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1.
Rotavirus is a major cause of infantile viral gastroenteritis. Rotavirus nonstructural protein 4 (NSP4) has pleiotropic properties and functions in viral morphogenesis as well as pathogenesis. Recent reports show that the inhibition of NSP4 expression by small interfering RNAs leads to alteration of the production and distribution of other viral proteins and mRNA synthesis, suggesting that NSP4 also affects virus replication by unknown mechanisms. This report describes studies aimed at correlating the localization of intracellular NSP4 in cells with its functions. To be able to follow the localization of NSP4, we fused the C terminus of full-length NSP4 with the enhanced green fluorescent protein (EGFP) and expressed this fusion protein inducibly in a HEK 293-based cell line to avoid possible cytotoxicity. NSP4-EGFP was initially localized in the endoplasmic reticulum (ER) as documented by Endo H-sensitive glycosylation and colocalization with ER marker proteins. Only a small fraction of NSP4-EGFP colocalized with the ER-Golgi intermediate compartment (ERGIC) marker ERGIC-53. NSP4-EGFP did not enter the Golgi apparatus, in agreement with the Endo H sensitivity and a previous report that secretion of an NSP4 cleavage product generated in rotavirus-infected cells is not inhibited by brefeldin A. A significant population of expressed NSP4-EGFP was distributed in novel vesicular structures throughout the cytoplasm, not colocalizing with ER, ERGIC, Golgi, endosomal, or lysosomal markers, thus diverging from known biosynthetic pathways. The appearance of vesicular NSP4-EGFP was dependent on intracellular calcium levels, and vesicular NSP4-EGFP colocalized with the autophagosomal marker LC3. In rotavirus-infected cells, NSP4 colocalized with LC3 in cap-like structures associated with viroplasms, the site of nascent viral RNA replication, suggesting a possible new mechanism for the involvement of NSP4 in virus replication.  相似文献   

2.
Rotavirus is a major cause of infantile gastroenteritis with a multifactorial pathogenesis. As with many other pathogens, rotavirus infection and replication leads to rearrangement of the cytoskeleton with disorganization of cytoskeletal elements such as actin and cytokeratin through a calcium-dependent process that has not been fully characterized. The rotavirus enterotoxin NSP4, shown previously to elevate intracellular calcium levels when added exogenously as well as when expressed intracellularly, is a key player in intracellular calcium regulation during rotavirus infection. Here, we investigated the role NSP4 may play in actin rearrangement. Expression of NSP4 fused to enhanced green fluorescent protein (NSP4-EGFP), but not expression of EGFP alone, caused stabilization of long cellular projections in fully confluent HEK 293 cells. Cells expressing NSP4-EGFP for 24 h were also resistant to cell rounding induced by cytochalasin D. Quantification of filamentous actin (F-actin) content by using rhodamine-conjugated phalloidin and flow cytometry showed an elevated F-actin content in NSP4-EGFP-expressing and rotavirus-infected cells in comparison with that in nonexpressing and noninfected cells. Normalization of intracellular calcium levels prevented alterations of F-actin content. Observed changes in F-actin amounts correlated with the increased activation of the actin-remodeling protein cofilin. These calcium-dependent actin rearrangements induced by intracellular NSP4 expression may contribute to rotavirus pathogenesis by interfering with cellular processes dependent on subcortical actin remodeling, including ion transport and viral release.  相似文献   

3.
Green fluorescent protein (GFP) and GFP-like proteins of different colors are important tools in cell biology. In many studies, the intracellular targeting of proteins has been determined by transiently expressing GFP fusion proteins and analyzing their intracellular localization by fluorescence microscopy. In most vectors, expression of GFP is driven by the enhancer/promoter cassette of the immediate early gene of human cytomegalovirus (hCMV). This cassette generates high levels of protein expression in most mammalian cell lines. Unfortunately, these nonphysiologically high protein levels have been repeatedly reported to artificially alter the intracellular targeting of proteins fused to GFP. To cope with this problem, we generated a multitude of attenuated GFP expression vectors by modifying the hCMV enhancer/promoter cassette. These modified vectors were transiently expressed, and the expression levels of enhanced green fluorescent protein (EGFP) alone and enhanced yellow fluorescent protein (EYFP) fused to another protein were determined by fluorescence microscopy and/or Western blotting. As shown in this study, we were able to (i) clearly reduce the expression of EGFP alone and (ii) reduce expression of an EYFP fusion protein down to the level of the endogenous protein, both in a graded manner.  相似文献   

