Respiratory viral infections are known for serious economic losses in ruminants. Bovine parain-fluenza 3 virus (bPI-3V) a member of Respirovirus genus in association with other respiratory viruses causes respiratory d...Respiratory viral infections are known for serious economic losses in ruminants. Bovine parain-fluenza 3 virus (bPI-3V) a member of Respirovirus genus in association with other respiratory viruses causes respiratory disease complex in ruminants. The aim of this study was to estimate the seroprevalence of bPI-3V in non vaccinated cattle, sheep and goats from Grenada. Sera were collected randomly from 60 sheep, 60 goats and 60 cattle from all six parishes of Grenada. Sera were tested for antibodies to bPI-3V using an indirect Enzyme Linked Immunosorbant Assay (ELISA) kit. Antibodies to bPI-3V were detected in 13.4% (Confidence Level (CL): 95%;Confidence Interval (CI): 4.76% to 22.02%) in cattle;16.7% (CL: 95%;CI: 7.26% to 26.14%) in sheep and 11.7% (CL: 95%;CI: 3.57% to 19.83%) in goats. There was statistically no significant difference in prevalence (p > 0.05) of antibodies to bPI-3V in cattle, sheep and goats in Grenada. This is the first report on seroprevalence of bPI-3V in ruminants in Grenada, West Indies.展开更多
Bovine parainfluenza virus type 3(BPIV3) is considered as one of the most important respiratory tract pathogens of both young and adult cattle, and widespread among cattle in the world. BPIV3 was first reported in C...Bovine parainfluenza virus type 3(BPIV3) is considered as one of the most important respiratory tract pathogens of both young and adult cattle, and widespread among cattle in the world. BPIV3 was first reported in China in 2008 and four strains of BPIV3 were isolated from Shandong Province, known as genotype C(BPIV3c). Pathogen investigations had shown that BPIV3 c infection was very common among cattle in China. To date, BPIV3 can be classified into genotypes A, B and C based on genetic and phylogenetic analysis. Serological survey also demonstrates that BPIV3 infection is widespread in China, however, there is still no available vaccine for BPIV3 prevention in China nowadays. In the present study, the BPIV3 c strain SD0835 was continuously passaged on Madin-Darby bovine kidney(MDBK) cells for hundreds of times, and the pathogenicity of passage 209 was reduced in guinea pigs. The passage 209 of BPIV3 c strain SD0835 was used as a live vaccine candidate to immunize the guinea pigs. The vaccination results revealed that two vaccinations could induce excellent serum neutralizing antibody responses as well as proliferation of T lymphocytes. The vaccinated guinea pigs were well protected against challenge with a low passage of BPIV3 c strain SD0835. Additionally, the percentages of CD4~+ and CD8~+ T cell subsets of animals in vaccinated group increased after immunization; T cell subsets on day 2 after challenge in both groups decreased, and the decline of CD4~+ and CD8~+ T cell subsets levels of four guinea pigs in vaccinated group was relatively moderate, comparing with that of the control group. These data support further testing of the attenuated virus as an effective candidate vaccine.展开更多
利用蚀斑试验方法对牛疱疹病毒1型(BHV-1)和牛副流感病毒3型(BPIV-3)的混合病毒进行分离纯化及鉴定,为BHV-1、BPIV-3感染的诊断提供科学依据。将不同稀释度的BHV-1和BPIV-3混合病毒接种至牛肾原代细胞,加营养琼脂培养,产生蚀斑后扩增并R...利用蚀斑试验方法对牛疱疹病毒1型(BHV-1)和牛副流感病毒3型(BPIV-3)的混合病毒进行分离纯化及鉴定,为BHV-1、BPIV-3感染的诊断提供科学依据。将不同稀释度的BHV-1和BPIV-3混合病毒接种至牛肾原代细胞,加营养琼脂培养,产生蚀斑后扩增并RT-PCR鉴定。将纯化后毒液分别进行二次蚀斑纯化及鉴定。结果 BHV-1和BPIV-3混合病毒第6~7 d可产生明显蚀斑。鉴定阳性的BHV-1和BPIV-3进行二次蚀斑,鉴定结果均为阳性,且分离的两种病毒TCID_(50)测定结果为10^(-8.5)/0.1 m L、10^(-6.5)/0.1 m L。首次通过蚀斑试验,成功分离并得到了两株毒力较高且纯化的BHV-1和BPIV-3病毒株。展开更多
本试验根据GenBank中登录的牛副流感病毒3型(BPIV-3)基因序列,利用在线软件Primer Explorer V4Software和Primer Premier 5.0,针对BPIV-3 NP基因序列的保守区设计并筛选了一套环介导逆转录等温核酸扩增(RT-LAMP)引物,建立BPIV-3特异性...本试验根据GenBank中登录的牛副流感病毒3型(BPIV-3)基因序列,利用在线软件Primer Explorer V4Software和Primer Premier 5.0,针对BPIV-3 NP基因序列的保守区设计并筛选了一套环介导逆转录等温核酸扩增(RT-LAMP)引物,建立BPIV-3特异性检测的RT-LAMP方法。在Bst DNA聚合酶作用下,63℃恒温反应1h即可完成扩增过程,扩增产物通过浑浊度比较、凝胶电泳和肉眼可视化进行判定。结果表明,该方法比RT-PCR敏感度更高,最低检出量可达0.069fg/μL。该方法可用于牛副流感病毒3型的实验室检测和临床初步诊断。展开更多
