干扰素诱导跨膜蛋白1对猪源冠状病毒吸附宿主细胞的影响

为探索干扰素诱导跨膜蛋白1（interferon-inducible transmembrane protein 1,IFITM1）对猪源冠状病毒复制的影响,本研究选用猪传染性胃肠炎病毒（Transmissible gastroenteritis virus,TGEV）高致病毒株及其宿主细胞PK15作为研究对象。正常PK15细胞接种TGEV后,实时荧光定量PCR检测感染后不同时间点PK15细胞中一些干扰素刺激基因（interferon-stimulated genes,ISGs）的mRNA表达水平;利用慢病毒表达系统构建稳定表达和稳定干扰IFITM1表达的PK15细胞系。将一段靶向干扰猪源IFITM1的shRNA序列及猪源IFITM1全长,分别插入pLKO.1-EGFP-Puro载体及pLVML-Myc-MCS-IRES-Puro载体中,分别构建出pLKO.1-IFITM1shRNA-EGFP-Puro及pLVML-Myc-IFITM1-IRES-Puro重组质粒。将重组质粒与慢病毒包装质粒共转染293FT细胞后获得带有目的基因的重组慢病毒,慢病毒侵染PK15细胞后用嘌呤霉素进行筛选,获得稳定表达及稳定干扰IFITM1表达的PK15细胞系,分别命名为PK15-IFITM1及PK15-IFITM1^-/-,并分别用实时荧光定量PCR、间接免疫荧光试验（IFA）及Western blotting检测IFITM1干扰效率及表达情况;TGEV接种PK15-IFITM1^-/-和PK15-IFITM1,实时荧光定量PCR测定细胞中TGEV的拷贝数。结果显示,PK15细胞接种TGEV后的48 h内,一些ISGs的mRNA水平均有所上升;PK15-IFITM1^-/-细胞系的干扰效率为70%,PK15-IFITM1细胞系表达成功;在PK15-IFITM1^-/-细胞系中,IFITM1的mRNA水平显著下调,促进了TGEV的复制。反之,在PK15-IFITM1细胞系中,TGEV的复制受到了抑制。但IFITM1的表达或缺失却不影响TGEV对PK15的吸附作用。总之,IFITM1对TGEV有显著的抗病毒作用,IFITM1不影响TGEV对PK15细胞的早期吸附,这为后续IFITM1抗冠状病毒机制的研究奠定了基础。     

牦牛源溶血致病性表皮葡萄球菌的分离鉴定及药敏分析

对1株分离自西藏那曲地区养殖场有出血性症状牦牛的致病性菌进行分子鉴定及药敏分析,为西藏地区牦牛出血性疾病提供治疗依据。通过对病死牦牛肺脏、肝脏进行细菌分离纯化获得疑似菌株,对所得疑似菌株进行形态学观察与哥伦比亚血平板试验筛选出疑似致病菌株,再对疑似致病菌株进行生理生化鉴定试验、16S rDNA通用引物检测及测序、同源性比对,后经药敏试验得到该疑似致病菌株的敏感药物,最后通过动物回归试验验证其敏感药物的治疗效果。结果表明,通过对病死牦牛肺脏、肝脏分离纯化获得6株疑似菌株,经形态学观察试验、哥伦比亚血平板试验筛选出1株具有溶血性的革兰氏阳性球菌S-4。经生理生化鉴定试验、16S rDNA测序、同源性比对,鉴定S-4菌株为表皮葡萄球菌;药敏试验结果显示,S-4菌株对恩诺沙星、新霉素、多黏菌素B、卡那霉素、环丙沙星敏感,对氟苯尼考、多西环素中介敏感,对链霉素、红霉素、四环素、青霉素、头孢氨苄耐受;动物回归试验显示,该菌株具有致病性,且恩诺沙星、新霉素、卡那霉素3种药物治疗效果良好,多黏菌素B、环丙沙星治疗效果差。本试验获得1株具有致病性的牦牛源表皮葡萄球菌,该致病菌在养殖过程中可使用恩诺沙星、新霉素、卡那霉素3种药物进行治疗。     

