甲型流感病毒核糖核蛋白的提纯及其部分理化性质的研究

用Triton x-100和DOC裂解、Sephadex G200柱层析和密度梯度超离心方法,首次从流感病毒感染的鸡胚尿囊膜中提纯了甲型流感病毒RNP。经蛋白质和核酸含量测定、补体结台试验、免疫双扩散及SDS—PAGF鉴定,所提纯的RNP与从病毒中提取的RNP相同。并测出粤防77—38毒株RNP的等电点为4.6,沉降系数为56．1 S。     

流感病毒的检测和分型技术研究进展

近年来,病毒性流感的不断流行和暴发已引起世界范围的广泛关注。为了更好地对流感病毒进行检测和分型,我们对目前流感病毒常用的血清学检测和分型方法、免疫荧光法、PCR方法、多重RT-PCR法、实时RT-PCR法、依赖核酸序列的扩增法、环介导等温扩增法、焦磷酸测序法、基因芯片技术分别进行了描述,并阐述了其优缺点。     

一种快速检测甲型流感病毒的方法

目的 开发一种快速、简便的基于胶体金免疫层析法（GICA）的试剂盒,以用于对甲型流感病毒的检测。方法以柠檬酸三钠还原法制备胶体金颗粒,标记抗甲型流感病毒内部抗原的单克隆抗体。硝酸纤维素膜上包被两种抗甲型流感病毒单克隆抗体的混合液,制成免疫层析试纸。待测样品中的甲型流感病毒首先与胶体金标记抗体结合,后移动至硝酸纤维素上与固定的单克隆抗体发生反应,形成肉眼可见的红色带。结果GICA试纸条与甲1型和甲3型流感病毒共16种毒株均能发生特异性反应,与乙型流感病毒、副流感病毒、腺病毒和呼吸道合胞病毒无交叉反应。用三种不同甲型流感病毒毒株的不同浓度标本与美国同类经过FDA批准的产品比较,灵敏度相同。结论GICA试纸条灵敏度能够达到临床使用的要求,并具有简便快速、无需特殊仪器设备等优点,对甲型流感的诊断和流行病学调查具有十分重要的应用价值。     

禽流感病毒分型基因芯片的研制

[目的]禽流感病毒是一种全球重要的人和动物呼吸道病病原,快速确定其不同亚型对于全球流感监测具有重要的意义.本研究意在研制一种可同时鉴定禽流感病毒所有亚型的方法.[方法]根据GenBank上已发表的禽流感病毒不同亚型(16个HA亚型和9个NA亚型)的基因序列,设计合成了25对特异性引物和1对通用引物,然后以各亚型病毒的参考株RNA作为模板,建立扩增不同亚型的多重RT-PCR方法.参考各亚型病毒靶cDNAs区域的保守序列设计了52条亚型特异的探针,进而利用扩增的各亚型病毒的靶cDNAs对其特异性进行评价.在此基础上,将设计好的探针点制到处理好的玻片上,制备了禽流感病毒分型鉴定基因芯片,结合所建立的扩增不同亚型的多重RT-PCR方法,开发了禽流感病毒亚型鉴定基因芯片试剂.利用收集自49个地区的2653份标本对其特异性和敏感性进行了初步评价.[结果]用于评价的各亚型参考毒株均出现良好的特异性杂交信号,检测的敏感度可达2.47 PFU/mL或2.5 ng靶DNA片段,而且与禽类常见的IBV、NDV等6种病毒均无交叉反应.[结论]证明该病毒分型基因芯片具有良好的特异性、敏感性.     

厦门大学研制出甲型流感病毒快速检测试剂

从厦门大学国家传染病诊断试剂与疫苗工程技术研究中心获得证实,这个中心下属的病毒病免疫诊断试剂与流行病学研究小组日前研制出甲型流感病毒快速检测试剂,检出本次甲型H1N1流感流行病毒株的灵敏度比普通快速检测试剂高10倍至100倍。     

基于甲型流感病毒核蛋白的抗病毒靶点研究进展

甲型流感是对人类健康和社会稳定构成极大威胁的急性呼吸道传染病,具有极高的发病率和死亡率。由于甲型流感病毒的高变异性和频繁的耐药性,使得新靶点的抗病毒药物的研发显得非常重要。甲型流感病毒的核蛋白高度保守,是一个潜在的抗病毒药物的靶点,国内外已有相关报道。中草药作为祖国的传统医学宝藏,在防治甲流方面也表现出了独特的优势。本文从甲型流感病毒结构与功能出发,阐述甲型流感病毒核蛋白作为抗病毒靶点的研究进展。     

