免疫荧光法检测原核和真核细胞中表达的轮状病毒外壳蛋白VP4

目的：用免疫荧光法快速检测原核和真核细胞中表达的轮状病毒（RV）外壳蛋白VP4。方法：以抗VP4的抗体为一抗、FITC标记的羊抗豚鼠IgG为二抗,用免疫荧光方法检测在大肠杆菌BL21（DE3）中重组表达的同源RVVP4;检测SA11或Wa株RV感染MA104细胞后不同时间段病毒VP4的合成及其在感染细胞中的分布情况。结果：用免疫荧光法可直接检测到原核细胞中表达的外源蛋白,也可检测到病毒蛋白在真核细胞中的分布情况。结论：免疫荧光法可特异、方便、快速地检测RV VP4在原核和真核细胞中的表达;来源于RV TB—Chen株的VP4抗体可特异性识别同源病毒VP4,交叉识别SA11或Wa株的VP4。     

新城疫液相芯片快速检测方法的建立

目的：建立可检测新城疫病毒（Newcastle disease virus,NDV）的液相芯片快速检测技术。方法：用DNAStar软件对GEN-BANK中NDV的NP基因进行序列分析设计NDV特异性探针并标记生物素,利用该探针与荧光编码微球偶联后与抽提的NDV病毒RNA的RT-PCR产物杂交反应,用液相芯片检测仪（Liquichip 200）检测荧光信号建立了NDV快速液相芯片检测方法。结果：检测结果显示,该法具有较好的特异性,不与H5AIV和H9AIV反应;检测灵敏度达到150个EID50;该法与鸡胚病毒分离法检出NDV的符合率达到97.1%。结论：初步建立了检测NDV的液相芯片技术,为进一步搭建NDV全新快速高通量检测平台奠定了基础,也为其他同类病毒的快速高通量检测提供了借鉴和经验。     

人巨细胞病毒的生物素DNA探针的制备和应用

本研究用克隆的HCMV AD169株DNA片段,制备了生物素标记的DNA探针,建立了检测临床脐带血、尿标本中HCMV DNA的核酸探针杂交方法。该探针可测出100pg同源DNA,不与人胚肺细胞、Hep-2细胞DNA以及其他疱疹病毒的DNA发生反应。用核酸杂交方法检测了30份脐带血标本,有11例阳性,阳性率为33％。10例孕妇尿标本中,3例阳性,阳性率为30％。检测结果表明：我们建立的生物素标记的HCMV DNA探针的点杂交法,具有高度的特异性、敏感性,比分离病毒法更迅速,可用于HCMV感染的临床标本的病毒核酸检测。     

GFP质控芯片的初步研究

目的：建立一种质量控制芯片来监测样品标记、杂交和检测过程中的失误。方法：针对GFP基因设计的4条60mer寡核苷酸探针和1条阳性对照探针polv（U）与流感寡核苷酸探针一起打印在DAKO玻片上,并构建了GFP基因的克隆载体和体外表达载体,将从这两种重组载体上获得的绿色荧光蛋白（Green Fluorescent Protein,GFP）基因的ILNA、DNA片段和人的全血样品中的DNA用限制性显示技术（Restriction Display technology,RD）扩增标记,将标记的样品和荧光标记的通用引物U分别与芯片杂交、检测,并对扫描的结果进行统计分析。结果：GFP探针与相应的样品杂交时出现阳性信号,阳性对照探针在所有的杂交中均出现阳性信号,而空白对照则未检测荧光信号。结论：建立的质控芯片具有较好的敏感性和特异性,可以用于基因芯片中的质量监控。     

