稳定表达T7 RNAP的BHK-21细胞系的建立

为建立能稳定表达T7RNA聚合酶(T7RNAP)的BHK-21细胞系以研究RNA重组疫苗,本研究从BL21(DE3)大肠杆菌中扩增T7 RNAP基因,定向克隆于质粒pcDNA3.1(+)中,经双酶切及测序鉴定,获得阳性重组质粒pcDNA3.1-T7 RNAP。用该质粒转染BHK-21细胞,经G418筛选14d后获得阳性细胞株。RT-PCR和western blot检测结果表明,建立了稳定表达T7 RNAP的BHK-21细胞系,并且在不同代次的阳性细胞中能稳定表达目的基因和蛋白,该研究为RNA病毒感染性质粒在细胞内转录及病毒拯救技术平台的建立奠定了基础。

Establishment of BHK-21 Stable Cell Lines Expressing T7 RNAP and GFP

[Objective] The aim was to establish the BHK-21 stable cell lines expressing T7 RNAP and GFP.[Method]T7 RNAP gene was amplified from E.coli BL21（DE3）and inserted into FG12 vector.The lenti-virus recombinant plasmid FG12-T7 RNAP plasmid was obtained via identification with double enzymes digestion and gene sequencing.The transient expressed T7 RNAP protein was determined by WB in 293T cells transfected with FG12-T7 RNAP plasmid.The recombinant FG12-RNAP lenti-virus was packaged up by transfecting the 293 cells with the recombinant vector FG12-RNAP and the helper plasmids via lipofectamine-2000,which was then used to infect BHK-21 cells.The positive cell clones were obtained after continuous screening by GFP.The expression of T7 RNAP gene was confirmed by Western blot.[Result]The cell line stably expressing the T7 RNAP gene was established by Western blot.[Conclusion]T7 RNAP gene could be stably expressed in eukaryotic cells and it provided a good platform to rescue RNA virus in vivo.

T7RNAP基因的克隆及其质体定位表达载体的构建

为在番茄成熟果实组织中建立T7/T7RNAP质体转基因特异与高效表达系统,本文克隆了原核T7RNAP基因,在添加上质体定位信号肽编码序列后,由番茄果实成熟特异表达启动子PDS和Tnos终止子控制,构成了含有PDS-ptT7RNAP-Tnos基因表达盒的植物基因双元表达载体。该研究为在番茄质体工程中控制外源质体转基因在番茄成熟果实成熟组织中定点表达奠定了基础。

Ubiquitination of DNA Damage-Stalled RNAPII Promotes Transcription-Coupled Repair

Transcription-coupled nucleotide excision repair(TC-NER)is initiated by the stalling of elongating RNA polymerase II(RNAPIIo)at DNA lesions.The ubiquitination of RNAPIIo in response to DNA damage is an evolutionarily conserved event,but its function in mammals is unknown.Here,we identified a single DNA damage-induced ubiquitination site in RNAPII at RPB1-K1268,which regulates transcription recovery and DNA damage resistance.Mechanistically,RPB1-K1268 ubiquitination stimulates the association of the core-TFIIH complex with stalled RNAPIIo through a transfer mechanism that also involves UVSSA-K414 ubiquitination.We developed a strand-specific ChIP-seq method,which revealed RPB1-K1268 ubiquitination is important for repair and the resolution of transcriptional bottlenecks at DNA lesions.Finally,RPB1-K1268R knockin mice displayed a short life-span,premature aging,and neurodegeneration.Our results reveal RNAPII ubiquitination provides a two-tier protection mechanism by activating TC-NER and,in parallel,the processing of DNA damage-stalled RNAPIIo,which together prevent prolonged transcription arrest and protect against neurodegeneration.

RPRD1B/CREPT facilitates the progression of diffuse large B-cell lymphoma by inhibiting apoptosis through the NF-κB signaling pathway

Objective:To investigate the role of RPRD1B in the progression of diffuse large B-cell lymphoma(DLBCL)and its potential as a therapeutic target.Methods:This study analyzed RPRD1B expression in DLBCL and normal tissues using public databases and assessed its prognostic impact through survival analysis.In vitro and in vivo experiments were conducted to explore the mechanisms by which RPRD1B influences tumor growth and apoptosis.Results:RPRD1B expression was significantly elevated in DLBCL compared to normal tissues and was associated with poor prognosis.In vitro and in vivo experiments demonstrated that RPRD1B promoted lymphoma cell proliferation and inhibited apoptosis through the NF-κB signaling pathway.Conclusions:RPRD1B plays a critical role in the progression of DLBCL by modulating apoptosis and cellular proliferation.Targeting RPRD1B may offer a novel therapeutic strategy for DLBCL,suggesting its potential as a prognostic marker and therapeutic target in hematological malignancies.

