3株肠道病毒71型毒株的全基因组序列分析

目的：对获得的3株肠道病毒71（EV71）型毒株进行全基因组序列测定,并对其进化特点及分型进行初步分析。方法：提取病毒RNA,反转录得到eDNA,PCR分段扩增覆盖病毒全长序列的6个重叠片段（不包括多聚腺苷酸尾）;用软件将3株EV71的备片段序列进行拼接、编辑和校正,随后进行氨基酸翻译及序列比较;用MEGA4.1软件构建系统进化树。结果：获得了3株EV71的全长序列：GDV103株基因组全长7404 nt,包括741bp的5’端非编码区（UTR）、6582bp的病毒基因组编码区（ORF）及81bp的3’UTR;安徽株（Anhui2007）基因组全长7405nt,包括742bp的5＇UTR、6582bp的ORF及81bp的3＇UTR;VR1432株基因组全长7408nt,包括743bp的5’UTR、6582bp的ORF及83bp的3’UTR长。经同源性比对和进化树分析,证实GDV103和安徽株EV71属于C基因型的C4基因亚型。而VR1432株则属于C基因型的C2基因亚型。结论：获得了3株EV71的全长基因组序列,并进一步探讨了其型别,为下一步的干扰素保护宴,哈重定了基础．     

2008～2010年河南省人肠道病毒71型基因特征和重组分析

对河南省2008～2010年河南省人肠道病毒71型进行基因特征及重组特点研究。对河南省2008～2010年分离的5株肠道病毒EV71型构建VP1序列系统进化树并分析其全基因组序列的重组特点。VP1序列系统进化分析显示2008～2010年河南株均属于C4基因型的C4a亚群,Bootscan分析和5’NCR、P1、P2、P3区的进化树证实C4基因型在2A～2B处存在EV71的B基因型和C基因型的型内重组及在3B～3C处存在EV71的B基因型和CA16/G-10间的型间重组。2008～2010年河南EV71分离株为C4基因型的C4a亚群,与2004年以来的中国大陆优势株流行趋势完全一致,EV71C4基因型存在基因型内和型间双重组现象。     

肠道病毒71型北京分离株VP4基因序列及蛋白抗原性分析

为探讨肠道病毒71型(EV71)VP4基因序列与手足口病(HFMD)不同临床类型之间的关系,分析重组蛋白EV71 VP4的抗原性,并初步探讨其与柯萨奇病毒A16(CA16)重组蛋白VP4是否存在交叉反应性,对2007~2009年从北京患HFMD儿童标本分离到的10株EV71的VP4基因进行克隆测序,运用生物学软件对测序结果进行比较分析,并选择其中1株与1株同期分离的CA16的VP4分别进行原核表达;用表达产物对189份正常体检的成人及来首都儿科研究所就医的非HFMD患儿血清中的IgG进行Western Blot检测,并分析14份确诊为EV71感染和12份CA16感染患者急性期血清中的IgM抗体。分析表明这10株EV71 VP4基因核苷酸同源性为94.20%~100.00%,所推导的氨基酸序列则完全相同,从重症与轻症患儿分离的毒株之间VP4的核苷酸序列未见一致性的差异,基于EV71 VP4基因核苷酸序列的进化树分析表明2007~2009年北京地区所流行的毒株均属于C4亚型;本研究中EV71和CA16的VP4核苷酸序列的同源性为69.60%,所推导的氨基酸序列的同源性为78.60%,在运用Western Blot检测189份血清中的VP4特异性IgG时,EV71 VP4的血清阳性率为38.10%,说明其具有良好的抗原性,CA16 VP4的血清阳性率为58.20%,两者差别具有显著统计学意义(2χ=15.30,P<0.01),提示EV71 VP4与CA16 VP4没有交叉反应性;在用表达的VP4检测已确诊为相应病毒的特异性IgM时,两者皆为阴性,提示感染后机体对VP1和VP4产生不同的反应。     