应用DNA条形码对植物标本的核查

DNA条形码主要目的是物种鉴定和新物种或隐存种的发现,而DNA条形码参考数据库是物种快速鉴定的重要基础。目前中国维管植物DNA条形码参考数据库正在建设之中,借助于公共数据库（NCBI）和初步建立的中国植物DNA条形码参考数据库,运用DNA条形码数据开展了植物标本鉴定的核查工作：（1）比较DNA序列信息与标本鉴定信息,从科、属、种级水平查找鉴定错误的标本;（2）基于有较好研究基础的DNA条形码参考数据库,开展未知标本的鉴定;（3）通过对标本核查的总结,提出DNA条形码参考数据库建设过程中的几点建议。     

基于环境DNA宏条形码技术的辽东湾典型围海养殖池塘内水母多样性研究

研究使用环境DNA宏条形码技术(eDNA metabarcoding)检测辽东湾东北部河口区围海养殖池塘水母种类多样性,探索适用于水母种类物种鉴定和监测的新方法。利用环境DNA宏条形码技术,分别基于18S rDNA和COI宏条形码检测了辽东湾东北部河口区围海养殖池塘水母种类多样性,通过水样采集、过滤、eDNA提取、遗传标记扩增、测序与生物信息分析的环境DNA宏条形码标准化分析流程,从围海养殖池塘7个采样点中获得可检测的采样点数据。结果显示,基于18S rDNA宏条形码检测出8种水母种类,其中钵水母纲大型水母2种、水螅水母总纲小型水母6种;基于COI宏条形码技术共检测出19种水母种类,其中钵水母纲大型水母5种、水螅水母总纲小型水母14种;两种DNA条形码标记都显示养殖种类海蜇(Rhopilema esculentum)为优势种。研究结果表明,环境DNA宏条形码技术作为一种新兴的生物多样性监测手段可用于快速检测水母种类多样性,在水母类物种鉴定、监测及早期预警中有较大的应用潜能。     

一种基于配体肽的CRP荧光检测探针的研制

C反应蛋白（C-reaction protein,CRP）是反映机体炎症的有效标志物,早期检测是判断炎症相关疾病的关键,因此,研制CRP新型检测制剂具有重要意义。利用噬菌体表面展示技术对CRP特异性亲和配体进行了筛选,采用固相肽合成技术对目标配体进行了合成,并经生物标记、高效液相色谱法（high performance liquid chromatography,HPLC）分析及质谱（mass spectrometry,MS）鉴定,成功制得检测CRP的荧光探针。经3轮筛选、ELISA检测、重组噬菌体测序及序列比对后得到1个目标配体肽：S-P-H-N-R-S-N-L-V-Q-E-L;经肽合成及生物标记获得1种CRP荧光探针：FITC-（Acp）-S-P-H-N-R-S-N-L-V-Q-E-L。研究结果为CRP的有效检测提供了一种新型制剂。     

~(125)Ⅰ标记乙型肝炎病毒DNA探针的制备及应用

本文报道用国产~125I-碘化钠标记乙型肝炎病毒DNA制备探针,可得到较高比度的产物,一般稳定在10~7—10(?)cpm/μg DNA。用该探针对不标记的乙型肝炎病毒DNA进行点分子杂交。可检测到5pg左右DNA。对17例血液标本进行点分子杂交,结果与32p-标记乙型肝炎病毒DNA探针杂交结果基本一致。     

地中海实蝇及其近缘种基因芯片检测研究

本研究选择线粒体DNA (mtDNA) 细胞色素氧化酶Ⅰ基因（COⅠ）为分子标记基因,以双翅目实蝇科昆虫DNA序列为目标,建立了我国进境植物检疫害虫地中海实蝇Ceratitis capitata、芒果小条实蝇C. cosyra和纳塔尔小条实蝇C. rosa等生物芯片检测方法。地中海实蝇及其近缘种检测芯片由检测探针（实蝇科通用探针1条,小条实蝇属通用探针1条,地中海实蝇、芒果小条实蝇和纳塔尔小条实蝇近缘种探针2条和种特异探针4条）、质控探针（定位点探针、阳性质控、阴性质控和空白对照探针各1条）组成。芯片检测结果表明,检测探针特异性强,能实现上述3种实蝇的种类快速区分和准确鉴定; 检测方法稳定性好,地中海实蝇不同虫态（卵、幼虫、蛹和成虫）和不同地理种群检测结果完全一致。地中海实蝇生物芯片检测技术将为我国进口果蔬中检疫性实蝇快速筛查和种类鉴定提供检测方法,同时,还可应用到其他属的实蝇以及相关害虫的检疫中,为有害生物的快速鉴定提供了新方法。     