4.
Green fluorescent protein (GFP) is widely used as an excellent reporter module of the fusion proteins. The unique structure of GFP allows isolation of the active fluorescent protein directly from the crude cellular sources by extraction with organic solvents. We demonstrated the stable expression of four short polypeptides fused to GFP in Escherichia coli cells, including antimicrobial cationic peptides, which normally kill bacteria. EGFP module protected fusion partners from the intracellular degradation and allowed the purification of the chimerical proteins by organic extraction. The nature of the polypeptide fused to GFP, as opposed to the order of GFP and the polypeptide modules in the fusion protein, influenced the efficiency of the described purification technique.  相似文献   

5.
The green fluorescent protein (GFP) has become an invaluable marker for monitoring protein localization and gene expression in vivo. Recently a new red fluorescent protein (drFP583 or DsRed), isolated from tropical corals, has been described [Matz, M.V. et al. (1999) Nature Biotech. 17, 969-973]. With emission maxima at 509 and 583 nm respectively, EGFP and DsRed are suited for almost crossover free dual color labeling upon simultaneous excitation. We imaged mixed populations of Escherichia coli expressing either EGFP or DsRed by one-photon confocal and by two-photon microscopy. Both excitation modes proved to be suitable for imaging cells expressing either of the fluorescent proteins. DsRed had an extended maturation time and E. coli expressing this fluorescent protein were significantly smaller than those expressing EGFP. In aging bacterial cultures DsRed appeared to aggregate within the cells, accompanied by a strong reduction in its fluorescence lifetime as determined by fluorescence lifetime imaging microscopy.  相似文献   

6.
多聚精氨酸融合增强型绿色荧光蛋白制备方法及穿膜效果   总被引:1,自引:0,他引:1  
为了方便细胞穿膜肽R9融合蛋白的可溶性表达及功能上的研究,构建了pSUMO (小分子泛素样修饰蛋白) -R9-EGFP (增强型绿色荧光蛋白) 原核表达载体。分别纯化EGFP及R9-EGFP蛋白后,作用于HepG2,细胞经流式细胞仪及激光共聚焦检测R9细胞穿膜肽的作用效果。实验结果显示在SUMO分子伴侣的作用下,R9-EGFP融合蛋白获得可溶性表达。经流式细胞仪检测,R9细胞穿膜肽可以快速有效的携带目的蛋白进入细胞内部且呈时间、剂量依赖性,大约1.5 h以后荧光强度进入平台期。共聚焦显微镜检测结果表明R9细胞穿膜肽可以有效携带EGFP进入HepG2细胞,并显示主要聚集在细胞浆内。同时体外经肝素抑制实验显示,肝素抑制R9-EGFP穿膜的效率达到50%。这些结果表明,可以利用pSUMO-R9/Ni-NTA表达纯化系统,快速、有效地表达出可溶性多聚精氨酸融合蛋白,同时R9细胞穿膜肽可以有效地携带目的蛋白进入细胞内,为进一步研究多聚精氨酸的穿膜机制提供了基础。  相似文献   

7.
8.
Despite the powerful impact gene expression markers like the green fluorescent protein (GFP) or enhanced GFP (EGFP) exert on linking the expression of recombinant protein for selection of high producers in recent years, there is still a strong incentive to develop more economical and efficient methods for isolating mammalian cell clones secreting high levels of recombinant proteins. Here we present a new method based on the co-expression of EGFP that allows clonal selection in standard 96-well cell culture plates. The genes encoding the EGFP protein and the related protein are linked by an internal ribosome entry site and thus are transcribed into the same mRNA in an independent translation process. Since both proteins arise from a common mRNA, the EGFP expression level correlates with the expression level of the therapeutic protein in each clone. By expressing recombinant porcine β-defensin 1 in Marc 145 cells, we demonstrate the robustness and performance of this technique. The method can be served as an alternative to identify high-producer clones with various cell sorting methods.  相似文献   

