从母猪白细胞检出猪瘟病毒

本研究应用RT-PCR对广西不同地区的老母猪白细胞172份、猪流产胎儿与死胎162份、新生仔猪33份和120份健康猪扁桃体进行猪瘟病毒检测.检出母猪白细胞阳性2份、流产胎儿与死胎阳性12份,健康猪扁桃体阳性1份和新生仔猪阳性3份.对其中1份母猪白细胞阳性材料、1份健康猪扁桃体阳性材料和4份流产胎儿材料进行猪瘟病毒E2基因的测序分析.结果显示,来自母猪白细胞的GXXJBl与HCLV、Shi-men株的核苷酸同源性分别为96.9%和94.0%,推导的氨基酸同源性分别为95.9%和94.2%;与其他的广西毒株的核苷酸同源性为81.1%～99.5%,推导的氨基酸同源性为89.6%～99.2%.根据遗传进化树分析,样品GXXJBI属于基因Ⅰ群.     

应用RT-PCR和单抗技术检测广西猪场临床非典型表现猪瘟的发生情况

应用RT-PCR及本室研制的三株抗猪瘟病毒(HCV)E2基因的单抗检测广西各猪场送检疑似猪瘟的病料,以了解广西猪场非典型症状猪瘟流行情况,共检24份外表猪瘟临床症状不明显或混合感染症状复杂的保育猪病料和8份母猪繁殖障碍引起的流产、死胎等的病料。经检测,24份外表缺乏猪瘟临床症状的病料中有8份诊断为猪瘟,阳性率为33％;8份流产、死胎的病料中有3份诊断为阳性,阳性率为38％。结果表明,广西猪场确实存在非典型症状猪瘟,有些猪场流行还很严重。     

猪瘟病毒野毒株和兔化弱毒疫苗株RT-PCR-RFLP鉴别检测方法的建立

本研究旨在建立猪瘟病毒野毒株和兔化弱毒疫苗株RT-PCR-RFLP鉴别检测方法。根据Shimen株设计1对特异性引物,建立猪瘟病毒RT-PCR-RFLP检测方法;对20份疑似猪瘟临床样品进行检测,并对检出的山东8株流行野毒株和2株疫苗株PCR产物进行克隆与序列分析,验证上述方法。结果RT-PCR扩增片段为825bp,产物经RFLP分析,野毒株的PCR产物能被ApaⅠ酶切为322bp和503bp 2个片段,兔化弱毒疫苗株则不能被酶切,检测出RNA的最低浓度为0.028 6μg.mL-1;8株流行野毒株都含GGGCCC序列(ApaⅠ酶切位点),2株疫苗株相应序列为GAGCCC,不能被ApaⅠ酶切;8株流行野毒株属于基因2群,2株疫苗株与HCLV遗传关系近,为基因1群。建立了可鉴别猪瘟病毒野毒株和兔化弱毒疫苗株RT-PCR-RFLP检测方法,为猪瘟的防控提供有效手段。     

规模化猪场猪瘟病原与抗体检测分析

为了解规模化猪场猪瘟野毒感染情况和猪瘟疫苗免疫效果,分别采用RT-PCR和ELISA方法对某场72份猪扁桃体样和419份血样进行了猪瘟病原和抗体检测。结果表明,该场无猪瘟野毒感染;种猪群猪瘟抗体阳性率高于90.3%、离散度低于33.1%,猪瘟疫苗免疫效果理想;保育猪猪瘟抗体阳性率仅为79.3%,离散度达到50.4%,抗体水平参差不齐,需采取综合防控措施进一步提高猪瘟抗体水平;母猪猪瘟抗体阳性率随着胎次的增加而呈递减趋势。     

RT-PCR技术检测猪瘟病毒的应用研究

本试验应用反转录-聚合酶链式反应(RT-PCR)对猪瘟进行诊断应用研究.应用RT-PCR对来自广西不同地区的135份疑似猪瘟病料进行检测,84份诊断为阳性,阳性率62.2%.从百色、柳州地区等采集的健康猪扁桃体和淋巴结共276份,经RT-PCR检测,37份为阳性,阳性率为13.4%.其中健康猪扁桃体带毒较高,246份扁桃体中有35份阳性,占14.2%.采自柳州健康猪的26份淋巴结材料全为阴性,只有邕宁县的1份健猪淋巴结阳性.结果表明,RT-PCR技术可应用于猪瘟的临床诊断.     

