6株牛传染性鼻气管炎病毒BICP4基因序列的同源性分析

牛传染性鼻气管炎病毒的立即早期启动基因IER4.2编码感染细胞蛋白BICP4基因。各种疱疹病毒的BICP4基因的Ⅰ，Ⅲ，Ⅴ区变异性较大，并为其特征区。为了比较分离自不同牛种，不同部位的5种病毒株BICP4蛋白I区基因的差异性，本文根据已发表的IBBV K22毒株重复序列IRs中BICP4的基因序列设计了一特异性引物，对各毒株进行PCR扩增，均得到约540bp的片段，将其克隆，测序并连同K22株进行同源性比较。结果表明，6株病毒的核苷酸序列及氨基酸序列同源性均在98%以上，说明这些毒株重复序列中的早期基因高度保守，在一定程度上也显示出IBRV的高度保守性。     

单克隆抗体ELISA检测犊牛粪便中冠状病毒抗原

用两株单克隆抗体混合后包被ＥＬＬＩＳＡ微孔板，加牛冠状病毒抗原，加经白陶土处理过的兔抗牛冠状病毒免血清，再加上辣根氧化物酶标记的羊抗兔ＩｇＧ抗体，加底物质显色间接ＥＬＩＳＡ检测牛冠状病毒抗原获得成功。用此方法检测细胞培养的牛冠状病毒上清液，其敏感度高出血凝试验（ＨＡ）８倍，从武汉市附近３个奶牛场采集犊牛腹泻粪便１０５份，用单抗ＥＬＩＳＡ检测牛冠状病毒抗原，共检出阳性３６份，并与血凝及血凝抑制试验，     

切割取样对胚胎发育的影响

体视显微镜下,采用徒手持金属刀片和自制的玻璃切割针分别对小鼠和牛胚胎进行切割取样,并对取样后的胚胎进行体外培养48h,其发育率分别为76.7%(46/60)和80%(16/20),两者差异不显著(P>0.05);奶牛新鲜胚胎切割取样后,胚胎移植妊娠率47.1%(8/17),比对照组妊娠率59.0%(23/39)差异显著(P<0.05)。冷冻-解冻胚胎切割取样后移植妊娠率42.9%(6/17)虽然也比对照组50%低,但是差异不显著(P>0.05)。     

牛腔前卵泡的简易机械分离方法

采用两种机械法分离牛腔前卵泡。方法一 (M -1) ,皮肤移植刀切割、剪碎、过滤镜下直接捡卵法。方法二 (M -2 ) ,皮质片剪碎、离心、悬浮、过滤镜下捡卵法。M -1平均每卵巢采卵数为 46 9个± 18 2个 ,M -2为 6 8 4个± 12 5个 ;处理时间M -1为 2 5 4min± 6 7min ,M -2为 46 3min± 16 8min ,两种方法采集腔前卵泡数量及处理时间均存在显著差异。平均每小时采集卵泡数分别为 99 5和 87 2个 ,M -1多于M -2。两种方法获得腔前卵泡大小分布规律也有明显差异 ,M -1采集腔前卵泡直径为 6 0～ 15 0 μm ,绝大部分是次级卵泡 ,而M -2获取腔前卵泡则偏小。总的看来 ,M -1处理时间短 ,回收效率高 ,方法简便 ,且分离卵泡直径较大 ,适于体外培养 ,是机械分离牛腔前卵泡的一种理想方法。     

鸡白血病病毒抗原ELISA试剂盒的研制和应用

以双抗体夹心酶联免疫吸附试验（ＤＡＳ－ＥＬＩＳＡ）为基本原理，成功地研制出鸡白血病病毒抗原ＥＬＩＳＡ试剂盒，该试剂盒与国外同类试剂盒相比，具备相同的特异性和敏感性，对ＲＡＶ－１纯化样品的最小检出量可达０．７８ｕｇ／ｍｌ，且敏感性高于直接补体结合试验。经初步应用发现，我国商品种鸡群ＡＬＶ阳性率为０．７－１４％，在部分ＳＰＦ鸡群中未检出阳性鸡。     