9.
We investigate the potential of dual-color photon counting histogram (PCH) analysis to resolve fluorescent protein mixtures directly inside cells. Because of their small spectral overlap, we have chosen to look at the fluorescent proteins EGFP and mRFP1. We experimentally demonstrate that dual-color PCH quantitatively resolves a mixture of EGFP and mRFP1 in cells from a single measurement. To mimic the effect of protein association, we constructed a fusion protein of EGFP and mRFP1 (denoted EGFP-mRFP1). Fluorescence resonant energy transfer within the fusion protein alters the dual-channel brightness of the fluorophores. We describe a model for fluorescence resonant energy transfer effects on the brightness and incorporate it into dual-color PCH analysis. The model is verified using fluorescence lifetime measurements. Dual-color PCH analysis demonstrated that not all of the expressed EGFP-mRFP1 fusion proteins contained a fluorescent mRFP1 molecule. Fluorescence lifetime and emission spectra measurements confirmed this surprising result. Additional experiments show that the missing fluorescent fraction of mRFP1 is consistent with a dark state population of mRFP1. We successfully resolved this mixture of fusion proteins with a single dual-color PCH measurement. These results highlight the potential of dual-color PCH to directly detect and quantify protein mixtures in living cells.  相似文献   

10.
Green fluorescent protein (GFP) and its derivatives are the most widely used molecular reporters for live cell imagining. The development of organelle-specific fusion fluorescent proteins improves the labeling resolution to a higher level. Here we generate a R26 dual fluorescent protein reporter mouse, activated by Cre-mediated DNA recombination, labeling target cells with a chromatin-specific enhanced green fluorescence protein (EGFP) and a plasma membrane-anchored monomeric cherry fluorescent protein (mCherry). This dual labeling allows the visualization of mitotic events, cell shapes and intracellular vesicle behaviors. We expect this reporter mouse to have a wide application in developmental biology studies, transplantation experiments as well as cancer/stem cell lineage tracing.  相似文献   

11.
Previously, we described GFP-spectrin, a membrane-localized derivative of the green fluorescent protein that can be employed as a marker during the simultaneous identification of transfected cells and cell cycle analysis by flow cytometry (Kalejta et al., Cytometry 29: 286-291, 1997). A membrane-anchored GFP fusion protein is necessary because the ethanol permeabilization step required to achieve efficient propidium iodide staining allows cytoplasmic GFP to leach out of the cell. However, viable cells expressing GFP-spectrin are not as bright as cells expressing cytoplasmic GFP and their fluorescence intensity is further diminished after ethanol treatment. Here, we demonstrate that the fluorescence intensity of cells expressing an integral membrane GFP fusion protein (Us9-GFP) is similar to that of cells expressing cytoplasmic GFP and is quantitatively maintained in cells after ethanol treatment. By allowing an accurate assessment of the expression level of GFP, Us9-GFP allows a more precise analysis of the effects of a cotransfected plasmid on the cell cycle and thus represents an improvement upon the original membrane-associated GFP fusion proteins employed in this assay.  相似文献   

12.
The p53 protein is a major regulator of cell cycle progression and apoptosis. We used a p53-enhanced green fluorescent protein (EGFP) construct for transfections into human breast cancer (MCF-7) cells. Cells expressing p53-EGFP showed an increased apoptotic index compared to cells transfected with EGFP alone. Interestingly, apoptotic cells showed localization of p53-EGFP to both nuclei and cytoplasm, whereas non-apoptotic cells usually only showed nuclear localization of p53-EGFP. This result is in agreement with the hypothesis that p53 induces apoptosis by interaction with both nuclear and cytoplasmic targets. Transfected p53-deficient osteosarcoma cells were used for immunofluorescence quantitation. The intensity of immunofluorescence for either p53 or EGFP showed excellent linear correlation to the EGFP autofluorescence, proving that measurements of immunofluorescence intensities can be used for determining endogenous protein levels.  相似文献   