Actin and nuclear myosin I are associated with RNAP II and function in gene transcription

The presence of actin in the nucleus as well as its functions in various nuclear processes has been made clear in the past few years. Actin is known to be a part of chromatin-remodeling complexes BAF, which are required for maximal ATPase activity of the Brg1 component of the BAF complex. Moreover, the essential roles of actin in transcription mediated by RNA polymerases Ⅰ,Ⅱ and Ⅲ have been demonstrated recently. On the other hand, a myosin Ⅰ isoform, which contains a unique NH2-terminal extension for nucleus localization, has been specifically localized in nucleus. As is well known, myosin Ⅰ is an actin-binding protein and plays an important role in various cellular activities. Though actin and nuclear myosin Ⅰ (NM Ⅰ) have been implicated to play distinct roles in gene expression, there has been no evidence for the actin-myosin interaction that might be involved in gene transcription mediated by RNA polymerase Ⅱ (RNAP Ⅱ). Here we show evidence that both actin and NM Ⅰ are associated with RNAP Ⅱ in nucleus by using co-localization and co-IP assays, and they may act together on gene transcription. The antibodies against β-actin or NM Ⅰ can block RNA synthesis in a eukaryotic in vitro transcription system with template DNA comprising the promoter and the coding region of human autocrine motility factor receptor (hAMFR) gene; the antibodies pre-adsorbed with purified actin and NM Ⅰ have no effect in transcriptional inhibition, indicating that the inhibition of transcription by anti-actin and anti-NM I is specific. These results suggest a direct involvement of actin-myosin complexes in regulating transcription. It also implicates that actin and NM Ⅰ may co-exist in a same complex with RNAP Ⅱ and the interaction of RNAP Ⅱ with actin and NM Ⅰ functions in the RNAP Ⅱ-mediated transcription.

RNA聚合酶监视的DNA修复机制

生物体在正常生命过程中面临内/外因来源的DNA损伤,DNA损伤不仅影响基因正确复制,也阻碍其正常转录.为避免DNA损伤带来的灾难性后果,生物体进化出一整套修复机制,以保证复制和转录的正确性、基因组的完整性和遗传的稳定性.本文重点综述了RNA聚合酶监视(RNA polymerase-surveilled,RNAP-S)的DNA修复机制.首先从RNA聚合酶(RNA polymerase,RNAP)的结构出发介绍了RNAP对DNA损伤的感知机制;其次讨论了滞留RNAP的回溯、与其模板DNA的解离以及后续修复机制的启动,真核细胞科凯恩综合征B蛋白(Cockayne syndrome protein B,CSB)及其泛素化和8-氧代鸟嘌呤DNA糖基化酶1(8-oxoguanine DNA glycosylase1,OGG1)介导的RNAP-S修复;最后探讨了RNAP-S损伤修复的生物学意义并展望其前景.

Trx-NAP 5融合蛋白在大肠杆菌中的表达及其活性检测

目的:用大肠杆菌表达获得重组线虫抗凝血肽5(rNAP 5),为研究开发NAP5的功能与应用提供原料来源。方法:将扩增的NAP5基因经BamHⅠ和HindⅢ双酶切后与表达载体pET-32a连接。构建好的重组表达质粒转化至大肠杆菌BL21(DE3)后,分别经IPTG和乳糖诱导表达,并探讨诱导表达条件,分析表达产物的可溶性情况。表达产物经镍亲和纯化后,用凝血酶原时间(PT)和活化部分凝血活酶时间(aPTT)检测体外抗凝活性。结果:成功构建了pET-32a/NAP5表达载体,IPTG和乳糖均能诱导目的蛋白在大肠杆菌BL21(DE3)中高效地可溶性表达。优化条件下每升LB培养基可获可溶性目的融合蛋白量达65.3mg。纯化的蛋白能明显延长PT及aPTT,7.0mg/L的蛋白平均约延长5.09倍aPTT,2.55倍PT。结论:在大肠杆菌中成功表达了具有很好生物活性的Trx-NAP5融合蛋白,为研究开发NAP5的功能与应用奠定了基础。

具有绿色荧光标记的表达T7 RNA聚合酶稳定细胞系的建立

[目的]建立具有绿色荧光标记表达T7 RNA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,定向克隆质粒FG12后,构建了表达T7 RNA聚合酶基因(T7)的Lenti-virus重组质粒FG12-T7 RNAP。用此重组质粒转染293T细胞,WB可检测出瞬时表达的T7 RNAP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T7 RNA聚合酶。[结论]T7 RNA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。

