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11.
Gao Y Yue W Zhang P Li L Xie X Yuan H Chen L Liu D Yan F Pei X 《Biochemical and biophysical research communications》2005,335(2):343-350
spindlin1, a novel human gene recently isolated by our laboratory, is highly homologous to mouse spindlin gene. In this study, we cloned cDNA full-length of this novel gene and send it to GenBank database as spindlin1 (Homo sapiens spindlin1) with Accession No. AF317228. In order to investigate the function of spindlin1, we studied further the subcellular localization of Spindlin1 protein and the effects of spindlin1 overexpression in NIH3T3 cells. The results showed that the fusion protein pEGFP-N1-spindlin1 was located in the nucleus and the C-terminal is correlated with nuclear localization of Spindlin1 protein. NIH3T3 cells which could stably express spindlin1 as a result of RT-PCR analysis compared with the control cells displayed a complete morphological change; made cell growth faster; and increased the percentage of cells in G2/M and S phase. Furthermore, overexpressed spindlin1 cells formed colonies in soft agar in vitro and formed tumors in nude mice. Our findings provide direct evidence that spindlin1 gene may contribute to tumorigenesis. 相似文献
12.
Exploring polyethylenimine-mediated DNA transfection and the proton sponge hypothesis 总被引:6,自引:0,他引:6
BACKGROUND: The relatively high transfection efficiency of polyethylenimine (PEI) vectors has been hypothesized to be due to their ability to avoid trafficking to degradative lysosomes. According to the proton sponge hypothesis, the buffering capacity of PEI leads to osmotic swelling and rupture of endosomes, resulting in the release of the vector into the cytoplasm. METHODS: The mechanism of PEI-mediated DNA transfer was investigated using quantitative methods to study individual steps in the overall transfection process. In addition to transfection efficiency, the cellular uptake, local pH environment, and stability of vectors were analyzed. N-Quaternized (and therefore non-proton sponge) versions of PEI and specific cell function inhibitors were used to further probe the proton sponge hypothesis. RESULTS: Both N-quaternization and the use of bafilomycin A1 (a vacuolar proton pump inhibitor) reduced the transfection efficiency of PEI by approximately two orders of magnitude. Chloroquine, which buffers lysosomes, enhanced the transfection efficiency of N-quaternized PEIs and polylysine by 2-3-fold. In contrast, chloroquine did not improve the transfection efficiency of PEI. The measured average pH environment of PEI vectors was 6.1, indicating that they successfully avoid trafficking to acidic lysosomes. Significantly lower average pH environments were observed for permethyl-PEI (pH 5.4), perethyl-PEI (pH 5.1), and polylysine (pH 4.6) vectors. Cellular uptake levels of permethyl-PEI and perethyl-PEI vectors were found to be 20 and 90% higher, respectively, than that of parent PEI vectors, indicating that the reduction in transfection activity of the N-quaternized PEIs is due to a barrier downstream of cellular uptake. A polycation/DNA-binding affinity assessment showed that the more charge dense N-quaternized PEIs bind DNA less tightly than PEI, demonstrating that poor vector unpackaging was not responsible for the reduced transfection activity of the N-quaternized PEIs. CONCLUSIONS: The results obtained are consistent with the proton sponge hypothesis and strongly suggest that the transfection activity of PEI vectors is due to their unique ability to avoid acidic lysosomes. 相似文献
13.
