A bovine papilloma virus vector with a dominant resistance marker replicates extrachromosomally in mouse and E. coli cells

We describe the construction of a bovine papilloma virus-based vector (pCGBPV9) which contains a dominant selectable marker and replicates autonomously in both mouse and Escherichia coli cells. This vector contains the complete bovine papilloma virus genome, a ColE1 replication origin and a dominant selectable marker conferring resistance to kanamycin in bacteria and G418 in eukaryotic cells. A high number of G418R colonies are obtained after transfer of pCGBPV9 into mouse C127 cells. These G418R colonies contain vector DNA which replicates autonomously at approximately 10-30 copies per cell. The molecules are in most cases unrearranged and can be rescued into E. coli cells by bacterial transformation.     

Characterization of a retrovirus shuttle vector capable of either proviral integration or extrachromosomal replication in mouse cells.

A retrovirus shuttle vector is described that contains the dominant selectable neo gene which confers resistance to kanamycin in bacteria and to the drug G418 in animal cells. The bacterial supF gene and the origins of DNA replication from polyomavirus and the ColE1 replicon also have been included in this vector. Infection of normal rodent cells results in single-copy proviral integration, whereas infection of mouse (MOP) cells expressing polyoma large T antigen results in extrachromosomal replication of the DNA form of the virus. The copy number of the extrachromosomal circles in MOP cells varies from 0 to 100 copies per cell. G418-resistant MOP cells lose their drug-resistant phenotype after passage under nonselective conditions, suggesting that maintenance of the extrachromosomal circles is unstable. The extrachromosomal form of the virus can be recovered as plasmids in Escherichia coli. Two-thirds of the circles analyzed were found to be structurally intact. The others have undergone rearrangements including deletions and insertions. The bacterial supF gene was found to be intact in the majority of recovered plasmids. The data presented here suggest that these retroviruses should be useful as gene transfer vectors for animal cells in culture or in vivo.     

A shuttle vector which facilitates the expression of transfected genes in Trypanosoma cruzi and Leishmania.

A Trypanosoma cruzi expression vector has been constructed using sequences derived from the flanking regions of the glyceraldehyde 3-phosphate dehydrogenase (gGAPDH) genes. The neomycin phosphotransferase (neor) gene was incorporated as a selectable marker. Using electroporation we have introduced this vector into both T. cruzi and Leishmania cells and conferred G418 resistance. Transformation is mediated by large extrachromosomal circular elements composed of head-to-tail tandem repeats of the vector. The transformed phenotype is stable for at least 6 months in the absence of G418 and can be maintained during passage through the T. cruzi life-cycle. Foreign genes inserted into an expression site within the vector (pTEX) can be expressed at high levels in transformed cells. To our knowledge this paper describes the first trypanosome shuttle vector and the first vector which functions in both trypanosomes and Leishmania.     

Plasmidial maintenance in rodent fibroblasts of a BPV1-pBR322 shuttle vector without immediately apparent oncogenic transformation of the recipient cells.

A recombinant plasmid was constructed (pV69) which comprises a subgenomic fragment of bovine papilloma virus type 1 (BPV1) DNA, part of plasmid pBR322 DNA and a drug resistance gene expressed in both mammalian fibroblasts and Escherichia coli. This gene (vv2) is a modified form of the bacterial neomycin resistance gene (neo) linked to the herpes simplex virus thymidine kinase (tk) promoter (plasmid pAG60), to which the original bacterial neo promoter from transposon Tn5 was added back, upstream of the eukaryotic promoter. It induced kanamycin resistance in E. coli, as well as resistance to the drug G418 in rat and mouse fibroblasts. Its expression in FR3T3 rat cells was enhanced as compared with the original tk-neo construction. After transfer of plasmid pV69 into C127 mouse cells or FR3T3 rat cells, the number of resistant colonies selected in medium containing G418 was one to two orders of magnitude higher than that of transformed foci in normal medium. In eight independent cell lines selected by drug resistance, pV69 DNA was found to be maintained in a plasmidial state, without any detectable rearrangement or deletion and could be transferred back in E. coli. In contrast, cell lines selected by focus formation in normal medium maintained deleted forms of the original plasmid DNA, and only part of them were resistant to G418. Most of the drug-resistant clones had kept the morphology and growth control of the normal fibroblasts. However, with further passages in culture, these cells spontaneously produced transformed foci with increasing frequencies.     