CUT&Tag产物回收和建库方法的优化

新兴的染色质靶向切割和标签化(clevage under target and tagment,CUT&Tag)技术利用转座酶在目标蛋白结合的DNA附近进行切割并对切割下的DNA片段进行标签化,通过后续的二代测序可以快速鉴定蛋白质-DNA相互作用,极大的简化了染色质免疫共沉淀测序(chromatin immunoprecipitation sequencing,ChIP-seq)的实验过程。CUT&Tag中转座酶完成标签化后需要DNA回收或其他后处理才能进行建库PCR,不同的回收方法对CUT&Tag结果有着显著的影响。通过建立生物素化转座体-链霉亲和素磁珠体系(streptavidin beads recovery CUT&Tag,srCUT&Tag),可以快速便捷地完成CUT&Tag的产物回收。本文在K562细胞中展开H3K4me3、RNA聚合酶Ⅱ(RNA polymeraseⅡ,RNAPⅡ)、转录因子CTCF和HMGA1的CUT&Tag实验,并利用现有的乙醇沉淀、片段分选(solid-phase reversible immobilization,SPRI)磁珠回收和直接PCR法,以及本研究建立的srCUT&Tag方法对产物进行回收。结果表明,从整体上看,SPRI磁珠回收和srCUT&Tag方法着较高的回收效率,而乙醇沉淀法则回收效率低下。在全部4种CUT&Tag产物回收过程中,SPRI磁珠回收均会损失大部分小于150 bp的产物片段。在CTCF和HMGA1 CUT&Tag产物的回收中,直接PCR法则损失了大部分大于300 bp的片段并与其他回收方法的结果有较大的差别。因此,srCUT&Tag能够比其他三种回收方法提供更多更完整的测序信息。综上所述,新建立srCUT&Tag回收方法相比现有的CUT&Tag产物回收方法能提高建库效率并得到更好的数据质量,为表观遗传学研究提供了更好的技术选择。

稳定表达T7RNA聚合酶IBRS-2细胞系的建立以及利用该细胞系对SVDV的体内拯救

利用PCR从!溶原性细菌DE3中扩增出T7RNA聚合酶基因,定向克隆进逆转录病毒载体pBABEpuro,得到阳性重组质粒pT7BABEpuro.把该重组质粒与pVSV-G共感染GP2-293包装细胞系,形成假型病毒.通过polybrene介导假型病毒感染IBRS-2细胞,利用嘌呤霉素进行传代筛选,形成细胞系IBRST7.对不同代次的IBRST7细胞基因组进行PCR和RT-PCR鉴定,结果表明,T7RNA聚合酶基因在细胞传代过程中能稳定存在,并能表达目的蛋白的mRNA.为了鉴定T7RNA聚合酶在IBRST7细胞内是否具有转录活性,扩增口蹄疫病毒(FMDV)的内部核糖体进入位点(IRES)片段和EGFP基因,定向克隆于原核表达载体pET-43.1a-c(+)中,构建了T7启动子控制下转录的具有非帽依赖性表达的重组质粒pIERS-EGFP-ET,把该质粒转染IBRST7细胞,能够在紫外显微镜下观察到绿色荧光,说明EGFP得到了表达,表明IBRST7细胞系内的T7RNA聚合酶具有转录活性.然后,利用该细胞系成功拯救出具有感染性的猪水泡病病毒(SVDV),并对其生物学功能进行了鉴定.该细胞系的建立为利用T7RNA聚合酶转录系统体内高效拯救病毒提供了基础.该拯救病毒的策略使RNA拯救简化为一步快速的拯救方法,为进一步探索SVDV病毒致病的分子机制及研制新型SVD疫苗奠定了良好的基础.

RNA聚合酶维持转录忠实性的机制

RNA聚合酶(RNAP)在维持转录忠实性方面具有重要的作用,其忠实性机制可以分为特异性的底物选择和校对2种.RNAP高水平的底物选择忠实性主要基于碱基配对和诱导契合机制,而校对功能则通过焦磷酸解和RNAP内在的RNA剪切活性完成.现在,RNAP的研究已经超出了其在转录中的作用,延伸到了其他领域.本文主要论述了RNAP忠实性机制的研究进展,并将之与DNA聚合酶、氨酰-tRNA合成酶及核糖体的忠实性机制进行了比较.最后,论述了RNAP在新药或新药靶点开发中的作用,并对其应用前景进行了展望.

非测量数码相机在1∶1000航测成图中的应用

利用无人飞机作为遥感平台搭载非测量数码相机进行于航空摄影测量,是常规摄影测量的有力补充。本文结合东台市的一个实例,讨论了基于无人机进行1∶1000比例尺地形图的航空摄影测量作业流程及关键技术,并对其可行性进行分析和论证。

带ψ-强单调映象的广义非线性拟变分包含(英文)

引入了一类新的带ψ 强单调映象的广义非线性拟变分包含.在Hilbert空间中使用极大η 单调映象的预解算子方法建立了这类变分包含解的存在性定理,构造了求此类变分包含解具误差的新迭代算法,并讨论了算法的收敛准则.

