The aim is to develop a liquid chip technique to detect Taura syndrome virus( TSV) and yellow head disease virus( YHDV) on Penaeus orientalis simultaneously. The CP2 gene of TSV and N gene of YHDV in Gen Bank was anal...The aim is to develop a liquid chip technique to detect Taura syndrome virus( TSV) and yellow head disease virus( YHDV) on Penaeus orientalis simultaneously. The CP2 gene of TSV and N gene of YHDV in Gen Bank was analysed by using the software DNAStar 7. 0 to design the TSV-and YHDV-specific primers. The primers were labeled with biotin and subjected to amination modification. They were then coupled with fluorescence-coded microspheres and then used for hybridization with RT- PCR products of TSV and YHDV. The liquid chip detection technique for detection of TSV and YHDV was established by using BD FACSArray to detect fluorescence signal in the reaction system. This assay system had a high sensitivity to TSV and YHDV,with the detection of limit of 100 pg. Moreover,the assay was specific for the detection of TSV,YHDV and was not susceptible to cross with other viruses,including white spot syndrome virus( WSSV),spring viremia of carp virus( SVCV),infectious haematopoietic necrosis virus( IHNV). In conclusion,the liquid chip assay technique established in this study is highly sensitive and specific to TSV and YHDV detection. Moreover,it provides a novel,convenient and rapid approach for the detection of TSV and YHDV.展开更多
In order to reveal the immune antibody levels and immune effect of livestock and poultry in the locality,we performed antibody surveillance on severe animal diseases in 17 livestock and poultry fields in six administr...In order to reveal the immune antibody levels and immune effect of livestock and poultry in the locality,we performed antibody surveillance on severe animal diseases in 17 livestock and poultry fields in six administrative districts of Wuhan City. The results showed that the vaccines had a good protective efficacy on highly pathogenic avian influenza( HPAI) and Newcastle disease( ND) in Wuhan City. The whole antibody levels kept above the ministerial standard( 】 70%).However,the vaccine immunity of porcine reproductive and respiratory syndrome( PRRS),swine fever( SF) and foot and mouth disease( FMD) was still poorly protective. The data indicated that the vaccines are protecting the severe animal diseases well,but there are still some potential security holes in some administrative districts.展开更多
[Objective] The paper was to establish pyrosequencing methods for detecting viral hemorrhagic septicemia virus (VHSV). [ Method ] One pair of PCR primers and one pyrosequencing primer of VHSV were designed. The pyro...[Objective] The paper was to establish pyrosequencing methods for detecting viral hemorrhagic septicemia virus (VHSV). [ Method ] One pair of PCR primers and one pyrosequencing primer of VHSV were designed. The pyrosequencing reaction system and conditions were optimized and the pyrosequencing method for detecting VHSV was established. [ Result] This method was only able to specifically detect the objective viruses in the eight fish viruses, and the method had the advantage of high sensitivity. The minimum detectable limit of nucleic acid was 82 copies/μL. The method was verified by detecting VHSV in 1 924 batches of samples collected from domestic and imported fishes. The detection results were consistent with that of traditional RT-PCR, and the specificity and sensitivity of the method could meet the detection requirement for aquatic animal diseases. [ Conclusion] The study provides a new detection method for monitoring and prevention and control of aquatic animal virus diseases.展开更多
[Objective]The paper was to develop a rapid method for the detection of spring Viremia of carp virus(SVCV).[Method]The specific primers were designed by targeting the G gene of SVCV.The recombinase polymerase amplific...[Objective]The paper was to develop a rapid method for the detection of spring Viremia of carp virus(SVCV).[Method]The specific primers were designed by targeting the G gene of SVCV.The recombinase polymerase amplification(RPA)assay for detecting SVCV was estab-lished by optimizing the reaction conditions.The optimal amplification temperature of RPA assay was 30℃,and the test could be finished within 20 min.[Result]The method was specific with no cross-reaction with other common fish infectious viruses.Sensitivity test showed that the lowest detection limit of the method was 89.2 copies/μL,higher than that of traditional RT-PCR.Moreover,a total of 80 clinical samples were detected by RPA and RT-PCR,respectively.The weak positive samples tested by RT-PCR could be detectable with RPA,indicating that RPA assay could be used in clinical detection.[Conclusion]The method established is rapid,simple,specific and sensitive for testing SVCV,and it will be widely used in grassroots laboratory and on-site inspection.展开更多
基金Supported by Science and Technology Project of General Administration of Quality Supervision,Inspection and Quarantine of the People's Republic of China(2012IK018)Special Fund for Scientific Research in the Public Welfare(201210055-4)
文摘The aim is to develop a liquid chip technique to detect Taura syndrome virus( TSV) and yellow head disease virus( YHDV) on Penaeus orientalis simultaneously. The CP2 gene of TSV and N gene of YHDV in Gen Bank was analysed by using the software DNAStar 7. 0 to design the TSV-and YHDV-specific primers. The primers were labeled with biotin and subjected to amination modification. They were then coupled with fluorescence-coded microspheres and then used for hybridization with RT- PCR products of TSV and YHDV. The liquid chip detection technique for detection of TSV and YHDV was established by using BD FACSArray to detect fluorescence signal in the reaction system. This assay system had a high sensitivity to TSV and YHDV,with the detection of limit of 100 pg. Moreover,the assay was specific for the detection of TSV,YHDV and was not susceptible to cross with other viruses,including white spot syndrome virus( WSSV),spring viremia of carp virus( SVCV),infectious haematopoietic necrosis virus( IHNV). In conclusion,the liquid chip assay technique established in this study is highly sensitive and specific to TSV and YHDV detection. Moreover,it provides a novel,convenient and rapid approach for the detection of TSV and YHDV.