大肠杆菌O157:H7核酸探针检测方法的建立

目的：应用核酸探针方法快速检测大肠杆菌O157：H7。方法：通过使用吖啶酯标记的特异DNA探针方法检测大肠杆菌O157：H7,对此种方法的特异性、敏感性、准确性进行研究,比较该方法与传统国标法的检测结果。结果：核酸探针方法检测大肠杆菌O157：H7特异性以及敏感性强,检出大肠杆菌O157：H7菌液浓度最低限约为106cfu/ml,检测大肠杆菌O157：H7的结果与国标法相一致;对O157：H7鉴定时间仅需30min,简便快捷。结论：核酸探针方法可用于大肠杆菌O157：H7的快速检测。     

群特异性蓝舌病病毒单克隆抗体的制备和鉴定

目的：制备群特异性抗蓝舌病病毒（BTV）单克隆抗体,并对其特性进行鉴定,为建立检测BTV抗原及抗体的ELISA方法奠定基础。方法：用纯化的BTV颗粒为免疫抗原免疫BALB/c鼠,以大肠杆菌表达的VP7蛋白作为筛选抗原,用间接ELISA法筛选杂交瘤细胞株;选取抗体效价最高的一株制备BTV单克隆抗体,以该抗体为捕获抗体与8种不同血清型BTV进行ELISA反应,结果与细胞病变反应进行比对;以该抗体为竞争抗体,与12种不同血清型绵羊BTV抗血清进行竞争ELISA反应,并将结果与参比c-ELISA试剂盒结果进行比对。结果：筛选出5株稳定分泌BTV单克隆抗体的杂交瘤细胞株,并选其中一株（3E2）制备了高纯度的单克隆抗体;该单抗用于检测不同血清型BTV,与细胞病变反应结果完全相符;用于检测不同血清型绵羊BTV抗血清,其结果与参比c-ELISA试剂盒符合率为100%,与鹿流行性出血热病毒抗原和抗体均无交叉反应。结论：制备的BTV单克隆抗体具有良好的群特异性,可用于检测不同血清型BTV抗原及BTV抗体。     

蓝舌病病毒vp7基因的表达及其产物在c—ELISA中的应用

获得稳定、高效的具有良好抗原性的蓝舌病毒(Bluetongue virus,BTV)vp7基因重组抗原。将BTV编码群特异性抗原VP7的S7基因片段克隆至pMD18-T质粒载体中,构建S7克隆重组质粒,进行核苷酸序列分析。与已报道的多株BTV编码VP7的基因比较后发现,所测定毒株的核苷酸序列与BTV10型的S7基因同源性高达98．7％,推测的氨基酸同源性为99．3％,证实为BTV的S7基因。然后亚克隆插入pBAD/Thio TOPO表达载体,转化LGM194细胞,经抗性培养、PCR、限制性内切酶分析、测序鉴定,筛选获得BTV S7基因片段正向插入、有正确读码框的阳性克隆,成功构建了BTV群特异性抗原VP7的重组表达载体。经L-araboinose诱导表达,可稳定、高效地表达VP7蛋白抗原。SDS-PAGE、ELISA试验表明,表达蛋白为融合蛋白,具有反应原性,分子量约54．5kD,重组蛋白的获得率为1．52mg／g湿菌,其表达产量约占菌体总蛋白的12％左右,相当于93．5mg／L菌液。融合蛋白中含有BTV VP7特异性蛋白抗原,可作为c-ELISA包被抗原,为蓝舌病的免疫血清学诊断试剂的制备和分子生物学研究打下了坚实基础。     