PLBMAP:高性能通用FPGA可编程逻辑块映射算法

研究了一种低复杂度、高利用率、高性能的通用FPGA逻辑块映射算法。基本思想包括为降低算法复杂度而提出的将组合电路与时序电路分开映射、对逻辑单元分层；引入匹配度系数以提高逻辑单元的利用率。从而在算法的性能和速度两方面均得到了较好的突破：平均性能比现存通用映射算法提高了12.59％，平均运行时间可以降低10^2～10^3倍。

Alpha 1抗胰蛋白酶核基质附着区增强RNA聚合酶Ⅱ依赖的转录

核基质附着区是一种真核生物的DNA元件,能调控染色体结构和活性。为研究体内MAR相关的染色质准入和转录调控,从人基因组中克隆了Alpha1抗胰蛋白酶核基质附着区(α1-ATMAR)并将其连入pEGFP-C1载体。分别以空载体和携带MAR的载体通过脂质体法转染人胚肾293细胞系。经G418筛选20天的细胞池用作实验分析。半定量RT-PCR及荧光显微镜观察显示此MAR能够增强临近基因的表达。进一步用染色质免疫共沉淀(ChIP)共定位CMV启动子和RNA聚合酶Ⅱ(RNAPⅡ),PCR结果显示存在MAR元件时,更多的RNA聚合酶Ⅱ被富集到启动子区。ChIP方法可用于证实MAR介导的转录激活,在实时检测方面比RT-PCR提供了更多动力学信息。这项技术为进一步研究基因表达调控提供了技术平台。

Sigma54依赖性转录起始

作为细菌RNA聚合酶(RNAP)的组成型辅助因子,sigma70和sigma54分别参与了原核细胞不同类型基因的转录起始调控。sigma70负责管家基因的自发转录起始;而sigma54负责应激信号相关的基因转录起始。sigma54与RNAP形成复合物后,会通过空间阻滞的方式阻碍DNA进入RNAP中,抑制基因转录起始。当细胞环境变化后,特定应激信号会通过细菌增强子结合蛋白(bEBP)诱发sigma54的构象发生变化,解除sigma54对RNAP的抑制,启动sigma54依赖的基因转录。最近的结构生物学研究揭示了sigma54依赖性转录起始的若干复合物结构,包括全酶、封闭式复合物、2个中间状态复合物及开放式复合物。通过分析这些转录起始复合物的结构,本文阐述了转录起始过程中复合物的结构变化。描述并分析了sigma54和bEBP在转录起始过程中所发挥的功能。本文有助于了解转录起始分子水平的变化,为深入理解sigma54和bEBP促进转录起始的分子机制提供了参考。

大肠杆菌共表达LeGGPS2、LePSY1和crtI基因合成番茄红素

利用大肠杆菌研究番茄红素的合成,不仅可以获得副产物少的高产菌株,而且可以探讨基因或基因簇的功能。文中将番茄LeGGPS2和LePSY1的cDNA序列,及欧文氏菌crtI的编码序列分别添加上核糖体结合位点后,以单独或组合的方式受控于T7启动子和终止子,在大肠杆菌菌株BL21(DE3)中进行表达和诱导番茄红素合成。结果显示,仅T7::crtI-LeGGPS2-LePSY1三价基因共表达时才能合成番茄红素,且将种子液以1∶50接种于含3%蔗糖的LB培养基(pH 6.8)中,于37℃摇8 h左右的对数生长后期加IPTG至80μmol/L,30℃诱导表达5 h的发酵条件下,获得2.124 mg/g DCW的番茄红素。该结果既验证了原核化的番茄LeGGPS2和LePSY1基因及与crtI基因协同作用的功能,又为在番茄质体中建立独立的番茄红素合成途径奠定了基础。

猪源新城疫病毒F和HN基因的表达及其对BHK-21细胞膜的融合作用

为了分析猪源新城疫病毒F和HN基因对BHK-21细胞膜的融合作用,采用RT-PCR方法从猪源新城疫病毒JL01株中扩增获得了F蛋白基因,并根据GenBank上登录的猪源新城疫病毒HN基因序列,合成了HN基因,分别将F和HN基因克隆到pKS载体上。又从大肠杆菌BL21(DE3)中扩增得到T7RNA聚合酶基因,将报告基因EGFP与T7RNA聚合酶基因一起定向克隆到痘苗病毒转移载体pSTK上。再将pKS-F、pKS-HN与pSTK-T7-EGFP共转染BHK-21细胞,转染后16h,用Giemsa染液进行染色,可见明显的细胞融合现象。该研究证明猪源新城疫病毒JL01株的F和HN蛋白共同作用于BHK-21细胞使细胞膜融合。