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
4期
8-13
,共6页
闫大为%吴晓刚%李雪松%石迎%冯琳琳%崔宏锐%李国新%李泽君
閆大為%吳曉剛%李雪鬆%石迎%馮琳琳%崔宏銳%李國新%李澤君
염대위%오효강%리설송%석영%풍림림%최굉예%리국신%리택군
坦布苏病毒%MM1775%反向遗传操作系统
坦佈囌病毒%MM1775%反嚮遺傳操作繫統
탄포소병독%MM1775%반향유전조작계통
Tembusu virus%MM1775%reverse genetics system
本研究将坦布苏病毒MM1775株全基因组分3段克隆,获得3个重组质粒,利用融合PCR方法扩增得到5'端含有T 7启动子的病毒全长cDNA,经体外转录得到感染性的RNA,将RNA转染DF-1细胞,48 h后出现细胞病变。当细胞病变达到90%,将细胞上清接种DF-1细胞,72 h后进行间接免疫荧光(indirect immunofulorescence,IFA)和RT-PCR鉴定,结果表明拯救病毒成功。序列测定结果显示,拯救毒的全基因组序列与亲本毒完全一致,表明MM1775反向遗传操作系统构建成功,为进一步研究坦布苏病毒致病性等相关分子机制奠定了基础。
本研究將坦佈囌病毒MM1775株全基因組分3段剋隆,穫得3箇重組質粒,利用融閤PCR方法擴增得到5'耑含有T 7啟動子的病毒全長cDNA,經體外轉錄得到感染性的RNA,將RNA轉染DF-1細胞,48 h後齣現細胞病變。噹細胞病變達到90%,將細胞上清接種DF-1細胞,72 h後進行間接免疫熒光(indirect immunofulorescence,IFA)和RT-PCR鑒定,結果錶明拯救病毒成功。序列測定結果顯示,拯救毒的全基因組序列與親本毒完全一緻,錶明MM1775反嚮遺傳操作繫統構建成功,為進一步研究坦佈囌病毒緻病性等相關分子機製奠定瞭基礎。
본연구장탄포소병독MM1775주전기인조분3단극륭,획득3개중조질립,이용융합PCR방법확증득도5'단함유T 7계동자적병독전장cDNA,경체외전록득도감염성적RNA,장RNA전염DF-1세포,48 h후출현세포병변。당세포병변체도90%,장세포상청접충DF-1세포,72 h후진행간접면역형광(indirect immunofulorescence,IFA)화RT-PCR감정,결과표명증구병독성공。서렬측정결과현시,증구독적전기인조서렬여친본독완전일치,표명MM1775반향유전조작계통구건성공,위진일보연구탄포소병독치병성등상관분자궤제전정료기출。
The cDNA of Tembusu virus strain MM1775, were inserted segmentally into 3 plasmids, by PCR amplification, cloning and sub-cloning methods. The full-length cDNA, with T7 promoter sequence added at 5'ends, was amplified by infusion-PCR using the recombinant plasmids as templates and transfectedin vitro to produce the virus RNA, which was then transfected into DF-1 cells to rescue virus. Detectable cytopathic effect (CPE) was found at 48 hours post-transfection. To test the rescued virus, fresh DF-1 cell were infected with the supernatant of transfected-cell culture when 90% transfected-cells showed CPEs. Specific green fluorescence could be detected in the newly infected cells by indirect immuno fluorescence (IFA) and specic RT-PCR products could be amplified from the supernatants at 72 hours post-infection, suggesting the success of MM1775 rescue. Sequence analysis confirmed the rescued virus have no unexpected nucleotide change comparing with its parental virus. The establishment of the reverse genetics system of MM1775 settled the foundation for further study on the molecular basis of the pathogenicity of Tembusu virus.