Detection of bluetongue virus group-specific antigen using monoclonal antibody based sandwich ELISA

A monoclonal antibody (MAb) specific for the bluetongue virus (BTV) group specific antigen (VP7) was characterized for its reactivity with purified virus and recombinant BTV VP7 (rVP7) protein and its suitability for use in the sandwich ELISA. The MAb, designated as 5B5 was specific to VP7 and belongs to IgG2a subclass and was selected for the development of the sELISA in this study. The MAb had a titer of 1:25 with BTV and 1:2 with the rVP7 protein. The sELISA is based on capturing of BTV antigen with VP7 specific MAb followed by detection using BTV polyclonal antiserum raised in rabbits. The assay was evaluated with six cell culture adapted serotypes of BTV that have been isolated from India, 1, 2, 15, 17, 18 and 23. The assay could detect BTV antigen as early as day 8 in blood. It was also successfully applied for the detection of BTV group specific antigen in clinical samples of blood, washed RBCs, buffy coat and plasma. A total of 102 field samples from animals, suspected of being infected with BTV, were tested and 29.42% were positive. The blood samples were also amplified in cell culture which improved the sensitivity of the assay. Results confirmed that the sELISA is rapid and specific.     

新型布尼亚病毒抗体检测方法的建立及初步应用简

目的：建立新型布尼亚病毒IgG抗体ELISA检测方法。方法：用基因工程重组表达的新型布尼亚病毒NP抗原包被酶联板,建立间接ELISA法检测新型布尼亚病毒IgG抗体,并进行特异性和灵敏度评价,健康人群中检测结果计算临界值（均值＋3标准差）。检测70例发热伴血小板减少综合征患者恢复血清和69份健康人血清样品。结果：在70份患者血清样品中,检测出新型布尼亚病毒IgG抗体阳性51例,阳性率为72．14％（51/70）;69份健康人血清样品中,检测出1份阳性,特异性为98．6％（1/69）。结论：建立的新型布尼亚病毒IgG抗体ELISA检测方法特异性强、灵敏度高,可用于新型布尼亚病毒感染的检测及流行病学调查。     

RGD tripeptide of bluetongue virus VP7 protein is responsible for core attachment to Culicoides cells

Bluetongue virus (BTV) is an arthropod-borne virus transmitted by Culicoides species to vertebrate hosts. The double-capsid virion is infectious for Culicoides vector and mammalian cells, while the inner core is infectious for only Culicoides-derived cells. The recently determined crystal structure of the BTV core has revealed an accessible RGD motif between amino acids 168 to 170 of the outer core protein VP7, whose structure and position would be consistent with a role in cell entry. To delineate the biological role of the RGD sequence within VP7, we have introduced point mutations in the RGD tripeptide and generated three recombinant baculoviruses, each expressing a mutant derivative of VP7 (VP7-AGD, VP7-ADL, and VP7-AGQ). Each expressed mutant protein was purified, and the oligomeric nature and secondary structure of each was compared with those of the wild-type (wt) VP7 molecule. Each mutant VP7 protein was used to generate empty core-like particles (CLPs) and were shown to be biochemically and morphologically identical to those of wt CLPs. However, when mutant CLPs were used in an in vitro cell binding assay, each showed reduced binding to Culicoides cells compared to wt CLPs. Twelve monoclonal antibodies (MAbs) was generated using purified VP7 or CLPs as a source of antigen and were utilized for epitope mapping with available chimeric VP7 molecules and the RGD mutants. Several MAbs bound to the RGD motif on the core, as shown by immunogold labeling and cryoelectron microscopy. RGD-specific MAb H1.5, but not those directed to other regions of the core, inhibited the binding activity of CLPs to the Culicoides cell surface. Together, these data indicate that the RGD motif present on BTV VP7 is responsible for Culicoides cell binding activity.     