猪流行性腹泻病毒S1D蛋白的优化表达及其单克隆抗体的制备

为进一步探究猪流行性腹泻病毒(Porcine epidemic diarrhea virus,PEDV)S蛋白的抗原表位及其功能,本试验通过优化S1D基因的密码子,构建了S1D基因未优化的重组原核表达质粒pET-S1D和已优化的pET-ΔS1D,并进行了诱导表达和纯化。使用SDS-PAGE和Western blotting方法验证S1D、ΔS1D蛋白在大肠杆菌内得到正确表达,利用Image J软件对S1D、ΔS1D蛋白表达量进行灰度扫描,通过t检验分析两者差异性。将纯化的ΔS1D 蛋白免疫 BALB/c小鼠,通过细胞融合、筛选及亚克隆,获得单克隆细胞株。利用体内诱生法制备抗PEDV S1D蛋白的单克隆抗体腹水,使用ELISA、Western blotting、间接免疫荧光试验3种方法对腹水效价及特异性进行检测和验证。SDS-PAGE和Western blotting结果显示,表达S1D、ΔS1D蛋白的样品均在34 ku处出现正确的目的条带。t检验结果表明, S1D、ΔS1D两者蛋白表达量差异极显著(P<0.01)。ELISA结果显示, 腹水的抗体效价达到了1∶1 000 000,腹水与PEDV病毒粒子和纯化后的ΔS1D蛋白反应均呈阳性,与PEDV N蛋白、pET-32a(+)空载体蛋白和猪繁殖与呼吸综合征病毒(Porcine reproductive and respiratory syndrome virus,PRRSV)、猪传染性胃肠炎病毒(Transmissible gastroenteritis virus,TGEV)、猪瘟病毒(Classical swine fever virus,CSFV)、猪德尔塔冠状病毒(Porcine deltacoronavirus,PDCoV)和猪急性腹泻综合征冠状病毒(Swine acute diarrhea syndrome coronavirus,SADS-CoV) 5种病毒反应均呈阴性。Western blotting结果显示,腹水与ΔS1D蛋白和PEDV S蛋白分别在34和180 ku处有特异性条带出现,与pET-32a(+)空载体蛋白、正常Vero细胞蛋白均无特异性条带出现。间接免疫荧光试验结果显示,腹水及阳性对照组均能使细胞出现特异性绿色荧光信号,而空白及阴性对照组均未见绿色荧光信号。密码子优化可在原核表达系统中显著提高重组蛋白的表达水平,本研究基于高效表达的ΔS1D蛋白,成功制备了1株能稳定分泌与 PEDV S蛋白特异性结合的单克隆抗体的细胞株,为进一步探究 PEDV S蛋白抗原表位及蛋白功能的研究奠定了基础。     

新型鸭呼肠孤病毒DH13株结构蛋白σB的原核表达及免疫原性分析

本研究旨在利用原核表达系统表达新型鸭呼肠孤病毒（NDRV） DH13株重组σB蛋白,并检测其免疫原性,为NDRV基因工程疫苗研制等提供物质材料。采用RT-PCR方法扩增获得NDRV σB基因,构建原核表达重组质粒pET-30a-σB和pET-32a-σB,将2个重组质粒转化大肠杆菌BL21（DE3）感受态细胞,利用IPTG诱导获得相应的重组蛋白,通过SDS-PAGE分析重组蛋白的表达形式。纯化无His的σB蛋白,并以此蛋白作为免疫原免疫新西兰白兔,制备兔源多克隆抗体。利用Ni²⁺柱亲和层析法纯化含His的σB蛋白,以此蛋白作为检测原,通过间接ELISA方法测定兔源多克隆抗体效价;Western blotting鉴定多克隆抗体与重组蛋白的特异性识别能力。结果显示,PCR扩增获得大小约为1 100 bp的σB基因片段。SDS-PAGE结果显示,高效表达出了2种重组σB蛋白,大小分别约为41和46 ku,均以包涵体形式存在。间接ELISA结果显示,制备的多克隆抗体效价达1∶204 800,能特异性地识别原核表达的重组蛋白,表明重组无His的σB蛋白具有良好的免疫原性。Western blotting特异性鉴定结果显示,含His的σB蛋白和无His的σB蛋白均与制备的兔源多克隆抗体发生特异性反应,表明原核表达得到的重组σB蛋白具备良好的反应原性。本试验利用原核表达系统成功地表达出了重组σB蛋白,并证实了重组NDRV σB蛋白具有良好的免疫原性及反应原性,该结果将有助于后续对NDRV σB蛋白生物学功能的鉴定、NDRV诊断用抗原的制备及NDRV新型疫苗的研制。     