RT-PCR技术诊断猪瘟的应用研究

应用反转录—聚合酶链反应(RT-PCR)对猪瘟进行诊断应用研究。应用RT-PCR况对来自广西不同地区的135份疑似猪瘟病料进行检测，以份诊断为阳性，阳性率62．2％。从百色、柳州地区等采集的健康猪扁桃体和淋巴结共276份，经RT-PCR检测，37份为阳性，阳性率为13．4％。其中健康猪扁桃体带毒较高，246份扁桃体中有35份阳性，占14．2％。采自柳州健康猪的26份淋巴结材料全为阴性，只有邕宁县的1份健猪淋巴结阳性。结果表明，RT-PCR技术可应用于猪瘟的临床诊断。     

规模猪场猪伪狂犬病的诊断实例

天津某规模猪场发生妊娠母猪流产、产死胎及部分仔猪发病的情况,为确诊病原,分别对流产胎儿的组织和母猪血清进行了实验室检测。流产胎儿的组织经PCR或RT-PCR检测,猪伪狂犬病毒(PRV)为阳性,猪圆环病毒(PCV)、猪瘟病毒(CSFV)和猪繁殖与呼吸综合征病毒(PRRSV)为阴性。经猪伪狂犬病毒野毒株实时荧光PCR检测胎儿组织为阳性,检测母猪血清中猪伪狂犬gE抗体为阳性;用病毒的分离培养试验分离到了猪伪狂犬病毒,根据临床症状、抗原抗体检测及病毒的分离培养试验确诊该猪场存在猪伪狂犬病毒野毒感染。     

RT-PCR技术诊断猪瘟的应用研究

应用反转录—聚合酶链反应(RT-PCR)对猪瘟进行诊断应用研究。应用RT—PCR对来自广西不同地区的135份疑似猪瘟病料进行检测，84份诊断为阳性，阳性率62．296。从百色、柳州地区等采集的健康猪扁桃体和淋巴结共276份，经RT—PCR检测，37份为阳性，阳性率为13．4％。其中健康猪扁桃体带毒较高，246份扁桃体中有35份阳性，占14．2％。采自柳州健康猪的26份淋巴结材料全为阴性，只有邕宁县的1份健康猪淋巴结阳性。结果表明，RT-PCR技术可应用于猪瘟的临床诊断。     

CSFV的RT-PCR检测在控制与净化猪瘟中的应用

应用反转录-聚合酶链反应(RT-PCR)检测健康猪扁桃体猪瘟病毒以监控与净化猪瘟.2006年用RT-PCR对广西某存栏250头种猪场的母猪扁桃体连续进行3次猪瘟病毒检测,检出并清除带毒猪,猪群中猪瘟病毒的带毒猪明显下降.结果表明,RT-PCR检测猪扁桃体可应用于猪场猪瘟的控制与净化.     

广西柳州猪瘟流行毒株E2基因的扩增及序列分析

为了了解猪瘟流行毒株间的差异,试验应用RT-PCR技术对1株广西柳州流行的猪瘟野毒的E2基因进行了扩增、克隆及测序,利用DNAStar分析软件将其与国内外参考毒株的抗原序列进行比对分析,并绘制了系统发育进化树.结果表明:柳州株的核苷酸序列及推导的氨基酸序列存在多处替换,与中国标准株Shimen和疫苗株HCLV核苷酸序列...     