蓝舌病毒核酸检测技术研究进展

蓝舌病毒（BTV）血清型较多,其核酸检测主要涉及通用型检测和分型检测,寻求相应的适宜检测靶基因尤为重要。BTV核酸检测技术是蓝舌病诊断的重要手段,其发展过程主要经历了基因杂交探针技术、RT-PCR检测技术、实时荧光定量PCR检测技术及基因芯片检测技术等;同时,建立和完善高通量BTV筛查技术成为迫切要求。     

A single point mutation in the VP7 major core protein of bluetongue virus prevents the formation of core-like particles.

To understand the assembly process of bluetongue virus (BTV), we have established a functional assay which allows us to produce and manipulate BTV core-like particles (CLPs) composed of the viral VP7 and VP3 proteins. A cDNA clone encoding the 349-amino-acid VP7 protein has been manipulated to generate deletion, extension, and site-specific mutants. Each mutant was coexpressed with the BTV VP3 protein to generate CLPs. Deletion and extension mutants involving the VP7 carboxy terminus prevented CLP formation, while an extension mutant involving an 11-amino-acid rabies virus sequence added to the amino terminus of VP7 allowed CLP formation. Substitution of either of two cysteine residues of VP7 (Cys-15 or Cys-65) by serine also did not prevent CLP formation; however, substitution of the single lysine residue of VP7 (Lys-255) by leucine abrogated CLP formation, indicating a critical role for this lysine.     

Efficient screening of high-signal and low-background antibody pairs in the bio-bar code assay using prion protein as the target

The bio-bar code assay is an assay for ultrasensitive detection of proteins. The main technical hurdle in bio-bar code assay development is achieving a dose-dependent, reproducible signal with low background. We report on a magnetic bead ELISA screening mechanism for characterizing antibody pairs that are effective for use in the bio-bar code assay. The normal isoform of prion protein was utilized as the target protein as dozens of antibodies have been developed against it. The development of an ultrasensitive assay for the detection of the various isoforms of PrP has the potential to enable significant advances in the diagnosis and understanding of transmissible spongiform encephalopathies, including transmission mechanisms, disease pathology, and potential therapeutics. With prion protein as the target, the magnetic bead ELISA identified pairs with high background and low signal in the bio-bar code assay. The magnetic bead ELISA was effective as a screening mechanism because it reduced assay time and cost and allowed for understanding of pair characteristics such as development times and signal-to-noise ratios.     

Expression and functional characterization of bluetongue virus VP2 protein: role in cell entry

Segment 2 of bluetongue virus (BTV) serotype 10, which encodes the outer capsid protein VP2, was tagged with the S-peptide fragment of RNase A and expressed by a recombinant baculovirus. The recombinant protein was subsequently purified to homogeneity by virtue of the S tag, and the oligomeric nature of the purified protein was determined. The data obtained indicated that the majority of the protein forms a dimer and, to a lesser extent, some trimer. The recombinant protein was used to determine various biological functions of VP2. The purified VP2 was shown to have virus hemagglutinin activity and was antigenically indistinguishable from the VP2 of the virion. Whether VP2 is responsible for BTV entry into permissive cells was subsequently assessed by cell surface attachment and internalization studies with an immunofluorescence assay system. The results demonstrated that VP2 alone is responsible for virus entry into mammalian cells. By competition assay, it appeared that both VP2 and the BTV virion attached to the same cell surface molecule(s). The purified VP2 also had a strong affinity for binding to glycophorin A, a sialoglycoprotein component of erythrocytes, indicating that VP2 may be responsible for BTV transmission by the Culicoides vector to vertebrate hosts during blood feeding. Further, by various enzymatic treatments of BTV-permissive L929 cells, preliminary data have been obtained which indicated that the BTV receptor molecule(s) is likely to be a glycoprotein and that either the protein moiety of the glycoprotein or a second protein molecule could also serve as a coreceptor for BTV infection.