中国动物传染病学报
中國動物傳染病學報
중국동물전염병학보
CHINESE JOURNAL OF VETERINARY PARASITOLOGY
2015年
1期
1-8
,共8页
缪佶%鲍衍清%邵红霞%钱琨%秦爱建
繆佶%鮑衍清%邵紅霞%錢琨%秦愛建
무길%포연청%소홍하%전곤%진애건
禽网状内皮组织增生症病毒%鸡胚成纤维细胞%实时荧光PCR%复制
禽網狀內皮組織增生癥病毒%鷄胚成纖維細胞%實時熒光PCR%複製
금망상내피조직증생증병독%계배성섬유세포%실시형광PCR%복제
Reticuloendotheliosis virus (REV)%chicken embryo fibroblasts (CEF)%real-time PCR%replication
本文建立了一种快速、灵敏、特异性强的禽网状内皮组织增生症病毒(Reticuloendotheliosis virus,REV)检测方法,并对REV在鸡胚成纤维细胞(chick embryo fibroblast,CEF)上的增殖动态规律进行研究。分别针对gag、env以及LTR基因的保守序列设计3对引物,利用重组质粒作为模板,绘制3种不同基因的标准曲线。检测结果显示,本研究建立了多重实时荧光PCR检测方法,所制备的标准品模板在108~101copies范围内与Ct值之间呈现良好的线性关系,且最低检出量为101copies。REV感染CEF后gag、env、LTR基因的拷贝数均先减少后增多。通过实时荧光PCR技术与间接免疫荧光方法检测,发现REV在CEF上复制的初始阶段呈现病毒适应过程,此后病毒大量复制,表现出明显的增长趋势。该研究不仅为REV的诊断技术提供了一种新的方法,同时也为深入研究REV的感染机制和致病机理奠定了基础。
本文建立瞭一種快速、靈敏、特異性彊的禽網狀內皮組織增生癥病毒(Reticuloendotheliosis virus,REV)檢測方法,併對REV在鷄胚成纖維細胞(chick embryo fibroblast,CEF)上的增殖動態規律進行研究。分彆針對gag、env以及LTR基因的保守序列設計3對引物,利用重組質粒作為模闆,繪製3種不同基因的標準麯線。檢測結果顯示,本研究建立瞭多重實時熒光PCR檢測方法,所製備的標準品模闆在108~101copies範圍內與Ct值之間呈現良好的線性關繫,且最低檢齣量為101copies。REV感染CEF後gag、env、LTR基因的拷貝數均先減少後增多。通過實時熒光PCR技術與間接免疫熒光方法檢測,髮現REV在CEF上複製的初始階段呈現病毒適應過程,此後病毒大量複製,錶現齣明顯的增長趨勢。該研究不僅為REV的診斷技術提供瞭一種新的方法,同時也為深入研究REV的感染機製和緻病機理奠定瞭基礎。
본문건립료일충쾌속、령민、특이성강적금망상내피조직증생증병독(Reticuloendotheliosis virus,REV)검측방법,병대REV재계배성섬유세포(chick embryo fibroblast,CEF)상적증식동태규률진행연구。분별침대gag、env이급LTR기인적보수서렬설계3대인물,이용중조질립작위모판,회제3충불동기인적표준곡선。검측결과현시,본연구건립료다중실시형광PCR검측방법,소제비적표준품모판재108~101copies범위내여Ct치지간정현량호적선성관계,차최저검출량위101copies。REV감염CEF후gag、env、LTR기인적고패수균선감소후증다。통과실시형광PCR기술여간접면역형광방법검측,발현REV재CEF상복제적초시계단정현병독괄응과정,차후병독대량복제,표현출명현적증장추세。해연구불부위REV적진단기술제공료일충신적방법,동시야위심입연구REV적감염궤제화치병궤리전정료기출。
The objective of the present study was to develop a rapid, sensitive and specific method for detection of Reticuloendotheliosis virus (REV) in host cells and evaluation of replication kinetics for REV in chicken embryo fibroblasts (CEFs). Real-time PCR was developed using SYBR Green I and three pairs of primers specific to the conserved regions of gag, env and LTR genes and used to measure copies of viral genes at different days post infection. The results showed real-time PCR assay detected REV in the range of 108 to 101 copies with the detection limit at 101 copies. The copy numbers of these viral genes were detected in low level at initial infection stage followed by abundant increase. As compared with indirect immunofluorescence assay (IFA), real-time PCR demonstrated the presence of REV in CEFs at early infection immediately following by massive virus replication. In conclusion, development of real-time PCR provided a new method for REV detection and further research on mechanisms of infection and pathogenesis.