食品安全质量检测学报
食品安全質量檢測學報
식품안전질량검측학보
FOOD SAFETY AND QUALITY DETECTION TECHNOLOGY
2014年
12期
3922-3928
,共7页
孙涛%王超%徐彪%魏波%王宏华%岳志芹
孫濤%王超%徐彪%魏波%王宏華%嶽誌芹
손도%왕초%서표%위파%왕굉화%악지근
禽流感病毒%亚型%表面离子共振系统
禽流感病毒%亞型%錶麵離子共振繫統
금류감병독%아형%표면리자공진계통
avian influenza virus%subtype%surface plasmon resonance
目的:利用表面离子共振系统建立检测 H5、H7、H9三种亚型禽流感病毒的方法。方法取原核表达的H5、H7、H9亚型的血凝素HA蛋白偶联于CM5芯片上,利用HBS缓冲液梯度稀释病毒参考抗原并分别与固定浓度的三种亚型的禽流感抗血清进行反应,采用竞争法制备标准曲线并用以计算样品的浓度和确立检测灵敏度低限。对不同亚型之间及五种其他常见禽类病毒抗体进行特异性检测试验。结果建立的表面离子共振方法在检测各亚型时相互之间无交叉反应,未检测到其他禽源病毒的阳性响应信号, HA重组蛋白的检测极限可达0.5μg/mL。结论研究表明该方法可用于同步鉴别主要流行的禽流感病毒亚型。
目的:利用錶麵離子共振繫統建立檢測 H5、H7、H9三種亞型禽流感病毒的方法。方法取原覈錶達的H5、H7、H9亞型的血凝素HA蛋白偶聯于CM5芯片上,利用HBS緩遲液梯度稀釋病毒參攷抗原併分彆與固定濃度的三種亞型的禽流感抗血清進行反應,採用競爭法製備標準麯線併用以計算樣品的濃度和確立檢測靈敏度低限。對不同亞型之間及五種其他常見禽類病毒抗體進行特異性檢測試驗。結果建立的錶麵離子共振方法在檢測各亞型時相互之間無交扠反應,未檢測到其他禽源病毒的暘性響應信號, HA重組蛋白的檢測極限可達0.5μg/mL。結論研究錶明該方法可用于同步鑒彆主要流行的禽流感病毒亞型。
목적:이용표면리자공진계통건립검측 H5、H7、H9삼충아형금류감병독적방법。방법취원핵표체적H5、H7、H9아형적혈응소HA단백우련우CM5심편상,이용HBS완충액제도희석병독삼고항원병분별여고정농도적삼충아형적금류감항혈청진행반응,채용경쟁법제비표준곡선병용이계산양품적농도화학립검측령민도저한。대불동아형지간급오충기타상견금류병독항체진행특이성검측시험。결과건립적표면리자공진방법재검측각아형시상호지간무교차반응,미검측도기타금원병독적양성향응신호, HA중조단백적검측겁한가체0.5μg/mL。결론연구표명해방법가용우동보감별주요류행적금류감병독아형。
Objective To establish a method for detecting avian influenza virus of H5, H7 and H9 subtype using surface plasmon resonance system.Methods The hemagglutinin protein of H5, H7 and H9 subtype which expressed by prokaryotic was coupled on the CM5 chip. The reference antigen of 3 subtypes was diluted gradiently using the HBS buffer and reacted with fixed concentration of 3 subtypes of AIV antiserum respectively. With the preparation of standard curve using competing test, we could calculate the concentration of the sample and detection sensitivity limit. Then the antibody of different subtypes and 5 other poultry disease viruses were tested specificity.Results Various subtypes had no cross reaction between each other, and no positive response of the signals between other poultry virus based on the surface plasmon resonance method. The limit of HA recombinant proteins detection could be reached 0.5 μg/mL.Conclusion The study showed that the method could be used for identifying major epidemic subtypes of avian influenza virus synchronously.