Patience Mthunzi Kuang He Sandile Ngcobo Thulile Khanyile Jamie H. Warner 《Journal of biophotonics》2014,7(5):351-362
Pluripotent stem cells are hugely attractive in the tissue engineering research field as they can self‐renew and be selectively differentiated into various cell types. For stem cell and tissue engineering research it is important to develop new, biocompatible scaffold materials and graphene has emerged as a promising material in this area as it does not compromise cell proliferation and accelerates specific cell differentiation. Previous studies have shown a non‐invasive optical technique for mouse embryonic stem (mES) cell differentiation and transfection using femtosecond (fs) laser pulses. To investigate cellular responses to the influence of graphene and laser irradiation, here we present for the first time a study of mES cell fs laser transfection on graphene coated substrates. First we studied the impact of graphene on Chinese Hamster Ovary (CHO‐K1) cell viability and cell cytotoxicity in the absence of laser exposure. These were tested via evaluating the mitochondrial activity through adenosine triphosphates (ATP) luminescence and breakages on the cell plasma membrane assessed using cytosolic lactate dehydrogenase (LDH) screening. Secondly, the effects of fs laser irradiation on cell viability and cytotoxicity at 1064 and 532 nm for cells plated and grown on graphene and pure glass were assessed. Finally, optical transfection of CHO‐K1 and mES cells was performed on graphene coated versus plain glass substrates. Our results show graphene stimulated cell viability whilst triggering a mild release of intracellular LDH. We also observed that compared to pure glass substrates; laser irradiation at 1064 nm on graphene plates was less cytotoxic. Finally, in mES cells efficient optical transfection at 1064 (82%) and 532 (25%) nm was obtained due to the presence of a graphene support as compared to pristine glass. Here we hypothesize an up‐regulation of cell adhesion promoting peptides or laminin‐related receptors of the extracellular matrix (ECM) in cell samples grown and irradiated on graphene substrates. By bringing together advances in optics and nanomaterial sciences we demonstrate pathways for enhancement of pluripotent stem cell biology. (© 2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
14.
The technologies of recombinant gene expression have greatly enhanced the structural and functional analyses of genetic elements and proteins. Vaccinia virus, a large double-stranded DNA virus and the prototypic and best characterized member of the poxvirus family, has been an instrumental tool among these technologies and the recombinant vaccinia virus system has been widely employed to express genes from eukaryotic, prokaryotic, and viral origins. Vaccinia virus is also the prototype live viral vaccine and serves as the basis for well established viral vectors which have been successfully evaluated as human and animal vaccines for infectious diseases and as anticancer vaccines in a variety of animal model systems. Vaccinia virus technology has also been instrumental in a number of unique applications, from the discovery of new viral receptors to the synthesis and assembly of other viruses in culture. Here we provide a simple and detailed outline of the processes involved in the generation of a typical recombinant vaccinia virus, along with an up to date review of relevant literature. 相似文献
15.
Vectors derived from adeno-associated virus type 2 (AAV2) are promising gene delivery vehicles, but it is still challenging to get the large number of recombinant adeno-associated virus (rAAV) particles required for large animal and clinical studies. Current transfection technology requires adherent cultures of HEK 293 cells that can only be expanded by preparing multiple culture plates. A single large-scale suspension culture could replace these multiple culture preparations, but there is currently no effective co-transfection scheme for generating rAAV from cells in suspension culture. Here, we weaned HEK 293 cells to suspension culture using hydrogel-coated six-well culture plates and established an efficient transfection strategy suitable for these cells. Then the cultures were gradually scaled up. We used linear polyethylenimine (PEI) to mediate transfection and obtained high transfection efficiencies ranging from 54% to 99%, thereby allowing efficient generation of rAAV vectors. Up to 10(13) rAAV particles and, more importantly, up to 10(11) infectious particles were generated from a 2-L bioreactor culture. The suspension-transfection strategy of this study facilitates the homogeneous preparation of rAAV at a large scale, and holds further potential as the basis for establishing a manufacturing process in a larger bioreactor. 相似文献
16.
目的:构建携带突变Kras基因,以增强型绿色荧光蛋白(EGFP)为报告基因的重组真核表达载体,并导入两种不同的肝细胞株中表达。方法:PCR扩增突变Kras目的基因,将该全长基因定向克隆至真核表达载体pEGFP-N1上,构建重组质粒载体。并利用脂质体转染人肝癌细胞株Huh7.5和鸡肝癌细胞株LMH,在活细胞状态下用荧光显微镜直接观察Kras-EGFP融合蛋白在细胞中的表达;用WesternBlotting方法验证Kras蛋白水平的表达。结果:酶切和测序证实pEGFP—N1-Kras重组质粒构建正确,将EGFP报告基因融合在突变的Kras基因的3’端;在Huh7.5和LMH中均观察到了绿色荧光,转染率分别为19%和53%;WesternBlott—ing也检测到融合蛋白的表达。结论:通过基因克隆方法成功构建了pEGFP—N1-Kras重组质粒载体,并且在Huh7.5和LMH中均稳定表达,为下一步筛选针对突变Kras基因的靶向药物奠定了基础。 相似文献
17.