禽白血病病毒J亚群(ALV-J)的攻毒试验

将禽白血病病毒 J亚群 (AL V- J)内蒙株 NM876 1和 NM9996人工接种于 1日龄爱维茵肉种鸡 ,通过眼观、病理组织学检查观察了攻毒鸡的病理学特征 ;通过 PCR和 EL ISA技术检测了病毒感染率、抗体变化规律以及病毒和抗体的相关性。结果显示 ,攻毒鸡从第 3周开始即可检出病毒 ,NM876 1株和 NM9996株病毒感染率分别为 71.4 %和6 4 .3% ;从第 5周开始 ,出现较明显的病理学变化 ,病变特征以骨髓、肝脏、心脏、脾、卵巢等组织内髓细胞增生为主 ,而法氏囊、脑、坐骨神经无变化 ;攻毒鸡抗体消长变化有一定的规律 ,一般在 7～ 8周龄和 18～ 2 0周龄时分别出现 1次高峰 ,而在 4～ 6周龄、10周龄和 2 3周龄分别出现 1次低谷 ,提示鸡场进行 EL ISA检测时要避开这一时期 ;攻毒鸡产生耐受性病毒血症 ,即病毒阳性而抗体阴性 (V A- )的比例较高 (7/14 ,9/14 )。通过以上的研究证明 ,AL V- J内蒙株疾病模型复制成功 ,NM876 1、NM9996可作为原型株进行相关研究     

用酶联免疫吸附试验检测鸡白血病以及控制、根除鸡白血病措施的探讨

用酶联免疫吸附试验(ELISA),对2群鸡的鸡蛋清和1株鸡的马立克氏病疫苗进行检测,发现2群鸡的鸡蛋清中,鸡白血病病毒的阳性率分别是11％和29％,鸡马立克氏病冻干苗隐藏鸡白血病病毒群体特异性(gs)抗原的阳性率为100％。本文指出我国禽苗可能带有鸡的白血病病毒,分析讨论了鸡白血病病毒的垂直传递和水平传播的规律,提出在曾祖代和祖代鸡群中,采用ELISA试验,检测鸡蛋清,能减少以至根除鸡的白血病。     

Comparative studies of strains of infectious bovine rhinotracheitis virus isolated from latently infected calves

Three strains (479 C, 778 TL, 982 LE) of infectious bovine rhinotracheitis (IBR) virus isolated from latently infected calves were compared with the prototype strain of IBR virus (LA strain) in studies which included restriction endonuclease analysis, experimental infection, and reciprocal cross protection tests in cattle. From the restriction endonuclease analysis it appeared that the 3 "latent" viruses were derived from the same isolate, and that it differed slightly from the LA strain. However, latency does not seem to have affected the pathogenicity or the immunogenicity of the virus. This is demonstrated by the identical clinical and virologic response of calves subjected to experimental infection with the various strains under study, and by the finding that when the LA strain and a "latent" strain (982 LE) were tested in cross protection tests in cattle, they proved to be mutually protective.     

Lymphoid leukosis viruses,their recognition as ‘persistent’ viruses and comparisons with certain other retroviruses of veterinary importance

Diseases caused by lymphoid leukosis virus (LLV), a retrovirus, take a long time after infection to develop and have a wide variety of pathological manifestations. This long latent period is characteristic of persistent virus infections. Disease produced by LLV infection and its underlying mechanisms is compared with persistent infections caused by other retroviruses in birds and mammals of veterinary importance. The diseases considered for comparison are those caused by reticuloendotheliosis, feline leukaemia, bovine leukosis and equine infectious anaemia viruses. There are significant changes in the immunological status in all diseases caused by these viruses. LLV infections follow this trend with, in manifestations of neoplastic disease, a perturbation of the normal switch that occurs from IgM to IgG synthesis. There are also indications of other immunological disturbances.Factors other than immunological disturbances may contribute to the length of time after infection required for the many forms of LLV infection to appear. Such additional factors may include the operation of biological clocks, such as the arrival of sexual maturity, and also the very nature of retroviruses. These factors, like the immunological changes, play major roles in the maintenance and progression of persistent retrovirus infections.Abbreviations ACTH adrenocorticotropic hormone - AEV avian erythroblastosis virus - AMV avian myeloblastosis virus - BLV bovine leukaemia virus - CAV chicken anaemia virus - EBL enzootic bovine leukaemia - EIAV equine infectious anaemia virus - env envelope gene - FeLV feline leukaemia virus - FeSV feline sarcoma virus - FOCMA feline oncovirus membrane-associated antigen; gag, group antigen gene - HTLV human T-cell leukaemia virus - LLV lymphoid leukosis virus - L/S leukosis/sarcoma - LTR long terminal repeat - MAV myeloblastosis-associated virus - MDV Marek disease virus - MuLV mouse leukaemia virus - ORF open reading frame; pol, polymerase gene - REV reticuloendotheliosis virus - RIF resistance-inducing factor - RSV Rous sarcoma virus