13.
The sites of desaturation in plant cells were studied by expressing the fusion gene composed of the genes encoding FAD2 (Δ12 desaturase) from spinach (Spinacia oleracea) and enhanced green fluorescent protein (EGFP) under the control of the 35S cauliflower mosaic virus promoter. The chimeric protein was functional in tobacco (Nicotiana tabacum) BY-2 cells. The temporal changes in distribution and localization of fusion FAD2-EGFP protein were studied. According to the results obtained, we can conclude that the sites of desaturation in plant cells are associated with both the endoplasmic reticulum and plasma membrane.  相似文献   

14.
Fluorescence resonance energy transfer (FRET) detection in fusion constructs consisting of green fluorescent protein (GFP) variants linked by a sequence that changes conformation upon modification by enzymes or binding of ligands has enabled detection of physiological processes such as Ca(2+) ion release, and protease and kinase activity. Current FRET microscopy techniques are limited to the use of spectrally distinct GFPs such as blue or cyan donors in combination with green or yellow acceptors. The blue or cyan GFPs have the disadvantages of less brightness and of autofluorescence. Here a FRET imaging method is presented that circumvents the need for spectral separation of the GFPs by determination of the fluorescence lifetime of the combined donor/acceptor emission by fluorescence lifetime imaging microscopy (FLIM). This technique gives a sensitive, reproducible, and intrinsically calibrated FRET measurement that can be used with the spectrally similar and bright yellow and green fluorescent proteins (EYFP/EGFP), a pair previously unusable for FRET applications. We demonstrate the benefits of this approach in the analysis of single-cell signaling by monitoring caspase activity in individual cells during apoptosis.  相似文献   

15.
Tagged G-protein-coupled receptors (GPCRs) have been used to facilitate intracellular visualization of these receptors. We have used a combination of adenoviral vector gene transfer and tagged olfactory receptors to help visualize mammalian olfactory receptor proteins in the normal olfactory epithelium of rats, and in cell culture. Three recombinant adenoviral vectors were generated carrying variously tagged versions of rat olfactory receptor I7. The constructs include an N-terminal Flag epitope tag (Flag:I7), enhanced green fluorescent protein (EGFP) fusion protein (EGFP:I7), and a C-terminal EGFP fusion (I7:EGFP). These receptor constructs were assayed in rat olfactory sensory neurons (OSNs) and in a heterologous system (HEK 293 cell line) for protein localization and functional expression. Functional expression of the tagged receptor proteins was tested by electroolfactogram (EOG) recordings in the infected rat olfactory epithelium, and by calcium imaging in single cells. Our results demonstrate that the I7:EGFP fusion protein and Flag:I7 are functionally expressed in OSNs while the EGFP:I7 fusion is not, probably due to inappropriate processing of the protein in the cells. These data suggest that a small epitope tag (Flag) at the N-terminus, or EGFP located at the C-terminus of the receptor, does not affect ligand binding or downstream signaling. In addition, both functional fusion proteins (Flag:I7 and I7:EGFP) are properly targeted to the plasma membrane of HEK 293 cells.  相似文献   

16.
Screening of protein variants requires specific detection methods to assay protein levels and stability in crude mixtures. Many strategies apply fluorescence‐detection size‐exclusion chromatography (FSEC) using green fluorescent protein (GFP) fusion proteins to qualitatively monitor expression, stability, and monodispersity. However, GFP fusion proteins have several important disadvantages; including false‐positives, protein aggregation after proteolytic removal of GFP, and reductions in protein yields without the GFP fusion. Here we describe a FSEC screening strategy based on a fluorescent multivalent NTA probe that interacts with polyhistidine‐tags on target proteins. This method overcomes the limitations of GFP fusion proteins, and can be used to rank protein production based on qualitative and quantitative parameters. Domain boundaries of the human G‐protein coupled adenosine A2a receptor were readily identified from crude detergent‐extracts of a library of construct variants transiently produced in suspension‐adapted HEK293‐6E cells. Well expressing clones of MraY, an important bacterial infection target, could be identified from a library of 24 orthologs. This probe provides a highly sensitive tool to detect target proteins to expression levels down to 0.02 mg/L in crude lysate, and requires minimal amounts of cell culture.  相似文献   

