TGFβ1真核表达载体对^60Coγ射线照射的人胚肺成纤维细胞的稳定转染方法研究

选择^60Coγ射线5Gy照射后第7天的人胚肺成纤维细胞（HELF）,采用聚阳离子脂质体LipofectAMINE介导的基因转染法将人TGFβ1正、反义基因表达载体pMAMneo-TGFβ1和pMAMeno-AntiTGFβ1转入HELF,转染细胞经G418抗性筛选出来。提取培养细胞的染色体DNA,用DAN斑点印迹分析表明,它们能与neo基因特异杂交。用neo基因特异的PCR引物能从转染细胞扩增出276bp的阳性片段,而未转染细胞则扩增阴性。     

人参不同部位皂甙对衰老的人胚肺成纤维细胞影响的细胞化学研究

应用细胞化学的定性、定位,显微分光光度计定量分析的方法,测定人参不同部位皂甙对低代龄和高代龄人胚肺成纤维细胞内多糖类(PAS反应)、酸性非特异性酯酶(ANAE)、碱性磷酸酶(ALP)、酸性磷酸酶(ACP)、单胺氧化酶(MAO)含量的影响,实验结果表明:人参根、果、茎叶皂甙(SRG、SFG、SSLG)使低代龄细胞的多糖类、MAO含量下降或上升,对ANAE台量没有显著影响。但对高代龄细胞,SFG、SRG、SSLG则显著增加了多糖类、ANAE、ALP、ACP的相对含量,同时降低了MAO的含量。本文提示,人参不同部位皂甙均可以提高衰老细胞内多糖类,ALP、ACP、ANAE的相对含量,降低MAO的含量,而对年青细胞的影响则很不一致。     

HAX1和EGFP共表达重组腺病毒载体的构建、鉴定

目的构建和鉴定HAX1和EGFP双基因共表达重组腺病毒载体。方法采用DNA重组技术,将目的基因HAX1克隆至含有报告基因EGFP的穿梭质粒pAdTrack—CMV中,并转化于大肠埃希菌DH5a;筛选出重组质粒pAdTrack—CMV—HAX1,并在BJ5183细菌中与pAdEasy-1质粒进行同源重组,产生重组腺病毒载体;用lipofectamine将其转染HEK293细胞,包装携带全长HAX1的重组复制缺陷型腺病毒pad—HAX1-EGFP,酶切和序列测定鉴定;用制备好的Ad—HAX1-EGFP感染HEK293细胞,流式细胞术检测其感染效率,RT—PCR、Western印迹鉴定外源基因HAX1的表达。BrdU检测感染了Ad—HAX1-EGFP的HEK293细胞增殖情况。结果pAdTrack—CMV—HAX1重组质粒构建成功。pAdTrack—CMV—HAX1质粒与pAdEasy-1质粒同源重组后与预期结果相符。构建好的Ad—HAX1-EGFP能有效感染HEK293细胞;外源基因能在239细胞中有效表达。HAX1高表达的HEK293细胞其增殖率得以提高。结论成功构建了表达HAX1和EGFP共表达的重组腺病毒载体,HAX1能够促进结肠癌细胞HEK293细胞的增殖。     

Oviduct-Specific Enhanced Green Fluorescent Protein Expression in Transgenic Chickens

In this study, we confirmed the ability of the 2-kb promoter fragment of the chicken ovalbumin gene to drive tissue-specific expression of a foreign EGFP gene in chickens. Recombinant lentiviruses containing the EGFP gene were injected into the subgerminal cavity of 539 freshly laid embryos (stage X). Subsequently the embryos were incubated to hatch using phases II and III of the surrogate shell ex vivo culture system. Twenty-four chicks (G0) were hatched and screened for EGFP with PCR. Two chicks were identified as transgenic birds (G1), and these founders were mated with wild-type chickens to generate transgenic progeny. In the generated transgenic hens (G2), EGFP was expressed specifically in the tubular gland of the oviduct. These results show the potential of the chicken ovalbumin promoter for the production of biologically active proteins in egg white.     

Trafficking of Na,K-ATPase Fused to Enhanced Green Fluorescent Protein Is Mediated by Protein Kinase A or C

Fusion of enhanced green fluorescent protein (EGFP) to the C-terminal of rat Na,K-ATPase a1-subunit is introduced as a novel procedure for visualizing trafficking of Na,K-pumps in living COS-1 renal cells in response to PKA or PKC stimulation. Stable, functional expression of the fluorescent chimera (Na,K-EGFP) was achieved in COS-1 cells using combined puromycin and ouabain selection procedures. Na,K-pump activities were unchanged after fusion with EGFP, both in basal and regulated states. In confocal laser scanning and fluorescence microscopes, the Na,K-EGFP chimera was distributed mainly along the plasma membrane of COS cells. In unstimulated COS cells, Na,K-EGFP was also present in lysosomes and in vesicles en route from the endoplasmic reticulum to the plasma membrane, but it was almost absent from recycling endosomes labelled with fluorescent transferrin. After activation of protein kinase A or C, the density of co-localizing Na,K-EGFP and transferrin vesicles was increased 3-4-fold, while the ouabain-sensitive 86Rb uptake was reduced by 22%. Simultaneous activation of PKA and PKC had additive effects with a 6-fold increase of co-localization and a 38% reduction of 86Rb uptake. Responses of similar magnitude were seen after inhibition of protein phosphatase by okadaic acid. Reduction of the amount of Na,K-ATPase in surface plasma membranes through internalization in recycling endosomes may thus in part explain a decrease in Na,K-pump activity following protein kinase activation or protein phosphatase inhibition.     