基金Supported in part by Shandong Entry-Exit Inspection and Quarantine Bureau (SK200807) We thank Dr. LI Xiangning, who works in the CSR (Center for Scientific Review) of NIH (National Institutes of Health), USA, for his critical reading of the manuscript.
基金Supported by High Tech Industry Development Plan of Wuhan City(201220812240-6)
文摘In order to reveal the immune antibody levels and immune effect of livestock and poultry in the locality,we performed antibody surveillance on severe animal diseases in 17 livestock and poultry fields in six administrative districts of Wuhan City. The results showed that the vaccines had a good protective efficacy on highly pathogenic avian influenza( HPAI) and Newcastle disease( ND) in Wuhan City. The whole antibody levels kept above the ministerial standard( 】 70%).However,the vaccine immunity of porcine reproductive and respiratory syndrome( PRRS),swine fever( SF) and foot and mouth disease( FMD) was still poorly protective. The data indicated that the vaccines are protecting the severe animal diseases well,but there are still some potential security holes in some administrative districts.
基金Supported by the Twelfth Five-Year Support Project of the Ministry of Science and Technology(2013BAD12B02)Science and Technology Project of State General Administration of the People’s Republic of China for Quality Supervision and Inspection and Quarantine(2015IK195)
文摘[Objective] The paper was to establish pyrosequencing methods for detecting viral hemorrhagic septicemia virus (VHSV). [ Method ] One pair of PCR primers and one pyrosequencing primer of VHSV were designed. The pyrosequencing reaction system and conditions were optimized and the pyrosequencing method for detecting VHSV was established. [ Result] This method was only able to specifically detect the objective viruses in the eight fish viruses, and the method had the advantage of high sensitivity. The minimum detectable limit of nucleic acid was 82 copies/μL. The method was verified by detecting VHSV in 1 924 batches of samples collected from domestic and imported fishes. The detection results were consistent with that of traditional RT-PCR, and the specificity and sensitivity of the method could meet the detection requirement for aquatic animal diseases. [ Conclusion] The study provides a new detection method for monitoring and prevention and control of aquatic animal virus diseases.
基金Supported by National Key Research and Development Program (2017YFF0211103)Scientific Research Project of General Administration of Quality Supervision,Inspection and Quarantine (2017IK232)
文摘[Objective]The paper was to develop a rapid method for the detection of spring Viremia of carp virus(SVCV).[Method]The specific primers were designed by targeting the G gene of SVCV.The recombinase polymerase amplification(RPA)assay for detecting SVCV was estab-lished by optimizing the reaction conditions.The optimal amplification temperature of RPA assay was 30℃,and the test could be finished within 20 min.[Result]The method was specific with no cross-reaction with other common fish infectious viruses.Sensitivity test showed that the lowest detection limit of the method was 89.2 copies/μL,higher than that of traditional RT-PCR.Moreover,a total of 80 clinical samples were detected by RPA and RT-PCR,respectively.The weak positive samples tested by RT-PCR could be detectable with RPA,indicating that RPA assay could be used in clinical detection.[Conclusion]The method established is rapid,simple,specific and sensitive for testing SVCV,and it will be widely used in grassroots laboratory and on-site inspection.