The efficient transfection of cloned genes into mammalian cells system plays a critical role in the production of large quantities of recombinant proteins (r-proteins). In order to establish a simple and scaleable transient protein production system, we have used a cationic lipid-based transfection reagent-FreeStyle MAX to study transient transfection in serum-free suspension human embryonic kidney (HEK) 293 and Chinese hamster ovary (CHO) cells. We used quantification of green fluorescent protein (GFP) to monitor transfection efficiency and expression of a cloned human IgG antibody to monitor r-protein production. Parameters including transfection reagent concentration, DNA concentration, the time of complex formation, and the cell density at the time of transfection were analyzed and optimized. About 70% GFP-positive cells and 50-80 mg/l of secreted IgG antibody were obtained in both HEK-293 and CHO cells under optimal conditions. Scale-up of the transfection system to 1 l resulted in similar transfection efficiency and protein production. In addition, we evaluated production of therapeutic proteins such as human erythropoietin and human blood coagulation factor IX in both HEK-293 and CHO cells. Our results showed that the higher quantity of protein production was obtained by using optimal transient transfection conditions in serum-free adapted suspension mammalian cells. 相似文献
18.
19.
目的:分析人骨髓间充质干细胞(hMSCs)和脐静脉内皮细胞(hUVECs)的基因表达差异,探讨体外基因转染诱导内皮分化的可行性以及作为血管组织工程种子细胞来源的应用前景。方法:分别从人骨髓和脐静脉分离间充质干细胞(hMSCs)和内皮细胞(hUVECs),扩增培养后进行流式细胞仪、免疫细胞化学,免疫荧光鉴定和超微结构观察。通过BiostarH-40S表达谱芯片分析,选择两者的差异表达基因,导入hMSCs,经RT-PCR、ELISA鉴定该基因的转染和表达,并分析hMSCs的内皮分化程度。结果:hMSCs表达内皮细胞的多种特异性mRNA,经VEGFl65基因瞬时转染后RT-PCR有明显条带,ELISA定量检测VEGF165蛋白表达为(707.9±11.3)ng/L,同时CD44表达明显下调38.80%,CD31则明显上调达56.82%,FI-1,FVⅢAg和CD34的表达也有不同程度升高。结论:hMSCs具有内皮分化潜能,体外基因转染诱导hMSCs产生功能性内皮细胞和组织工程化血管具有广阔前景。 相似文献
20.
应用PAMAM dendrimers作为DNA运送载体的体外研究 总被引:3,自引:0,他引:3
StarburstTM PAMAM dendrimers分子是一类新型的高分枝、辐射状对称的树状高分子,在生理条件下其表面具有高密度的正电荷,可以通过静电相互作用与核酸形成复合物后,介导遗传物质进入细胞.研究了G3, G3.5, G5, G7, G7.5, G9各代dendrimers分子与DNA结合后介导其转染细胞的能力,并初步评价这种复合物转染对细胞活力的影响.实验证实,全代的PAMAM dendrmers皆可与DNA结合,并可在体外培养的细胞中介导高效的DNA转染.PAMAM dendrimer/DNA复合物很稳定,在较大的pH值变化范围内(pH 2~10)不解离.PAMAM dendrimers可保护与之复合的DNA分子免受限制性内切酶的降解.在一定的电荷比范围内,高代数的dendrimers分子与DNA形成的复合物对培养细胞的转染效率高于低代数dendrimer分子,复合物所介导的转染效率在不同的细胞系之间也有差异.在有效作用浓度范围内(≤1.3×10-1 g/L),PAMAM dendrimers/DNA复合物对被转染细胞无毒性.但是,未与DNA复合的dendrimers分子在较低浓度时则表现出毒性,表明StarburstTM PAMAM dendrimers分子可作为新型的低毒非病毒DNA载体,用于介导DNA对体外培养细胞的转染. 这些前期观察,为将纳米级高分子聚合物dendrimers分子作为基因转运载体应用于体内提供了初步的实验依据. 相似文献