人TNF-α双顺反子逆转录病毒载体的构建及其在成纤维细胞中的表达

利用脑炎心肌炎病毒的内核糖体进入位点连接人ＴＮＦ－αｃＤＮＡ和选择基因ＮｅｏＲ基因,使ＴＮＦ－α及ＮｅｏＲ基因均受控于病毒ＬＴＲ启动子,将两基因同时转录至同一ｍＲＮＡ,从而构建成人ＴＮＦ－α双顺反子逆转录病毒载体ｐＧＣＥＮ／ＴＮＦ－α．在ＬｉｐｏｆｅｃｔＡＭＩＮＥ介导下将其导入包装细胞ＰＡ３１７,Ｇ４１８筛选得单克隆,病毒滴度为１０６ＣＦＵ／ｍｌ重组病毒分泌的细胞株．经ＰＣＲ证明外源基因已整合至细胞基因组,Ｎｏｒｔｈｅｒｎ印迹显示出单一ＬＲＴ转录本．持续Ｇ４１８筛选能明显促进目的基因ＴＮＦ－α的表达．用重组病毒上清感染小鼠成纤维细胞ＮＩＨ３Ｔ３,Ｇ４１８筛选获得的混合抗性克隆持续高表达ＴＮＦ－α,４０Ｇｙγ线照射后能维持高效表达至７ｄ．实验结果表明,含ＩＲＥＳ的双顺反子逆转录病毒载体将是一个很好的基因转移载体．     

Isolation of microcell hybrid clones containing retroviral vector insertions into specific human chromosomes.

We sought an efficient means to introduce specific human chromosomes into stable interspecific hybrid cells for applications in gene mapping and studies of gene regulation. A defective amphotropic retrovirus was used to insert the gene conferring G418 resistance (neo), a dominant selectable marker, into the chromosomes of diploid human fibroblasts, and the marked chromosomes were transferred to mouse recipient cells by microcell fusion. We recovered five microcell hybrid clones containing one or two intact human chromosomes which were identified by karyotype and marker analysis. Integration of the neo gene into a specific human chromosome in four hybrid clones was confirmed by segregation analysis or by in situ hybridization. We recovered four different human chromosomes into which the G418 resistance gene had integrated: human chromosomes 11, 14, 20, and 21. The high efficiency of retroviral vector transformation makes it possible to insert selectable markers into any mammalian chromosomes of interest.     

Establishment of a xylose metabolic pathway in an industrial strain of Saccharomyces cerevisiae

To produce an industrial strain of Saccharomyces cerevisiae that metabolizes xylose, we constructed a rDNA integration vector and YIp integration vector, containing the xylose-utilizing genes, XYL1 and XYL2, which encode xylose reductase (XR) and xylitol dehydrogenase (XDH) from Pichia stipitis, and XKS1, which encodes xylulokinase (XK) from S. cerevisiae, with the G418 resistance gene KanMX as a dominant selectable marker. The rDNA results in integration of multiple copies of the target genes. The industrial stain of S. cerevisiae NAN-27 was transformed with the two integration vectors to produce two recombinant strains, S. cerevisiae NAN-127 and NAN-123. Upon transformation, multiple copies of the xylose-utilizing genes were integrated into the genome rDNA locus of S. cerevisiae. Strain NAN-127 consumed twice as much xylose and produced 39% more ethanol than the parent strain, while NAN-123 consumed 10% more xylose and produced 10% more ethanol than the parent strain over 94 h.     

Selection of Dictyostelium discoideum transformants and analysis of vector maintenance using live bacteria resistant to G418.