文摘Respiratory viral infections are known for serious economic losses in ruminants. Bovine parain-fluenza 3 virus (bPI-3V) a member of Respirovirus genus in association with other respiratory viruses causes respiratory disease complex in ruminants. The aim of this study was to estimate the seroprevalence of bPI-3V in non vaccinated cattle, sheep and goats from Grenada. Sera were collected randomly from 60 sheep, 60 goats and 60 cattle from all six parishes of Grenada. Sera were tested for antibodies to bPI-3V using an indirect Enzyme Linked Immunosorbant Assay (ELISA) kit. Antibodies to bPI-3V were detected in 13.4% (Confidence Level (CL): 95%;Confidence Interval (CI): 4.76% to 22.02%) in cattle;16.7% (CL: 95%;CI: 7.26% to 26.14%) in sheep and 11.7% (CL: 95%;CI: 3.57% to 19.83%) in goats. There was statistically no significant difference in prevalence (p > 0.05) of antibodies to bPI-3V in cattle, sheep and goats in Grenada. This is the first report on seroprevalence of bPI-3V in ruminants in Grenada, West Indies.
基金funded by a grant from the National Natural Science Foundation of China(31372452)a fund for Science and Technology Plan from Harbin Science and Technology Bureau,Heilongjiang Province,China(2012AA6BN020)a grant from the National Key Technologies R&D Program of China during the 12th Five-Year Plan period(2012BAD12B03-3)
文摘Bovine parainfluenza virus type 3(BPIV3) is considered as one of the most important respiratory tract pathogens of both young and adult cattle, and widespread among cattle in the world. BPIV3 was first reported in China in 2008 and four strains of BPIV3 were isolated from Shandong Province, known as genotype C(BPIV3c). Pathogen investigations had shown that BPIV3 c infection was very common among cattle in China. To date, BPIV3 can be classified into genotypes A, B and C based on genetic and phylogenetic analysis. Serological survey also demonstrates that BPIV3 infection is widespread in China, however, there is still no available vaccine for BPIV3 prevention in China nowadays. In the present study, the BPIV3 c strain SD0835 was continuously passaged on Madin-Darby bovine kidney(MDBK) cells for hundreds of times, and the pathogenicity of passage 209 was reduced in guinea pigs. The passage 209 of BPIV3 c strain SD0835 was used as a live vaccine candidate to immunize the guinea pigs. The vaccination results revealed that two vaccinations could induce excellent serum neutralizing antibody responses as well as proliferation of T lymphocytes. The vaccinated guinea pigs were well protected against challenge with a low passage of BPIV3 c strain SD0835. Additionally, the percentages of CD4~+ and CD8~+ T cell subsets of animals in vaccinated group increased after immunization; T cell subsets on day 2 after challenge in both groups decreased, and the decline of CD4~+ and CD8~+ T cell subsets levels of four guinea pigs in vaccinated group was relatively moderate, comparing with that of the control group. These data support further testing of the attenuated virus as an effective candidate vaccine.
文摘利用蚀斑试验方法对牛疱疹病毒1型(BHV-1)和牛副流感病毒3型(BPIV-3)的混合病毒进行分离纯化及鉴定,为BHV-1、BPIV-3感染的诊断提供科学依据。将不同稀释度的BHV-1和BPIV-3混合病毒接种至牛肾原代细胞,加营养琼脂培养,产生蚀斑后扩增并RT-PCR鉴定。将纯化后毒液分别进行二次蚀斑纯化及鉴定。结果 BHV-1和BPIV-3混合病毒第6~7 d可产生明显蚀斑。鉴定阳性的BHV-1和BPIV-3进行二次蚀斑,鉴定结果均为阳性,且分离的两种病毒TCID_(50)测定结果为10^(-8.5)/0.1 m L、10^(-6.5)/0.1 m L。首次通过蚀斑试验,成功分离并得到了两株毒力较高且纯化的BHV-1和BPIV-3病毒株。
文摘本试验根据GenBank中登录的牛副流感病毒3型(BPIV-3)基因序列,利用在线软件Primer Explorer V4Software和Primer Premier 5.0,针对BPIV-3 NP基因序列的保守区设计并筛选了一套环介导逆转录等温核酸扩增(RT-LAMP)引物,建立BPIV-3特异性检测的RT-LAMP方法。在Bst DNA聚合酶作用下,63℃恒温反应1h即可完成扩增过程,扩增产物通过浑浊度比较、凝胶电泳和肉眼可视化进行判定。结果表明,该方法比RT-PCR敏感度更高,最低检出量可达0.069fg/μL。该方法可用于牛副流感病毒3型的实验室检测和临床初步诊断。