2009年广州人肠道病毒EV71型分离株重组分析

对人肠道病毒EV71型2009年广州分离株Guangzhou09构建序列系统进化树并分析其重组特点。P1、P2和P3区种系发生进化树提示该分离株发生重组,相似性曲线以及bootscan进一步分析显示该分离株于非结构编码蛋白2B片段区(核苷酸位置4 027bp)处存在EV71亚型C4Shanghai-FJ713137与CVA409-HQ728260型间重组。该分离株与中国大陆目前优势株流行趋势一致,是广州首例发生型间重组且由C4亚型及CVA4型发生重组。     

天津市致病毒性脑炎柯萨奇病毒B组5型全基因组序列分析

肠道病毒是我国病毒性脑炎(Viral encephalitis,VE)的主要病原体。本文研究对4株引起VE的天津柯萨奇病毒B组5型(Coxsackievirus B5,CV-B5)分离株进行Illumina MiniSeq高通量测序,并对其全基因组特征、进化及重组特点进行分析。结果提示,4株CV-B5天津分离株的全基因组核苷酸和氨基酸序列同源性分别为84.5%~100.0%和98.1%~100.0%,与国内流行株的全基因组核苷酸序列同源性为83.2%~96.5%,氨基酸序列同源性为96.4%~99.4%。基于全基因组的系统进化分析将CV-B5流行株分为A-D四个基因型,其中天津与国内流行株均属于C基因型。C基因型进一步分为3个进化分支,而天津分离株处在两个不同的分支上。基于基因组各区段序列的系统进化与SimPlot重组分析结果显示,天津分离株15-39N、15-41N与埃可病毒30型(Echovirus 30,E-30)原型株在P3区3B、3C、3D区域均检测到重组信号。本研究有助于了解CV-B5的全基因组特点和重组规律,为相关疾病的防控提供依据。     

陕西省9株乙脑病毒的分离及E基因序列分析

分析陕西省分离的9株乙脑病毒基因组序列特征。使用乙脑病毒全基因组序列测定引物进行RT-PCR扩增,扩增产物进行测序,拼接后获得基因组序列。利用MEGA 4.1、MegAlin、MEGA7.0等软件进行毒株的系统进化分析,并与P3株、减毒活疫苗SA14-14-2株及覆盖5个基因型别的其他乙脑病毒进行E基因序列比对。9株分离株3株分离自猪舍、6株分离自羊舍,其中4株获得全基因组序列,5株测得E基因序列。基于E基因序列进行毒株核苷酸、氨基酸同源性比较,结果显示分离株均与基因I型GI-b亚型毒株核苷酸和氨基酸同源性最高,核苷酸同源性范围为96.5%～99.7%、氨基酸同源性范围99.2%～100.0%;与SA14-14-2株核苷酸同源性范围为87.5%～88.9%、氨基酸同源性范围96.3%～97.2%;与P3株核苷酸同源性范围为87.6%～88.1%、氨基酸同源性范围96.7%～97.6%。分析09年（陕南地区）分离株与18年（关中地区）分离株的E基因核苷酸差异率为1.8%～2.9%、氨基酸差异率为0%～0.8%。陕西省自然界中循环的乙脑病毒以基因Ⅰ型为主,与P3株在抗原毒力关键位点无差异,...     

肠道病毒71型中国分离株全基因组核苷酸序列分析

对肠道病毒71型(enterovirus71,EV71)中国(深圳)分离株SHZH98基因组建立了覆盖全基因组的5个首尾重叠的克隆,并在此基础上进行了全基因组(未包括多聚腺苷酸尾)7408个碱基的核苷酸序列测定.数据分析表明,SHZH98株与其他EV71毒株相比,5′UTR和3′UTR的长度和序列有一定的差异.同源性分析发现,与免疫源性密切相关的P1结构蛋白基因与台湾流行株的同源性最高,与欧美流行株的同源性较低,P2,P3区非结构蛋白基因的同源性与Coxsakievirus A16及MS,BrCr株较高,而与台湾流行株相比则较低.遗传进化分析发现,SHZH98株结构蛋白基因与台湾流行株亲缘关系较近,而非结构蛋白基因与Coxsakievirus A16及MS,BrCr株的亲缘关系较近.上述结果在分子水平上对肠道病毒71型中国分离株进行分析,并探索了中国分离株的可能进化途径,有助于肠道病毒71型及整个肠道病毒的基础研究和我国对于EV71所致疾病的预防.     