实时荧光核酸恒温检测技术（SAT）在甲型流感病毒动物模型检测中的应用

评价实时荧光核酸恒温检测技术（SAT）对H1N1和H3N2两种甲型流感病毒小鼠模型肺组织匀浆液的检测效能。小鼠滴鼻感染不同浓度H1N1、H3N2病毒液30μL,感染96h后取肺组织匀浆液分别进行SAT检测及抗原血凝效价测定。结果表明,SAT检测的病毒拷贝数基本与抗原血凝效价测定结果一致,但灵敏度提高10^4倍。与血凝实验比较,SAT检测具有灵敏度高、特异性强、结果准确、高通量自动化的优势,有利于甲型流感动物模型的建立,为实验室筛选抗甲型流感病毒药物奠定基础。     

2型登革病毒检测基因芯片的研制

利用长片断PCR扩增含几乎全长的2型登革病毒cDNA,酶切PCR扩增产物,通过建立2型登革病毒。DNA文库获取芯片探针用点样仪将探针制备成2型登革病毒检测基因芯片,杂交时采用限制性显示(Restriction Display RD)技术标记样品,Scan Array芯片扫描仪检测杂交信号．杂交结果显示,样品和2型登革病毒基因芯片杂交的敏感性强、特异性高．     

Microarray Multiplex Assay for the Simultaneous Detection and Discrimination of Influenza A and Influenza B Viruses

In this study, we present a microarray approach for the typing of influenza A and B viruses, and the subtyping of H1 and H3 subtypes. We designed four pairs of specific multiplex RT-PCR primers and eight specific oligonucleotide probes and prepared microarrays to identify the specific subtype of influenza virus. Through amplification and fluorescent marking of the multiplex RT-PCR products on the M gene of influenza A and B viruses and the HA gene of subtypes H1 and H3, the PCR products were hybridized with the microarray, and the results were analyzed using a microarray scanner. The results demonstrate that the chip developed by our research institute can detect influenza A and B viruses specifically and identify the subtypes H1 and H3 at a minimum concentration of 1 × 10² copies/μL of viral RNA. We tested 35 clinical samples and our results were identical to other fluorescent methods. The microarray approach developed in this study provides a reliable method for the monitoring and testing of seasonal influenza.     

利用基因芯片技术区分禽流感病毒主要亚型

[目的]研制可同时区分AIV的H5、H7、H9血凝素亚型及N1、N2神经氨酸酶亚型的基因诊断芯片.[方法]分别克隆了禽流感病毒的M基因,H5、H7、H9亚型HA基因,N1、N2亚型NA基因以及看家基因GAPDH的重组质粒.以重组质粒为模板,用PCR方法扩增制备探针,纯化后点于氨基修饰的片基上,制备基因芯片.在PCR过程中对待检样品进行标记,然后与芯片杂交,洗涤,扫描并进行结果分析.[结果]结果显示检测探针可特异性的与相应的标记样品进行杂交,呈现较强的杂交信号,且无交叉杂交.同时用RT-PCR、鸡胚接种和基因芯片方法对H1-H15亚型AIV参考毒株、30份人工感染样品、21份现地疑似样品进行检测,结果发现,对人工感染样品芯片检测方法与鸡胚接种和RT-PCR的符合率分别为100%和96%,现地样品符合率为100%.[结论]研究表明该方法可用于同步鉴别部分主要流行的禽流感亚型,是一种有效的新方法.     

Diagnosis of influenza viruses with special reference to novel H1N1 2009 influenza virus

On 15 April and 17 April 2009, novel swineorigin influenza A (H1N1) virus was identifi ed in specimens obtained from two epidemiologically unlinked patients in the United States. The ongoing outbreak of novel H1N1 2009 influenza (swine influenza) has caused more than 3,99,232 laboratory confi rmed cases of pandemic influenza H1N1 and over 4735 deaths globally. This novel 2009 influenza virus designated as H1N1 A/swine/California/04/2009 virus is not zoonotic swine flu and is transmitted from person to person and has higher transmissibility then that of seasonal influenza viruses. In India the novel H1N1 virus infection has been reported from all over the country. A total of 68,919 samples from clinically suspected persons have been tested for influenza A H1N1 across the country and 13,330 (18.9%) of them have been found positive with 427 deaths. At the All India Institute of Medical Sciences, New Delhi India, we tested 1096 clinical samples for the presence of novel H1N1 influenza virus and seasonal influenza viruses. Of these 1096 samples, 194 samples (17.7%) were positive for novel H1N1 influenza virus and 197 samples (18%) were positive for seasonal influenza viruses. During outbreaks of emerging infectious diseases accurate and rapid diagnosis is critical for minimizing further spread through timely implementation of appropriate vaccines and antiviral treatment. Since the symptoms of novel H1N1 influenza infection are not specifi c, laboratory confi rmation of suspected cases is of prime importance.     

