眼的小眼等。  相似文献   

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Selection-driven evolution of emergent dengue virus   总被引:5,自引:0,他引:5  
In the last four decades the incidence of dengue fever has increased 30-fold worldwide, and over half the world's population is now threatened with infection from one or more of four co-circulating viral serotypes (DEN-1 through DEN-4). To determine the role of viral molecular evolution in emergent disease dynamics, we sequenced 40% of the genome of 82 DEN-4 isolates collected from Puerto Rico over the 20 years since the onset of endemic dengue on the island. Isolates were derived from years with varying levels of DEN-4 prevalence. Over our sampling period there were marked evolutionary shifts in DEN-4 viral populations circulating in Puerto Rico; viral lineages were temporally clustered and the most common genotype at a particular sampling time often arose from a previously rare lineage. Expressed changes in structural genes did not appear to drive this lineage turnover, even though these regions include primary determinants of viral antigenic properties. Instead, recent dengue evolution can be attributed in part to positive selection on the nonstructural gene 2A (NS2A), whose functions may include replication efficiency and antigenicity. During the latest and most severe DEN-4 epidemic in Puerto Rico, in 1998, viruses were distinguished by three amino acid changes in NS2A that were fixed far faster than expected by drift alone. Our study therefore demonstrates viral genetic turnover within a focal population and the potential importance of adaptive evolution in viral epidemic expansion.  相似文献   

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