2010年浙江省部分地区急性出血性 结膜炎暴发疫情病原学研究

为查明引起2010年浙江省急性出血性结膜炎(AHC)暴发疫情的病因,并对病原进行分子溯源。本研究采用荧光RT-PCR方法直接从患者眼拭子样本中检测肠道病毒(EV)和柯萨奇病毒A24变异株(CA24v)核酸;用Hep-2细胞分离病毒,对阳性分离物提取病毒核酸后进行VP1全基因和3C蛋白酶区(3C)扩增和测序,同源性与进化分析。结果13份眼拭子样本中EV和CA24v核酸均阳性8份,分离到CA24v6株。选取4株病毒测序,获得VP1全长均为915个核苷酸(nt),3C区全长495nt,VP1和3C区均没有nt插入和缺失。2010年浙江4株CA24v分离株之间在3C区和VP1区核苷酸和氨基酸(aa)高度同源,2010年浙江CA24v分离株与原型株EH24/70在3C区的nt和aa同源性分别为85.2%～85.8%和96.2%～96.7%,与2002～2008年浙江、云南和广东CA24v株的同源性分别为93.4%～96.2%和96.7%～99.3%;浙江2010年CA24v株在3C区进化树的GⅣ基因亚型C4分枝上(GⅣ-C4),在VP1基因进化树的人类肠道病毒C组(EV-C)CA24v分枝上。研究表明引起2010年浙江省急性出血性结膜炎暴发流行的病原为CA24v,GⅣ基因亚型,与引起2002～2008年浙江AHC流行的CA24v株(GⅣ)具有密切的亲缘关系,推测CA24v病毒自2002年以来一直在本地低强度循环,2010年又导致了浙江AHC的暴发。     

Characterization of full-length enterovirus 71 strains from severe and mild disease patients in northeastern China

Human enterovirus 71 (EV71)-associated hand, foot, and mouth disease (HFMD) has been a leading cause of childhood infection in China since 2008. Epidemic and molecular characteristics of HFMD have been examined in many areas of China, including the central and southern regions. However, clinical and genetic characterization of EV71 in the northeastern region of China is scarce. In this study, a series of analyses were performed on seven full-length EV71 sequences from HFMD patients who had either severe or mild disease. We have determined that these seven circulating EV71 viruses from Changchun, China are actually complex recombinant viruses involving multiple type A human enterovirus (HEV). Classified as EV71 subtype C4 (EV71 C4), these Changchun EV71 viruses contain genetic recombination events between the CA4, CA5, EV71B4 and EV71C1 strains. Most of the structural protein region (P1) of these viruses resembled that of the prototype EV71 C1 strains. The non-structural protein domains (P2 and P3) showed a high degree of similarity with CA4, CA5 and EV71 B4 in different regions. The 5'UTR had unclassified recombination,while partial 3D region of these viruses showed a high degree of similarity to CA16. Phylogenetic analysis of full-length or partial sequences of isolates from severe or mild disease patients in Changchun always formed a single cluster in various phylogenetic analyses of different genomic regions, suggesting that all seven strains originated from one single common ancestor. There was no correlation between viral genomic sequence and virulence. Thus, we found that circulating recombinant forms of EV71 are prevalent among HFMD patients in Northeastern China. The existence of a unique cluster of EV71 related viruses in Northeast China has important implications for vaccine development that would address the increasing prevalence of HFMD.     