猪戊型肝炎病毒ORF3蛋白影响HepG2细胞核黄素代谢的lncRNA-mRNA调控网络的鉴定

为初步鉴定并挖掘出猪戊型肝炎病毒(Hepatitis E virus,HEV)ORF3蛋白影响HepG2细胞核黄素代谢信号通路的lncRNA-mRNA调控网络,本试验通过构建腺病毒过表达载体,制备高滴度过表达腺病毒,介导猪 HEV-ORF3在HepG2细胞中实现过表达。Western blotting检测ORF3蛋白过表达成功后,运用lncRNA高通量组学测序,筛选出差异表达的lncRNA并进行靶向差异基因预测,对lncRNA靶向差异基因进行GO功能和KEGG通路富集分析,初步鉴定出与核黄素代谢信号通路相关的lncRNA-mRNA调控网络。Western blotting结果显示,在约为12 ku处出现目的条带,说明成功实现腺病毒介导猪HEV-ORF3在HepG2细胞中过表达。lncRNA高通量组学测序结果显示,共发现102个显著差异表达lncRNAs表达量上调,80个显著差异表达lncRNAs表达量下调。GO功能和KEGG通路富集分析显示,初步挖掘出lncRNA(MSTRG.13995.2)和lncRNA(MSTRG.1960.1)可能是与核黄素代谢信号通路相关的显著差异表达lncRNA,分别通过顺式调控其靶向基因APC-5和FLAD1来影响核黄素代谢信号通路。本试验初步鉴定出lncRNA(MSTRG.13995.2)-APC5和lncRNA(MSTRG.1960.1)-FLAD1可能是影响HepG2细胞核黄素代谢信号通路的lncRNA-mRNA调控网络。     

水牛犊牛血浆外泌体的分离与鉴定

研究旨在从水牛犊牛血浆中分离外泌体,并对分离的外泌体进行分子生物学特征分析和鉴定。采用差速离心法分离3头水牛犊牛的血浆外泌体,并在透射电子显微镜下观察其形态,使用纳米粒度及Zeta电位仪对提取的外泌体进行粒径大小分析,应用Western blotting方法检测外泌体标记蛋白钙联蛋白（Calnexin）、肿瘤易感基因101（TSG101）、CD9、CD81在3头水牛犊牛血浆外泌体中的表达情况。结果显示,从水牛犊牛血浆中分离的外泌体形态多为圆形和椭圆形,直径在30~150 nm;Western blotting检测结果表明,在水牛血浆外泌体表面,特异性蛋白Calnexin、TSG101和CD81阳性表达,CD9不表达。本研究从形态学和分子生物学特征等方面证实研究获得的提取物为外泌体,由此说明,差速离心法可以成功分离提取水牛犊牛血浆中的外泌体,为水牛外泌体的后续研究提供了重要技术基础和参考。     