3种非猪瘟病毒单独或混合感染对猪瘟弱毒疫苗免疫效力的影响

将 2 0头 9月龄左右猪瘟、伪狂犬、猪繁殖与呼吸障碍综合征抗原、抗体阴性猪分成 6组 ,分别利用猪细小病毒(PPV)、猪伪狂犬病毒 (PRV)和猪繁殖与呼吸障碍综合征病毒 (PRRSV)单独或混合感染。 7d后连同对照猪 4头 ,免疫接种猪瘟兔化弱毒疫苗 (HCL V) ,13d后连同 4头阴性对照猪一起攻击猪瘟石门强毒。整个试验期间分别每天测温 ,观察临床症状 ,每周采集扁桃体和血样做各种病毒抗原及抗体检测。结果表明 ,非猪瘟病毒感染 7d后 ,所有各组猪均从体内检测到了相应感染的病原 ,表明 3种非猪瘟病毒感染成功。在攻击猪瘟石门强毒后 2周 ,感染了非猪瘟病毒后接种 HCL V疫苗的 4个免疫组 12头猪除 1头外 ,11头全为猪瘟病毒 (HCV)抗原检测阳性 ,且多呈强阳性 ;而单一 HCL V疫苗免疫组在猪瘟强毒攻击后检测不到 HCV;所有 HCL V疫苗免疫猪均存活 ,而非免疫对照组 4头猪全部在攻毒 16 d内死亡。     

Detection of virulent strains of Streptococcus suis type 2 and highly virulent strains of Streptococcus suis type 1 in tonsillar specimens of pigs by PCR.

We developed a PCR assay for the rapid and sensitive detection of virulent Streptococcus suis type 2 and highly virulent S. suis type 1 in tonsillar specimens from pigs. The PCR primers were based on the sequence of the gene encoding the EF-protein of virulent S. suis type 2 strains (MRP+EF+) and highly virulent S. suis type 1 strains (MRP(s)EF+) and of the EF protein of weakly virulent S. suis type 2 strains (MRP+EF). The latter strains give rise to larger PCR products than the virulent strains of S. suis type 1 and 2. A positive control template was included in the assay to identify false negative results. The PCR was evaluated using tonsillar specimens from herds known (or suspected) to be infected and herds without an S. suis history. The results obtained with the PCR assay were compared with the results obtained with a newly developed bacteriological examination. In this bacteriological examination we were able to identify the EF-positive strains directly in the tonsillar specimens. From the 99 tonsils examined, 48 were positive in the PCR and 51 negative. All specimens from which EF-positive S. suis strains were isolated were also positive in the PCR assay. Three samples were positive in the PCR, but negative by bacteriological examination. The results demonstrated that the PCR is a highly specific and sensitive diagnostic tool for the detection of pigs carrying virulent strains of S. suis type 2 and highly virulent strains of type 1. Application of the assay may contribute to the control of S. suis infections.     

猪瘟病毒荧光定量RT—PCR检测方法的建立及其初步应用

针对CSFV基因组5＇端非编码区序列设计并合成了高度特异的一对引物和一条探针,用于猪瘟病毒实时荧光定量PCR检测方法的建立。将提取的病毒的总RNA做为模板进行反转录和PCR,将PCR产物克隆到pMDl8-T载体后进行大肠杆菌转化,提取阳性质粒做为标准品绘制标准曲线,成功地建立了特异性检测CSFV的荧光定量RT-PCR方...     