Prevalence of Multiple Enteroviruses Associated with Hand,Foot, and Mouth Disease in Shijiazhuang City,Hebei Province,China: Outbreaks of Coxsackieviruses A10 and B3

Hand, foot, and mouth disease (HFMD) has been one of the most common infectious diseases in Shijiazhuang City, as is the situation in China overall. In the National HFMD surveillance system, the pathogen detection was focused on EV-A71 and CVA16, and therefore, information on the other EVs is very limited. In order to identify the circulating EV serotypes in the HFMD outbreaks in Shijiazhuang City during 2010–2012, 4045 patients presented with HFMD were recruited in the study, and clinical samples were investigated. Typing of EV serotypes was performed using the molecular typing methods, and phylogenetic analyses based on entire VP1 sequences of human enterovirus 71 (EV-A71), coxsackievirus A16 (CVA16), CVA10 and CVB3 was performed. The results revealed that EV-A71 and CVA16 were the 2 most important pathogens but the circulating trends of the 2 viruses showed a shift, the spread of EV-A71 became increasingly weak, whereas the spread of CVA16 became increasingly stronger. CVA10 and CVB3 were the third and fourth most prevalent pathogens, respectively. Co-infection of two viruses at the same time was not found in these samples. Based on entire VP1 region sequences, the phylogenetic analysis revealed that C4a subgenotype EV-A71, B1a and B1b subgenotype CVA16 continued to evolve. The CVA10 strains were assigned to 4 genotypes (A–D), whereas the CVB3 strains were assigned to 5 genotypes (A–E), with clear geographical and temporal-specific distributions. The Shijiazhuang CVA10 sequences belonged to 4 epidemic lineages within genotype C, whereas the Shijiazhuang CVB3 sequences belonged to 2 epidemic lineages within genotype E, which may have the same origins as the strains reported in other part of China. CVA10 and CVB3, 2 pathogens that were previously infrequently detected, were identified as pathogens causing the HFMD outbreaks. This study underscores the need for detailed laboratory-based surveillances of HFMD in mainland China.     

Genotype-specific genomic markers associated with primary hepatomas, based on complete genomic sequencing of hepatitis B virus

We aimed to identify genomic markers in hepatitis B virus (HBV) that are associated with hepatocellular carcinoma (HCC) development by comparing the complete genomic sequences of HBVs among patients with HCC and those without. One hundred patients with HBV-related HCC and 100 age-matched HBV-infected non-HCC patients (controls) were studied. HBV DNA from serum was directly sequenced to study the whole viral genome. Data mining and rule learning were employed to develop diagnostic algorithms. An independent cohort of 132 cases (43 HCC and 89 non-HCC) was used to validate the accuracy of these algorithms. Among the 100 cases of HCC, 37 had genotype B (all subgenotype Ba) and 63 had genotype C (16 subgenotype Ce and 47 subgenotype Cs) HBV infection. In the control group, 51 had genotype B and 49 had genotype C (10 subgenotype Ce and 39 subgenotype Cs) HBV infection. Genomic algorithms associated with HCC were derived based on genotype/subgenotype-specific mutations. In genotype B HBV, mutations C1165T, A1762T and G1764A, T2712C/A/G, and A/T2525C were associated with HCC. HCC-related mutations T31C, T53C, and A1499G were associated with HBV subgenotype Ce, and mutations G1613A, G1899A, T2170C/G, and T2441C were associated with HBV subgenotype Cs. Amino acid changes caused by these mutations were found in the X, envelope, and precore/core regions in association with HBV genotype B, Ce, and Cs, respectively. In conclusion, infections with different genotypes of HBV (B, Ce, and Cs) carry different genomic markers for HCC at different parts of the HBV genome. Different HBV genotypes may have different virologic mechanisms of hepatocarcinogenesis.     

