稳定表达T_7RNA聚合酶的猪睾丸细胞系的建立

根据GenBank中登录的T7RNA聚合酶基因参考序列,设计合成了1对特异性引物扩增对T7RNA聚合酶基因进行扩增,将测序正确的T7RNA聚合酶基因和真核表达载体pIRES2-EGFP双酶切后进行连接构建pIRES2-EGFP-T7RNA RNA质粒。再将构建正确的pIRES2-EGFP-T7RNA质粒经用脂质体法转染猪睾丸细胞,通过G418筛选和单细胞克隆化,同时构建pET-32a-RED原核表达质粒载体,用其检测T7启动子控制下的红色荧光蛋白的表达。结果表明,建立的ST/T7RNA细胞系经20次传代仍然能稳定表达T7RNA聚合酶。结果显示,成功建立能稳定表达T7RNA聚合酶的猪睾丸细胞系,为猪瘟病毒反向遗传操作平台奠定了基础。     

Abortive initiation and productive initiation by RNA polymerase involve DNA scrunching

Using single-molecule DNA nanomanipulation, we show that abortive initiation involves DNA "scrunching"--in which RNA polymerase (RNAP) remains stationary and unwinds and pulls downstream DNA into itself--and that scrunching requires RNA synthesis and depends on RNA length. We show further that promoter escape involves scrunching, and that scrunching occurs in most or all instances of promoter escape. Our results support the existence of an obligatory stressed intermediate, with approximately one turn of additional DNA unwinding, in escape and are consistent with the proposal that stress in this intermediate provides the driving force to break RNAP-promoter and RNAP-initiation-factor interactions in escape.     

Structural basis of transcription: separation of RNA from DNA by RNA polymerase II

The structure of an RNA polymerase II-transcribing complex has been determined in the posttranslocation state, with a vacancy at the growing end of the RNA-DNA hybrid helix. At the opposite end of the hybrid helix, the RNA separates from the template DNA. This separation of nucleic acid strands is brought about by interaction with a set of proteins loops in a strand/loop network. Formation of the network must occur in the transition from abortive initiation to promoter escape.     

高尔基体驻膜糖蛋白GP73启动子克隆

[目的]寻找并克隆有活性的高尔基体膜蛋白GP73的启动子。[方法]对GP73基因转录起始位点上游1 000 bp至下游400 bp序列进行软件分析预测,以肝癌细胞系Huh7基因组DNA为模板,扩增目标片段,构建增强型绿色荧光蛋白(EGFP)为报告基因的重组质粒,转染细胞后在荧光显微镜下观察EGFP的表达,并采用流式细胞仪定量检测转染细胞的荧光强度。[结果]发现GP73转录起始位点上游980到下游330 bp长1 310 bp的序列具有启动子功能。该区域可能具有两个核心启动子序列和多个保守序列,包括TATA box和NF-κB、AP1、GC-SP1等DNA结合序列。[结论]该研究为探讨GP73的转录机制提供了参考。     

具有绿色荧光标记的表达T7 RNA聚合酶的稳定细胞系的建立

[目的]建立具有绿色荧光标记的表达T7RNA聚合酶的稳定细胞系。[方法]从BL21（DE3）大肠杆菌中克隆出T7RNAP基因,定向克隆进质粒FG12后,构建了表达T7RNA聚合酶基因（T7）的Lenti-virus重组质粒FG12-T7RNAP。用此重组质粒转染293T细胞,WB可检测出瞬时表达的T7RNAP蛋白;利用辅助质粒对表达T7的非复制型Lenti-virus病毒进行体外包装,所获得的非复制型Lenti-virus病毒感染BHK-21细胞,利用GFP通过流式细胞分选仪筛选表达T7的细胞系,并利用WB检测基因的表达。[结果]通过WB检测出不同代次的阳性细胞中均能稳定表达目的基因T7RNA聚合酶。[结论]T7RNA聚合酶能顺利在真核细胞内表达,并在此基础上建立的稳定细胞系为RNA病毒体内拯救技术平台的建立奠定了基础。