A protocol that allows the rapid isolation and growth of large numbers of independent G418-resistant Dictyostelium discoideum transformant colonies on the surface of agar media with live bacteria was developed. Transformants grown under these conditions form normal fruiting bodies. Discovery that aggregation of nontransformants was inhibited at a nonselective level of G418 (25 to 35 micrograms/ml) led to the development of a vector maintenance assay. Using this assay we examined the stability of recombinant plasmids derived from the D. discoideum native plasmids Ddp1 and Ddp2. We conclude that the origin of replication of plasmid Ddp1 does not alone confer stable maintenance and thus, Ddp1 must bear additional sequences required for its own maintenance. Analysis of the maintenance of vectors derived from Ddp2 showed that autonomously replicating shuttle vectors that contained bacterial plasmid DNA and from which one element of the Ddp2 inverted repeat was removed were much less stable than vectors that contained a complete inverted repeat or that did not carry a bacterial plasmid. Sequences between the 3' end of the rep gene and the inverted repeat appear to play a role in plasmid maintenance. An intact rep gene and one copy of the inverted repeat element were required for extrachromosomal replication. Maintenance of extrachromosomal vectors was found to be strain dependent. Four traits distinguishing integrating vectors from those capable of autonomous replication were identified.     

Expression of rat neurofilament proteins NF-L and NF-M in transfected non-neuronal cells

Two cDNA clones fully encoding the rat neurofilament proteins NF-L and NF-M were subcloned into eukaryotic expression vectors behind the strong constitutive viral promoters from SV40 and Rous sarcoma viruses. Transient transfection of L tk- and Cos cell lines with these expression constructs resulted in cells expressing the neurofilament proteins in an intermediate filament-type pattern. Additionally, a putative juxtanuclear organizing center or region was observed in the transfected cells, most noticeable shortly after the transfection procedure. Stable transfections were performed on mouse L tk- and Swiss 3T6 cells using NF-L and NF-M constructs bearing an SV40 early promoter driven neomycin selectable marker. Although G418-resistant clones were recovered with both the NF-L and the NF-M constructs, only clones expressing immunofluorescently stainable amounts of NF-M were detected and established. Immunoelectron microscopic analysis revealed NF-M and vimentin proteins to be colocalized on the same intermediate filaments.     

The 35-kilodalton protein gene (p35) of Autographa californica nuclear polyhedrosis virus and the neomycin resistance gene provide dominant selection of recombinant baculoviruses.

Autographa californica nuclear polyhedrosis virus (AcMNPV) recombinants were constructed to test the effectiveness of the AcMNPV 35-kilodalton protein gene (35K gene) and the bacterial neomycin resistance gene (neo) as dominant selectable markers for baculoviruses. Insertion of the AcMNPV apoptosis suppressor gene (p35) into the genome of p35-deletion mutants inhibited premature host cell death and increased virus yields up to 1200-fold at low multiplicities in Spodoptera frugiperda (SF21) cell cultures. When placed under control of an early virus promoter, the bacterial neomycin resistance gene (neo) restored multiplication of AcMNPV in the same cells treated with concentrations of the antibiotic G418 that inhibited wild-type virus growth greater than 1000-fold. The selectivity of these dominant markers was compared by serial passage of recombinant virus mixtures. After four passages, the proportion of p35-containing virus increased as much as 2,000,000-fold relative to deletion mutants, whereas the proportion of neo-containing viruses increased 500-fold relative to wild-type virus under G418 selection. The strength and utility of p35 as a selectable marker was further demonstrated by the construction of AcMNPV expression vectors using polyhedrin-based transfer plasmids that contain p35. Recombinant viruses with foreign gene insertions at the polyhedrin locus accounted for 15 to 30% of the transfection progeny. The proportion of desired viruses was increased to greater than 90% by linearizing the parental virus DNA at the intended site of recombination prior to transfection. These results indicate that p35 and neo facilitate the selection of baculovirus recombinants and that p35, in particular, is an effective marker for the generation of AcMNPV expression vectors.     

Advanced mammalian gene transfer: high titre retroviral vectors with multiple drug selection markers and a complementary helper-free packaging cell line.