Phylogenetic Analysis of Enterovirus 71 Circulating in Beijing,China from 2007 to 2009

The major pathogens of hand, foot and mouth disease (HFMD) in Beijing, China from 2007 to 2009 were identified in this study. A total of 186 HFMD cases were included, and 136 cases (73%) were positive for enterovirus (EV). In 2007, 75% (27/36) were Coxsackievirus A16 (CA16) positive and 19% (7/36) were Enterovirus 71 (EV71) positive cases. However, EV71 was the predominant virus in 2008, when 56% (31/55) of the cases were positive for EV71 and 22% (12/55) were positive for CA16. In 2009, EV71 and CA16, with positive rates of 36% (16/45) and 29% (13/45), respectively, were still the major pathogens of HFMD. Phylogenetic analysis revealed that the dominant genotype of EV71 was C4, with co-circulation of genotype A in 2009. The prevalent cluster of the EV71 subgenotype C4 changed over time. A proposed new sublineage of EV71, C4a-2, was the predominant virus associated with the Beijing and nationwide HFMD outbreaks since 2008 and amino acid substitution, which possibly link to the central nervous system tropism of EV71, was found in genotype A viruses. Persistent surveillance of HFMD-associated pathogens is required for predicting potential emerging viruses and related disease outbreaks.     

Co-Circulation and Genomic Recombination of Coxsackievirus A16 and Enterovirus 71 during a Large Outbreak of Hand,Foot, and Mouth Disease in Central China

A total of 1844 patients with hand, foot, and mouth disease (HFMD), most of them were children of age 1–3-year-old, in Central China were hospitalized from 2011 to 2012. Among them, 422 were infected with coxsackievirus A16 (CVA16), 334 were infected with enterovirus 71 (EV71), 38 were co-infected with EV71 and CVA16, and 35 were infected with other enteroviruses. Molecular epidemiology analysis revealed that EV71 and CVA16 were detected year-round, but EV71 circulated mainly in July and CVA16 circulated predominantly in November, and incidence of HFMD was reduced in January and February and increased in March. Clinical data showed that hyperglycemia and neurologic complications were significantly higher in EV71-infected patients, while upper respiratory tract infection and C-reactive protein were significantly higher in CVA16-associated patients. 124 EV71 and 80 CVA16 strains were isolated, among them 56 and 68 EV71 strains were C4a and C4b, while 25 and 55 CVA16 strains were B1a and B1b, respectively. Similarity plots and bootscan analyses based on entire genomic sequences revealed that the three C4a sub-genotype EV71 strains were recombinant with C4b sub-genotype EV71 in 2B–2C region, and the three CVA16 strains were recombinant with EV71 in 2A–2B region. Thus, CVA16 and EV71 were the major causative agents in a large HFMD outbreak in Central China. HFMD incidence was high for children among household contact and was detected year-round, but outbreak was seasonal dependent. CVA16 B1b and EV71 C4b reemerged and caused a large epidemic in China after a quiet period of many years. Moreover, EV71 and CVA16 were co-circulated during the outbreak, which may have contributed to the genomic recombination between the pathogens. It should gain more attention as there may be an upward trend in co-circulation of the two pathogens globally and the new role recombination plays in the emergence of new enterovirus variants.     

2009～2011年上海市手足口病流行病学和病原学特征

为分析2009～2011年上海地区手足口病流行病学特征和病原构成,从国家疾病监测信息报告管理系统获取上海市2009～2011年手足口病流行病学资料;采用实时荧光反转录聚合酶链反应（RT-PCR）对来自上海18个区（县）的6676例手足口病病例标本进行肠道病毒核酸检测,对其中257份标本进行病毒分离;对27份人肠道病毒71型（HEV71）毒株进行VPl基因序列全长测定和分析。结果显示,2009～2011年上海市18个区（县）均有手足口病病例报道,地区分布元显著差异;≤5岁的婴幼儿为疾病高发年龄段;4～11月为发病高峰期。HEV71和柯萨奇病毒A组16型（CAl6）为主要病原,不同地区病原构成有所不同。实时荧光RT—PCR对6676例病例标本进行核酸检测,其中肠道病毒通用核酸检测阳性率为69．61％,HEV71和CAl6阳性率分别为38．83％和21．26％。对257份HEV71核酸阳性标本进行病毒分离,获得毒株57株,分离阳性率为22．18％。对其中27株进行VPl基因全长测序,均属C4a基因亚型。     