17.
诸多研究证明,重组人角质细胞生长因子2对毛发的生长具有显著的促进作用,根据rhKGF2的毛发生长作用,设计实验,成功构建rhKGF2-EGFP (增强型绿色荧光蛋白)融合蛋白的表达载体,并获得rhKGF2-EGFP融合蛋白的纯品.在得到蛋白纯品后通过冻干再水化法制备出rhKGF2-EGFP脂质体.再利用脂质体利于皮肤的渗透和缓释的作用特性及EGFP的荧光特性,进行rhKGF2-EGFP脂质体的毛发生长相关的皮肤渗透性研究.  相似文献   

18.
Green fluorescent antibodies: novel in vitro tools   总被引:10,自引:0,他引:10  
We produced a fluorescent antibody as a single recombinant protein in Escherichia coli by fusing a red-shifted mutant of green fluorescent protein (EGFP) to a single-chain antibody variable fragment (scFv) specific for hepatitis B surface antigen (HepBsAg). GFP is a cytoplasmic protein and it was not previously known whether it would fold correctly to form a fluorescent protein in the periplasmic space of E.COLI: In this study we showed that EGFP alone or fused to the N'- and C'-termini of the scFv resulted in fusion proteins that were in fact highly fluorescent in the periplasmic space of E.COLI: cells. Further characterization revealed that the periplasmic N'-terminal EGFP-scFv fusion was the most stable form which retained the fluorescent properties of EGFP and the antigen binding properties of the native scFv; thus representing a fully functional chimeric molecule. We also demonstrated the utility of EGFP-scFv in immunofluorescence studies. The results showed positive staining of COS-7 cells transfected with HepBsAg, with comparable sensitivity to a monoclonal antibody or the scFv alone, probed with conventional fluorescein-labelled second antibodies. In this study, we developed a simple technique to produce fluorescent antibodies which can potentially be applied to any scFv. We demonstrated the utility of an EGFP-scFv fusion protein for immunofluorescence studies, but there are many biological systems to which this technology may be applied.  相似文献   

19.
Nuclear localization of enhanced green fluorescent protein homomultimers   总被引:4,自引:0,他引:4  
The green fluorescent protein (GFP) and its variants are used in many studies to determine the subcellular localization of other proteins by analyzing fusion proteins. The main problem for nuclear localization studies is the fact that, to some extent, GFP translocates to the nucleus on its own. Because the nuclear import could be due to unspecific diffusion of the relatively small GFP through the nuclear pores, we analyzed the localization of multimers of a GFP variant, the enhanced GFP (EGFP). By detecting the fluorescence of the expressed proteins in gels after nonreducing SDS-PAGE, we demonstrate the integrity of the expressed proteins. Nevertheless, even EGFP homotetramers and homohexamers are found in the nuclei of the five analyzed mammalian cell lines. The use of fusion constructs of small proteins with multimeric EGFP alone, therefore, is not adequate to prove nuclear import processes. Fusion to tetrameric EGFP in combination with a careful quantification of the fluorescence intensities in the nucleus and cytoplasm might be sufficient in many cases to identify a significant difference between the fusion protein and tetrameric EGFP alone to deduce a nuclear localization signal.  相似文献   

20.
目的:构建人尿激酶型纤溶酶原激活因子(uPA)截短型突变体与绿色荧光蛋白(EGFP)分泌型融合表达载体并在真核细胞中表达。方法:采用PCR法,分别以质粒pIRES2-EGFP和重组质粒pcDNA3.1(+)/uPA为模板,扩增出带BamHⅠ和XbaⅠ酶切位点的EGFP及带NheⅠ和HindⅢ酶切位点的uPA截短体基因片段,先后将EGFP和截短型uPA基因片段克隆到真核表达载体pcDNA3.1(+)上,转入HEK293F细胞,用G418对转染细胞进行加压筛选,通过共聚焦显微镜观察和ELISA方法鉴定表达产物。结果:DNA测序结果显示,uPA不同截短型突变体基因片段与EGFP基因融合的真核表达载体构建成功,共聚焦显微镜观察发现HEK293F细胞中有绿色荧光且定位于细胞质中,ELISA检测到HEK293F细胞培养上清中分泌型融合蛋白的表达。结论:构建了uPA截短型突变体与EGFP分泌型融合表达载体并在真核细胞中表达,为后期研究uPA的相互作用蛋白及其生理功能奠定了基础。  相似文献   

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