We report the development of an advanced system for transfer and expression of exogenous genes in mammalian cells based on Moloney murine leukemia virus (Mo MuLV). Extensive deletion/mutagenesis analysis to identify cis-acting signals involved in virus transmission has led to the design of a family of novel, highly efficient retroviral vectors and a partner helper-free packaging cell line. The pBabe retroviral vector constructs transmit inserted genes at high titres and express them from the Mo MuLV Long Terminal Repeat (LTR). Each of these vectors has been constructed with one of four different dominantly acting selectable markers, allowing the growth of infected mammalian cells in the presence of G418, hygromycin B, bleomycin/phleomycin or puromycin, respectively. The high titre ecotropic helper free packaging cell line, omega E, was designed in conjunction with the pBabe vectors to reduce the risk of generation of wild type Mo MuLV via homologous recombination events. The omega E cell line was generated with separate gagpol and ecotropic env expression constructs with minimal sequence overlap and decreased sequence homology achieved by 'codon wobbling'. Homologous env coding sequences were deleted from the pBabe vectors without diminishing recombinant vector titre. Together, the pBabe vectors and omega E cell line should prove useful in experiments where highest frequencies of gene transfer, or concomitant expression of several different genes within a single cell are required with minimal risk of helper virus contamination.     

Generation of transgenic chicks using an oviduct-specific expression system

We successfully replaced the ovalbumin gene of a magnum region in chickens with a human plasminogen activator. We constructed pL-eGFP, pL-tPAGFP and pL-2.8OVtPAGFP vectors and cultured 293FT chicken embryo fibroblasts, chicken primordial germ cells, Hela C127 cells, and oviduct epithelial cells. All vectors were expressed in the transfected cells, except pL-2.8OVtPAGFP vector, which was only expressed in oviduct epithelial cells. A lentivirus with pL-2.8OVtPAGFP was injected in fertilized eggs; 11 chicks hatched in the G? generation, four of them carried the tPAGFP. Two cockerels from the G? generation were crossed with four wild-type hens. Three chicks in G? carried the tPAGFP. We concluded that by using an oviduct-specific vector for transfection, human recombinant plasminogen activator protein can be expressed in the oviducts of laying hens. This character is inherited and can be reproduced with a need for repeated transfection.     

Circular YAC vectors containing short mammalian origin sequences are maintained under selection as HeLa episomes

pYACneo, a 15.8-kb plasmid, contains a bacterial origin, G418-resistance gene, and yeast ARS, CEN, and TEL elements. Three mammalian origins have been cloned into this circular vector: 343, a 448-bp chromosomal origin from a transcribed region of human chromosome 6q; X24, a 4.3-kb element containing the hamster DHFR origin of bidirectional replication (oribeta), and S3, a 1.1-kb human anti-cruciform purified autonomously replicating sequence. The resulting constructs have been transfected into HeLa cells, and G418-resistant subcultures were isolated. The frequency of G418-resistant transformation was 1.7-8.7 times higher with origin-containing YACneo than with vector alone. After >45 generations under G418 selection, the presence of episomal versus integrated constructs was assessed by fluctuation assay and by PCR of supercoiled, circular, and linear genomic cellular DNAs separated on ethidium bromide-cesium chloride gradients. In stable G418-resistant subcultures transfected with vector alone or with linearized constructs, as well as in some subcultures transfected with circular origin-containing constructs, resistance was conferred by integration into the host genome. However, several examples were found of G418-resistant transfectants maintaining the Y.343 and the YAC.S3 circular constructs in a strictly episomal state after long-term culture in selective medium, with 80-90% stability per cell division. The episomes were found to replicate semiconservatively in a bromodeoxyuridine pulse-labeling assay for 相似文献   

A polyoma-based episomal vector efficiently expresses exogenous genes in mouse embryonic stem cells.

We describe the ability of novel episomally maintained vectors to efficiently promote gene expression in embryonic stem (ES) cells as well as in established mouse cell lines. Extrachromosomal maintenance of our vectors is based on the presence of polyoma virus DNA sequences, including the origin of replication harboring a mutant enhancer (PyF101), and a modified version of the polyoma early region (LT20) encoding the large T antigen only. Reporter gene expression from such extrachromosomally replicating vectors was approximately 10-fold higher than expression from replication-incompetent control plasmids. After transfection of different ES cell lines, the polyoma virus-derived plasmid variant pMGD20neo (7.2 kb) was maintained episomally in 16% of the G418-resistant clones. No chromosomal integration of pMGD20neo vector DNA was detected in ES cells that contained episomal vector DNA even after long term passage. The vector's replication ability was not altered after insertion of up to 10 kb hprt gene fragments. Besides undifferentiated ES cells, the polyoma-based vectors were also maintained extrachromosomally in differentiating ES cells and embryoid bodies as well as in established mouse cell lines.