Genotypes of the Enterovirus Causing Hand Foot and Mouth Disease in Shanghai,China, 2012-2013

Sporadic HFMD (hand foot and mouth disease, HFMD) cases and outbreaks caused by etiologic agents other than EV71 and CA16 have increased globally. We conducted this study to investigate the prevalence and genetic characteristics of enteroviruses, especially the non-EV71 and non-CA16 enteroviruses, causing HFMD in Shanghai. Clinical specimens were collected from patients with a diagnosis of HFMD. A partial length of VP1 was amplified with RT-PCR and subjected to direct sequencing. Phylogenetic analyses were performed using MEGA 5.0. The ages of the HFMD cases ranged from 3 to 96 months, and the male/female ratio was 1.41. The median hospital stay was 2.96 days. Up to 18.0% of patients had neurologic system complications such as encephalitis, meningoencephalitis or meningitis. Of the 480 samples, 417 were positive for enterovirus (86.9%) with RT-PCR. A total of 13 enterovirus genotypes were identified. The most frequent genotypes were CA6 (31.9%), EV71 (30.6%), CA16 (8.8%) and CA10 (7.5%). Infections with CA6, EV71, CA16 and CA10 were prevalent throughout the years of study, while the proportion of CA6 notably increased from Sep. 2012 to Dec. 2013. Phylogenetic analyses showed that EV71 strains belonged to the C4a subgenogroup and CA16 was identified as B1b subgenogroup. The CA6 strains were assigned to genogroup F, whereas the CA10 strains were assigned to genogroup D. Patients infected with CA6 were typically younger, had a shorter hospital stay and had a lower incidence of neurologic system complications when compared to patients infected with EV71. Our study demonstrates that the enterovirus genotypes causing HFMD were diversified, and there was an increasing prevalence of the non-EV71 and non-CA16 enteroviruses from 2012 to 2013. CA6 was the most predominant pathogen causing HFMD from Sep. 2012 to Dec. 2013, and it often caused relatively mild HFMD symptoms. Most severe HFMD cases were associated with EV71 infection.     

The persistent circulation of enterovirus 71 in People's Republic of China: causing emerging nationwide epidemics since 2008

Emerging epidemics of hand-foot-and-mouth disease (HFMD) associated with enterovirus 71 (EV71) has become a serious concern in mainland China. It caused 126 and 353 fatalities in 2008 and 2009, respectively. The epidemiologic and pathogenic data of the outbreak collected from national laboratory network and notifiable disease surveillance system. To understand the virological evolution of this emerging outbreak, 326 VP1 gene sequences of EV71 detected in China from 1987 to 2009 were collected for genetic analyses. Evidence from both traditional and molecular epidemiology confirmed that the recent HFMD outbreak was an emerging one caused by EV71 of subgenotype C4. This emerging HFMD outbreak is associated with EV71 of subgenotype C4, circulating persistently in mainland China since 1998, but not attributed to the importation of new genotype. Originating from 1992, subgenotype C4 has been the predominant genotype since 1998 in mainland China, with an evolutionary rate of 4.6∼4.8×10⁻³ nucleotide substitutions/site/year. The phylogenetic analysis revealed that the majority of the virus during this epidemic was the most recent descendant of subgenotype C4 (clade C4a). It suggests that the evolution might be one of the potential reasons for this native virus to cause the emerging outbreak in China. However, strong negative selective pressure on VP1 protein of EV71 suggested that immune escape might not be the evolving strategy of EV71, predicting a light future for vaccine development. Nonetheless, long-term antigenic and genetic surveillance is still necessary for further understanding.