乙型肝炎病毒蛋白和绿色荧光蛋白的共表达研究

目的：构建增强型绿色荧光蛋白（EGFP）标记的乙型肝炎病毒（HBV）真核表达载体,并研究其在真核细胞和小鼠体内的共表达。方法：以质粒pBR322-HBVadr2．0和pCX-EGFP为基础,构建含有双拷贝HBV全基因组DNA和EGFP基因的真核表达载体pCX-EGFP-HBVadr2．0,分别转染真核细胞和小鼠肝组织,建立体外、体内表达系统,研究GFP和HBV基因的表达。结果：构建了真核表达载体pCX-EGFP-HBVadr2．0,EGFP和HBV病毒蛋白在体内和体外均可表达。结论：构建的pCX-EGFP-HBVadr2．0真核表达载体可以GFP作为HBV存在与否的报告基因,提高了培育检测转基因小鼠的效率,为转基因小鼠的制备及后续研究奠定了基础。     

Targeting of the Enhanced Green Fluorescent Protein Reporter to Adrenergic Cells in Mice

Adrenaline and noradrenaline are important neurotransmitter hormones that mediate physiological stress responses in adult mammals, and are essential for cardiovascular function during a critical period of embryonic/fetal development. In this study, we describe a novel mouse model system for identifying and characterizing adrenergic cells. Specifically, we generated a reporter mouse strain in which a nuclear-localized enhanced green fluorescent protein gene (nEGFP) was inserted into exon 1 of the gene encoding Phenylethanolamine n-methyltransferase (Pnmt), the enzyme responsible for production of adrenaline from noradrenaline. Our analysis demonstrates that this knock-in mutation effectively marks adrenergic cells in embryonic and adult mice. We see expression of nEGFP in Pnmt-expressing cells of the adrenal medulla in adult animals. We also note that nEGFP expression recapitulates the restricted expression of Pnmt in the embryonic heart. Finally, we show that nEGFP and Pnmt expressions are each induced in parallel during the in vitro differentiation of pluripotent mouse embryonic stem cells into beating cardiomyocytes. Thus, this new mouse genetic model should be useful for the identification and functional characterization of adrenergic cells in vitro and in vivo.     

绿色荧光蛋白基因在转基因小鼠体内的表达

建立绿色荧光蛋白（GFP）转基因小鼠,继而传代建系。采用显微注射法,将GFP基因注入FVB／NJ小鼠受精卵原核内,获得子代鼠。分娩后3周剪取仔鼠尾,提取基因组DNA,应用PCR、Southern印迹技术进行整合检测。结共用雌性小鼠200只,注射受精卵1586枚,移植卵数386枚,受体鼠32只,怀孕鼠4只,子代鼠18只,有4只为阳性：取2只首建鼠的胚胎,在荧光显微镜下观察GFP表达明显,表明初步获得了转绿色荧光蛋白基因小鼠,     

绿色荧光蛋白在蛋白质研究中的应用

绿色荧光蛋白（green fluorescent protein,GFP）自发现以来,由于具有自发荧光等特性,在分子生物学和细胞生物学领域得到广泛应用。GFP作为一种报道分子,在研究蛋白质相互作用和构象变化、检测蛋白质表达、蛋白质和细胞荧光示踪中,起到了重要的作用。该文通过对绿色荧光蛋白特性的分析．介绍其作为荧光标记在蛋白质研究中的应用,并展望进一步的研究前景。     

Stabilizing role of glutamic acid 222 in the structure of Enhanced Green Fluorescent Protein

Enhanced Green Fluorescent Protein (EGFP) is a variant of wild-type Green Fluorescent Protein from the jellyfish Aequorea victoria, whose mutations S65T and F64L increase brightness and folding efficiency. EGFP is extensively used in cell biology and biochemistry as a colocalization or expression reporter. Surprisingly, the structure of this very popular protein has not been determined yet. We report here its crystallographic structure at 1.5? resolution which shows significant differences in the vicinity of residue 64 and of the chromophore. In particular, two conformations are observed for the key residue glutamic acid 222, in apparent contradiction with the single fluorescence lifetime of the protein. We then show that X-ray induced decarboxylation of Glu222 during diffraction data collection results in the disruption of a hydrogen-bond network near the chromophore. Using single-crystal microspectrophotometry, we demonstrate that this correlates with a significant loss of the fluorescence properties. We thus propose a mechanism of bleaching of the protein at low temperature. Taken together, these two sets of results highlight the stabilizing role of Glu222 to the chromophore cavity of EGFP.     

Enhanced fluorescent properties of an OmpT site deleted mutant of Green Fluorescent Protein

Background  

The green fluorescent protein has revolutionized many areas of cell biology and biotechnology since it is widely used in determining gene expression and for localization of protein expression. Expression of recombinant GFP in E. coli K12 host from pBAD24M-GFP construct upon arabinose induction was significantly lower than that seen in E. coli B cells with higher expression at 30°C as compared to 37°C in E. coli K12 hosts. Since OmpT levels are higher at 37°C than at 30°C, it prompted us to modify the OmpT proteolytic sites of GFP and examine such an effect on GFP expression and fluorescence. Upon modification of one of the two putative OmpT cleavage sites of GFP, we observed several folds enhanced fluorescence of GFP as compared to unmodified GFPuv (Wild Type-WT). The western blot studies of the WT and the SDM II GFP mutant using anti-GFP antibody showed prominent degradation of GFP with negligible degradation in case of SDM II GFP mutant while no such degradation of GFP was seen for both the clones when expressed in BL21 cells. The SDM II GFP mutant also showed enhanced GFP fluorescence in other E. coli K12 OmpT hosts like E. coli JM109 and LE 392 in comparison to WT GFPuv. Inclusion of an OmpT inhibitor, like zinc with WT GFP lysate expressed from an E. coli K12 host was found to reduce degradation of GFP fluorescence by two fold.