RT-PCR检测禽传染性支气管炎病毒

用２对已发表的引物和１对自行设计的引物对同一禽传染性支气管炎病毒（ＩＢＶ）Ｈ１２０株进行ＲＴ－ＰＣＲ,分别获得了Ｓ１基因上与引物设计相一致的１７２０、２２８、６０２ｂｐ的扩增片段。用自行设计的引物对７个毒株（Ｈ１２０、Ｈ５２、Ｍ４１、Ｃｏｎｎ、Ｇｒａｙ、Ｔ、Ｈｏｌｔｅ）和５个分离株（宜毒、上毒、云毒、ＨＫ、１１８）的含毒尿囊液或纯化病毒进行ＲＴ－ＰＣＲ,结果除Ｈｏｌｔｅ株和２个分离株（宜毒、云毒）外,其余均成功地扩增出６００ｂｐ的片段。用１．７、０．２、０．６ｋｂ３对引物对６个ＩＢＶ毒株和６个分离株的含毒尿囊液在相同和不同条件下进行ＲＴ－ＰＣＲ,结果３对引物分别扩增出３、５、９株ＩＢＶ,同时可将不同血清型的１２个ＩＢＶ株分成６种基因型。将ＩＢＶ分离株ＨＫ与标准株Ｍ４１经ＰＣＲ扩增、ＨａｅⅢ和Ｈｉｎｄ酶切、ＲＦＬＰ分析,表明属同一马萨诸塞血清型。３株ＩＢＶ（Ｈ１２０,ＨＫ,Ｍ４１）在鸡胚中繁殖,ＰＣＲ最早检出的时间为２０～２４ｈ。ＲＴ－ＰＣＲ提供了直接从尿囊液和感染鸡组织中快速检测病毒的新方法。     

猪弓形虫特异性PCR诊断方法的建立及应用

以猪弓形虫核糖体DNA第一内转录间隔区(ITS1)序列为模板自行设计引物,建立了猪弓形虫病特异PCR诊断方法,并从弓形虫国际标准强毒株RH速殖子和疑似T.gondii感染猪全血及肺脏组织样品基因组DNA中扩增出了预期长度273bp的目的DNA片段。敏感性和特异性试验结果显示,该PCR方法能检测到的最低DNA量为0.001ng,且与相关的9种对照寄生虫、细菌和病毒无交叉反应。用建立的PCR诊断方法对临床30份猪弓形虫疑似病料和60份健康猪抗凝全血样品进行检测,结果30份病料中有24份呈现阳性;60份健康猪血中有5份为阳性;随机取两个临床样品的阳性PCR扩增片段进行克隆测序表明,二者序列与Gen-Bank中已登录的猪弓形虫ITS1基因相应部分序列完全相同。以上表明所建立的PCR方法具有高度的敏感性和特异性;本研究为猪弓形虫病的快速诊断提供了一种新方法。     

PCR detection and characterization of type-2 porcine circovirus.

A polymerase chain reaction (PCR) assay was developed for detecting porcine circovirus (PCV). The assay readily detected type-2 PCV (PCV-2) and type-1 PCV (PCV-1). The PCR primers were designed based on DNA sequences conserved in all reported PCV genomes. Type 1 PCV and type 2 PCV both produced 438 bp amplification products, which were easily identified and differentiated from one another by restriction fragment length polymorphism (RFLP) analysis. Porcine circovirus was detected in 55% (931/1693) of randomly tested pigs with various clinical signs and lesions, most of which were difficult to differentiate from those associated with porcine reproductive and respiratory syndrome (PRRS). The PCR products from all positive clinical samples were identified by RFLP to be only PCV-2; DNA tested by PCR was extracted directly from one or more of lung, mesenteric or mediastinal lymph nodes, and tonsil. Type 2 PCV was also detected in 6% (2/34) of DNA extracted directly from semen of randomly chosen healthy boars. Positive PCR reactions from 554 diseased pigs were characterized by RFLP and categorized into 5 different profiles (A-E), of which 82.8% were PCV-2A (456/554), 3.0% were PCV-2B (17/554), 9.9% were PCV-2C (55/554), 1.1% were PCV-2D (6/554), and 3.2% were PCV-2E (18/554). The complete genomic nucleotide sequences of PCV-2A, B, C, D, and E were determined and found to have at least 95% homology compared with one another and with all other PCV-2 found in the GenBank database. All PCV-2 had less than 76% homology with PCV-1. This PCR assay will hopefully be useful to veterinary diagnostic laboratories for routine testing and surveillance of infection with PCV-2. The RFLP profiling system might be useful for preliminary characterization and identification of PCV isolates and might also benefit studies on the molecular epidemiology of PCV.