切断传染源与传染途径对防治猪病重要性

近年,生猪养殖产业不断向着集约化规模化方向发展,养殖密度增加的同时,各种传染性疾病呈现高发趋势。猪传染性疾病发生后,会造成生长发育不良,行动迟缓,生理指标失衡,甚至引发死亡,带来的经济损失不可估量,某些人畜共患病还会威胁人类的身体健康。在疫病防控过程中,需要从传染源、传播途径和易感群体等角度出发,减少养殖环境病原数量,切断病原传播途径,保护易感群体,确保生猪健康生长。该文主要结合一个乡镇的疫病流行特点,分析切断传染源和传播途径对防治猪病发生流行的重要性。     

Research Progress on Function of Pig Bactericidal/Permeability-increasing Protein (BPI) and Its Application in Resistance Breeding

Bactericidal/permeability-increasing protein (BPI) has a strong effect on sterilization (mainly for G^- bacteria),neutralizing the activity of lipopolysaccharide (LPS) and enhancing the phagocytosis of mononuclear cells and neutrophils to pathogenic bacteria.The biological functions of BPI have been researched widely in recent years,which is known as "super antibiotic" and has been explored by many scholars as a candidate gene for resistance.This author summarized the research progress and application prospect of the BPI gene in the pig resistant breeding by introducing the structure,biological function of BPI gene and its relationship with the resistance,which was aimed to provide theoretical references and basis for the function research of pig BPI gene and its practical application in resistance breeding in future.     

Cloning and Bioinformatic Analysis of L1 Gene of BPV from Guizhou Province

In order to study and analyze L1 gene of bovine papillomavirus（BPV）in Guizhou province,the L1 gene of BPV-GZ01 strain was amplified,cloned and sequenced using bioinformatic softwares and methods,and the secondary structure,tertiary structure,B-cell preponderant epitope,conserved domains analysis, transmembrane domain and signal peptide of L1 gene were predicted.The results showed that the length of L1 gene was 1 494 bp,encoding 497 amino acids.The L1 gene of BPV-GZ01 strain shared an amino acid identities of 98.6%,99.4%,98.4%,94.4% and 91.3%,and a nucleotide identities of 99.1%,99.8%,99.4%,87.6% and 82.8% with those of BPV2,BPV2-SW01,BPV2-AKS01,BPV13 and BPV1 strains,respectively.The results of phylogenetic tree analysis indicated that there was a close relationship between BPV-GZ01 and BPV2-SW01 strains.The prediction of secondary structure of L1 protein indicated that the random coil,extended strand and alphahelix took a higher percentage.The L1 protein was supposed contain 6 potential antigen epitopes.And no transmembrane domains and no signal peptide were found.The tertiary structure of L1 protein was curved spiral structure.These results provided a theoretical basis for immunologic diagnosis and further research of nucleic acid vaccine of BPV.     

The Fluorescent Characterization and Analysis of Two Brucella Attenuated Vaccine Infecting Mouse Macrophagocyte

The experiment was conducted to discuss the difference of binding time of green fluorescent protein B.melitensis M5 (GFP-M5) and B.abortus S19 (GFP-S19) infecting the mouse macrophagocyte (RAW264.7),lysosome,endoplasmic reticulum and golgi body in the initial stage and compare the binding rate of GFP-M5,GFP-S19 with organelle in different timeline,respectively,by confocal laser scanning microscope (CLSM) and flow cytometry.The result showed that GFP-M5 and GFP-S19 were successfully constructed.The intracellular survival ability of Brucella M5,Brucella S19,GFP-M5 and GFP-S19 were not obvisouly affected after infecting RAW264.7.GFP-M5 and GFP-S19 could enter the macrophagocyte in 30 mins,and in 2 h the Brucella could reach lysosome,endoplasmic reticulum and golgi body.In addition,the binding time for two attenuated vaccine did not show differences in 1,2,3 and 4 h.The content of GFP⁺ cell produced by RAW264.7 infected by GFP-M5 and GFP-S19 did not show significant differences (P>0.05).Therefore,the two strains did not have significant differences in the invasion ability in the initial stage of infecting host cell.