Secoiridoid analogues from the fruits of Ligustrum lucidum and their inhibitory activities against influenza A virus

A phytochemical study focusing on the secoiridoid components in the fruits of Ligustrum lucidum was carried out, which finally led to the isolation of nine secoiridoid glycosides (1–9) together with two secoiridoids (10, 11). The structures of all compounds were established mainly by NMR and MS experiments as well as the necessary chemical evidence, of which 1, 2, 4 (ligulucisides A–C), 10 and 11 (liguluciridoids A and B) were identified as new secoiridoid analogues. An in vitro antiviral bioassay indicated that 1, 4, 6, and 10 displayed the inhibitory activities against influenza A virus with the IC₅₀ values of 16.5, 12.5, 13.1, and 18.5?μM, respectively, which were better than the positive control Ribavirin (IC₅₀ 22.6?μM)..     

Epigenetic reprogramming mechanisms of immunity during influenza A virus infection

This paper reviews epigenetic mechanisms by which influenza viruses affect cellular gene activity to control their life cycles, aiming to provide new insights into the complexity of functional interactions between viral and cellular factors, as well as to introduce novel targets for therapeutic intervention and vaccine development against influenza infections.     

IFIT家族基因抑制A型流感病毒WSN毒株的复制和转录

IFIT(Interferon induced proteins with tetratricopeptide repeats)家族基因是一组较早发现的干扰素刺激基因,它在抗病毒和免疫调节中发挥了重要作用。为研究IFIT家族基因抑制A型流感病毒复制的机理,利用高通量RNA深度测序(RNA-Seq)技术发现A型流感病毒A/WSN/33(WSN)毒株感染293T细胞后,IFIT家族基因均出现明显上调。同时发现在IFIT2、IFIT3过表达后,流感病毒的复制和转录均有明显下调,并对v RNP聚合酶活性具有剂量依赖型的抑制作用。进一步研究证明在感染IFIT2、IFIT3编码蛋白与流感病毒非结构蛋白(NS1)存在细胞内共定位,证明二者存在相互作用的可能。综上所述,IFIT家族基因可以抑制A型流感病毒的复制和转录,有助于进一步阐明宿主因子对流感病毒感染的调节机制。     

A型流感病毒NS1蛋白结构研究进展

近年来A型流感严重威胁着人类和畜禽的健康,随着研究的深入,人们已经发现A型流感病毒的NS1蛋白对病毒毒力有重要影响,是一个多功能毒力因子、宿主细胞抗病毒免疫抑制子。根据其功能的不同分为效应区和RNA结合域。目前NS1蛋白结构已经解析,使人们可以直观的认识其各个功能位点的作用机制。该文综述了NS1蛋白的结构特征、已知的功能位点及其功能,为在结构水平上研究NS1蛋白的功能提供参考。     

Full genomic amplification and subtyping of influenza A virus using a single set of universal primers

Influenza A virus has eight‐segmented RNA molecules as a genome and, among all strains of the virus, both ends of each segment have 13 and 12 nucleotide sequences conserved. In the present study, a simple RT‐PCR method to amplify all eight segments of the virus and determine the HA and NA subtype using a single primer set based on the conserved terminal sequences has been established. This method is also capable of detecting subgenomic defective interfering RNA of the influenza A virus. Since the primers used here cope with each and every RNA segment of influenza A virus, this simple RT‐PCR method is valuable not only for cloning each gene of the virus, but also for identifying subtypes, including subtypes other than 16 HA and 9 NA subtypes.     

Influence of an additional amino group on the potency of aminoadamantanes against influenza virus A. II - Synthesis of spiropiperazines and in vitro activity against influenza A H3N2 virus

Spiro[piperidine-2,2′-adamantane] 4 is one of the most potent synthetic anti-influenza A aminoadamantanes or other cage structure amines tested so far. Based on previous results Tataridis et al. (2007) [5h] which demonstrate the boost of in vitro potency by the presence of an additional amino group, we examined whether the incorporation of a second amino group into this heterocycle would increase the anti-influenza A virus activity. The new synthetic molecules 5–7 are capable of forming two hydrogen bonds within the receptor. We identified the diamino derivatives 5 and 6, which are active against influenza A H3N2 virus although less potent than amantadine and its equipotent spiropiperidine 4.